bims-cagime Biomed News
on Cancer, aging and metabolism
Issue of 2024‒06‒30
39 papers selected by
Kıvanç Görgülü, Technical University of Munich
  1. Potential association between PSCA rs2976395 functional variant and pancreatic cancer risk.
  2. Ferroptosis in health and disease.
  3. PGAM5 interacts with and maintains BNIP3 to license cancer-associated muscle wasting.
  4. Bidirectional relationship between acute pancreatitis and pancreatic cancer.
  5. Stress-dependent condensate formation regulated by the ubiquitin-related modifier Urm1.
  6. Multi-parametric atlas of the pre-metastatic liver for prediction of metastatic outcome in early-stage pancreatic cancer.
  7. Curvature-induced clustering of cell adhesion proteins.
  8. Type I conventional dendritic cells facilitate immunotherapy in pancreatic cancer.
  9. Pan-cancer proteogenomics expands the landscape of therapeutic targets.
  10. ConfluentFUCCI for fully-automated analysis of cell-cycle progression in a highly dense collective of migrating cells.
  11. Senescent cell-derived vaccines: a new concept towards an immune response against cancer and aging?
  12. Ferroptosis-like cell death promotes and prolongs inflammation in Drosophila.
  13. Autophagic signaling promotes systems-wide remodeling in skeletal muscle upon oncometabolic stress by D2-HG.
  14. Determining how many cells to average for statistical testing of microscopy experiments.
  15. Patterns of Aneuploidy and Signaling Consequences in Cancer.
  16. Raman micro-spectroscopy reveals the spatial distribution of fumarate in cells and tissues.
  17. Selection forces underlying aneuploidy patterns in cancer.
  18. Ferroptotic stress drives liver aging and metabolic dysfunction.
  19. GraphCompass: spatial metrics for differential analyses of cell organization across conditions.
  20. Molecular dynamics simulations reliably identify vibrational modes in far-IR spectra of phospholipids.
  21. Employing Bidirectional Two-Sample Mendelian Randomization Analysis to Verify the Potential of Polyunsaturated Fatty Acid Levels in the Prevention of Pancreatic Cancer.
  22. Lipids and proteins: Insights into the dynamics of assembly, recognition, condensate formation. What is still missing?
  23. METTL3-mediated chromatin contacts promote stress granule phase separation through metabolic reprogramming during senescence.
  24. Anti-tumor efficacy of HRS-4642 and its potential combination with proteasome inhibition in KRAS G12D-mutant cancer.
  25. cProSite: A web based interactive platform for online proteomics, phosphoproteomics, and genomics data analysis.
  26. Implications of mitochondrial membrane potential gradients on signaling and ATP production analyzed by correlative multi-parameter microscopy.
  27. TERT activation targets DNA methylation and multiple aging hallmarks.
  28. Open-ST: High-resolution spatial transcriptomics in 3D.
  29. Cancer research is not correlated with driver gene mutation burdens.
  30. CRISPR-Cas9 for selective targeting of somatic mutations in pancreatic cancers.
  31. Cancer metastasis through the lymphatic versus blood vessels.
  32. Palmitoylation promotes pores.
  33. Extracellular NCOA4 is a mediator of septic death by activating the AGER-NFKB pathway.
  34. Targeting the TRIM14/USP14 Axis Enhances Immunotherapy Efficacy by Inducing Autophagic Degradation of PD-L1.
  35. Control of mitophagy initiation and progression by the TBK1 adaptors NAP1 and SINTBAD.
  36. Mechano-inhibition of endocytosis sensitizes cancer cells to Fas-induced Apoptosis.
  37. PCAS: An Integrated Tool for Multi-Dimensional Cancer Research Utilizing Clinical Proteomic Tumor Analysis Consortium Data.
  38. Nanoscale architecture of synaptic vesicles and scaffolding complexes revealed by cryo-electron tomography.
  39. Homeocurvature adaptation of phospholipids to pressure in deep-sea invertebrates.
  1. Int J Cancer. 2024 Jun 26.
    Potential association between PSCA rs2976395 functional variant and pancreatic cancer risk.
    Chiara Corradi, Giulia Lencioni, Alessio Felici, Cosmeri Rizzato, Manuel Gentiluomo, Stefano Ermini, Livia Archibugi, Antanas Mickevicius, Maurizio Lucchesi, Ewa Malecka-Wojciesko, Daniela Basso, Paolo Giorgio Arcidiacono, Maria Chiara Petrone, Silvia Carrara, Mara Götz, Stefania Bunduc, Bernd Holleczek, Mateus Nóbrega Aoki, Faik G Uzunoglu, Dalila Lucíola Zanette, Andrea Mambrini, Krzysztof Jamroziak, Martin Oliverius, Martin Lovecek, Giulia Martina Cavestro, Anna Caterina Milanetto, Giulia Peduzzi, Beatrice Mohelnikova Duchonova, Jakob R Izbicki, Rimantas Zalinkevicius, Viktor Hlavac, Casper H J van Eijck, Hermann Brenner, Giuseppe Vanella, Klara Vokacova, Pavel Soucek, Francesca Tavano, Francesco Perri, Gabriele Capurso, Tamás Hussein, Mindaugas Kiudelis, Juozas Kupcinskas, Olivier R Busch, Luca Morelli, George E Theodoropoulos, Sabrina Gloria Giulia Testoni, Kestutis Adamonis, John P Neoptolemos, Maria Gazouli, Claudio Pasquali, Zita Kormos, Pavel Skalicky, Raffaele Pezzilli, Cosimo Sperti, Emanuele Kauffmann, Markus W Büchler, Ben Schöttker, Péter Hegyi, Giovanni Capretti, Rita T Lawlor, Federico Canzian, Daniele Campa.
      Correlated regions of systemic interindividual variation (CoRSIV) represent a small proportion of the human genome showing DNA methylation patterns that are the same in all human tissues, are different among individuals, and are partially regulated by genetic variants in cis. In this study we aimed at investigating single-nucleotide polymorphisms (SNPs) within CoRSIVs and their involvement with pancreatic ductal adenocarcinoma (PDAC) risk. We analyzed 29,099 CoRSIV-SNPs and 133,615 CoRSIV-mQTLs in 14,394 cases and 247,022 controls of European and Asian descent. We observed that the A allele of the rs2976395 SNP was associated with increased PDAC risk in Europeans (p = 2.81 × 10-5). This SNP lies in the prostate stem cell antigen gene and is in perfect linkage disequilibrium with a variant (rs2294008) that has been reported to be associated with risk of many other cancer types. The A allele is associated with the DNA methylation level of the gene according to the PanCan-meQTL database and with overexpression according to QTLbase. The expression of the gene has been observed to be deregulated in many tumors of the gastrointestinal tract including pancreatic cancer; however, functional studies are needed to elucidate the function relevance of the association.
    Keywords:  DNA methylation; pancreatic cancer; risk factors; single‐nucleotide polymorphism
    DOI:  https://doi.org/10.1002/ijc.35046
  2. Redox Biol. 2024 May 30. pii: S2213-2317(24)00189-7. [Epub ahead of print]75 103211
    Ferroptosis in health and disease.
    Carsten Berndt, Hamed Alborzinia, Vera Skafar Amen, Scott Ayton, Uladzimir Barayeu, Alexander Bartelt, Hülya Bayir, Christina M Bebber, Kivanc Birsoy, Jan P Böttcher, Simone Brabletz, Thomas Brabletz, Ashley R Brown, Bernhard Brüne, Giorgia Bulli, Alix Bruneau, Quan Chen, Gina M DeNicola, Tobias P Dick, Ayelén Distéfano, Scott J Dixon, Jan B Engler, Julia Esser-von Bieren, Maria Fedorova, José Pedro Friedmann Angeli, Manuel A Friese, Dominic C Fuhrmann, Ana J García-Sáez, Karolina Garbowicz, Magdalena Götz, Wei Gu, Linda Hammerich, Behrouz Hassannia, Xuejun Jiang, Aicha Jeridi, Yun Pyo Kang, Valerian E Kagan, David B Konrad, Stefan Kotschi, Peng Lei, Marlène Le Tertre, Sima Lev, Deguang Liang, Andreas Linkermann, Carolin Lohr, Svenja Lorenz, Tom Luedde, Axel Methner, Bernhard Michalke, Anna V Milton, Junxia Min, Eikan Mishima, Sebastian Müller, Hozumi Motohashi, Martina U Muckenthaler, Shohei Murakami, James A Olzmann, Gabriela Pagnussat, Zijan Pan, Thales Papagiannakopoulos, Lohans Pedrera Puentes, Derek A Pratt, Bettina Proneth, Lukas Ramsauer, Raphael Rodriguez, Yoshiro Saito, Felix Schmidt, Carina Schmitt, Almut Schulze, Annemarie Schwab, Anna Schwantes, Mariluz Soula, Benedikt Spitzlberger, Brent R Stockwell, Leonie Thewes, Oliver Thorn-Seshold, Shinya Toyokuni, Wulf Tonnus, Andreas Trumpp, Peter Vandenabeele, Tom Vanden Berghe, Vivek Venkataramani, Felix C E Vogel, Silvia von Karstedt, Fudi Wang, Frank Westermann, Chantal Wientjens, Christoph Wilhelm, Michele Wölk, Katherine Wu, Xin Yang, Fan Yu, Yilong Zou, Marcus Conrad.
      Ferroptosis is a pervasive non-apoptotic form of cell death highly relevant in various degenerative diseases and malignancies. The hallmark of ferroptosis is uncontrolled and overwhelming peroxidation of polyunsaturated fatty acids contained in membrane phospholipids, which eventually leads to rupture of the plasma membrane. Ferroptosis is unique in that it is essentially a spontaneous, uncatalyzed chemical process based on perturbed iron and redox homeostasis contributing to the cell death process, but that it is nonetheless modulated by many metabolic nodes that impinge on the cells' susceptibility to ferroptosis. Among the various nodes affecting ferroptosis sensitivity, several have emerged as promising candidates for pharmacological intervention, rendering ferroptosis-related proteins attractive targets for the treatment of numerous currently incurable diseases. Herein, the current members of a Germany-wide research consortium focusing on ferroptosis research, as well as key external experts in ferroptosis who have made seminal contributions to this rapidly growing and exciting field of research, have gathered to provide a comprehensive, state-of-the-art review on ferroptosis. Specific topics include: basic mechanisms, in vivo relevance, specialized methodologies, chemical and pharmacological tools, and the potential contribution of ferroptosis to disease etiopathology and progression. We hope that this article will not only provide established scientists and newcomers to the field with an overview of the multiple facets of ferroptosis, but also encourage additional efforts to characterize further molecular pathways modulating ferroptosis, with the ultimate goal to develop novel pharmacotherapies to tackle the various diseases associated with - or caused by - ferroptosis.
    Keywords:  Cancer; Cell death; Iron; Ischemia/reperfusion; Lipid peroxidation; Neurodegeneration
    DOI:  https://doi.org/10.1016/j.redox.2024.103211
  3. Autophagy. 2024 Jun 26. 1-16
    PGAM5 interacts with and maintains BNIP3 to license cancer-associated muscle wasting.
    Qingyuan Zhang, Chunhui Chen, Ye Ma, Xinyi Yan, Nianhong Lai, Hao Wang, Baogui Gao, Anna Meilin Gu, Qinrui Han, Qingling Zhang, Lei La, Xuegang Sun.
      Regressing the accelerated degradation of skeletal muscle protein is a significant goal for cancer cachexia management. Here, we show that genetic deletion of Pgam5 ameliorates skeletal muscle atrophy in various tumor-bearing mice. pgam5 ablation represses excessive myoblast mitophagy and effectively suppresses mitochondria meltdown and muscle wastage. Next, we define BNIP3 as a mitophagy receptor constitutively associating with PGAM5. bnip3 deletion restricts body weight loss and enhances the gastrocnemius mass index in the age- and tumor size-matched experiments. The NH2-terminal region of PGAM5 binds to the PEST motif-containing region of BNIP3 to dampen the ubiquitination and degradation of BNIP3 to maintain continuous mitophagy. Finally, we identify S100A9 as a pro-cachectic chemokine via activating AGER/RAGE. AGER deficiency or S100A9 inhibition restrains skeletal muscle loss by weakening the interaction between PGAM5 and BNIP3. In conclusion, the AGER-PGAM5-BNIP3 axis is a novel but common pathway in cancer-associated muscle wasting that can be targetable. Abbreviation: AGER/RAGE: advanced glycation end-product specific receptor; BA1: bafilomycin A1; BNIP3: BCL2 interacting protein 3; BNIP3L: BCL2 interacting protein 3 like; Ckm-Cre: creatinine kinase, muscle-specific Cre; CM: conditioned medium; CON/CTRL: control; CRC: colorectal cancer; FUNDC1: FUN14 domain containing 1; MAP1LC3A/LC3A: microtubule associated protein 1 light chain 3 alpha; PGAM5: PGAM family member 5, mitochondrial serine/threonine protein phosphatase; S100A9: S100 calcium binding protein A9; SQSTM1/p62: sequestosome 1; TOMM20: translocase of outer mitochondrial membrane 20; TIMM23: translocase of inner mitochondrial membrane 23; TSKO: tissue-specific knockout; VDAC1: voltage dependent anion channel 1.
    Keywords:  AGER; S100A9; cachexia; cancer; mitophagy; muscle atrophy
    DOI:  https://doi.org/10.1080/15548627.2024.2360340
  4. Curr Opin Gastroenterol. 2024 Jun 26.
    Bidirectional relationship between acute pancreatitis and pancreatic cancer.
    Christie Y Jeon, Mustafa A Arain, Murray Korc, Richard A Kozarek, Anna E Phillips.
      PURPOSE OF REVIEW: The burdens of pancreatic ductal adenocarcinoma (PDAC) and acute pancreatitis are increasing globally. We reviewed current literature on whether acute pancreatitis is a causal factor for PDAC and examined clinical manifestations of PDAC-associated acute pancreatitis.RECENT FINDINGS: Recent findings detail the timing of acute pancreatitis before and after PDAC occurrence, further solidifying the evidence for PDAC-associated acute pancreatitis and for acute pancreatitis as a causal risk factor for PDAC. The risk of PDAC remains elevated above the general population in patients with distant history of acute pancreatitis. PDAC risk also increases with recurrent acute pancreatitis episodes, independent of smoking and alcohol. Mechanisms linking acute pancreatitis to PDAC include inflammation and neutrophil infiltration, which can be attenuated by suppressing inflammation and/or epigenetic modulation, thus slowing the progression of acinar-to-ductal metaplasia. Clinical presentation and management of acute pancreatitis in the context of PDAC are discussed, including challenges acute pancreatitis poses in the diagnosis and treatment of PDAC, and novel interventions for PDAC-associated acute pancreatitis.
    SUMMARY: PDAC risk may be reduced with improved acute pancreatitis prevention and treatment, such as antiinflammatories or epigenetic modulators. Increased acute pancreatitis and PDAC burden warrant more research on better diagnosis and management of PDAC-associated acute pancreatitis.
    DOI:  https://doi.org/10.1097/MOG.0000000000001051
  5. Cell. 2024 Jun 26. pii: S0092-8674(24)00649-4. [Epub ahead of print]
    Stress-dependent condensate formation regulated by the ubiquitin-related modifier Urm1.
    Lucas V Cairo, Xiaoyu Hong, Martin B D Müller, Patricia Yuste-Checa, Chandhuru Jagadeesan, Andreas Bracher, Sae-Hun Park, Manajit Hayer-Hartl, F Ulrich Hartl.
      The ability of proteins and RNA to coalesce into phase-separated assemblies, such as the nucleolus and stress granules, is a basic principle in organizing membraneless cellular compartments. While the constituents of biomolecular condensates are generally well documented, the mechanisms underlying their formation under stress are only partially understood. Here, we show in yeast that covalent modification with the ubiquitin-like modifier Urm1 promotes the phase separation of a wide range of proteins. We find that the drop in cellular pH induced by stress triggers Urm1 self-association and its interaction with both target proteins and the Urm1-conjugating enzyme Uba4. Urmylation of stress-sensitive proteins promotes their deposition into stress granules and nuclear condensates. Yeast cells lacking Urm1 exhibit condensate defects that manifest in reduced stress resilience. We propose that Urm1 acts as a reversible molecular "adhesive" to drive protective phase separation of functionally critical proteins under cellular stress.
    Keywords:  Saccharomyces cerevisiae; biomolecular condensate; heat stress; liquid-liquid phase separation; nucleolus; nucleus; stress granules; uba4; ubiquitin-like modifier; urm1
    DOI:  https://doi.org/10.1016/j.cell.2024.06.009
  6. Nat Med. 2024 Jun 28.
    Multi-parametric atlas of the pre-metastatic liver for prediction of metastatic outcome in early-stage pancreatic cancer.
    Linda Bojmar, Constantinos P Zambirinis, Jonathan M Hernandez, Jayasree Chakraborty, Lee Shaashua, Junbum Kim, Kofi Ennu Johnson, Samer Hanna, Gokce Askan, Jonas Burman, Hiranmayi Ravichandran, Jian Zheng, Joshua S Jolissaint, Rami Srouji, Yi Song, Ankur Choubey, Han Sang Kim, Michele Cioffi, Elke van Beek, Carlie Sigel, Jose Jessurun, Paulina Velasco Riestra, Hakon Blomstrand, Carolin Jönsson, Anette Jönsson, Pernille Lauritzen, Weston Buehring, Yonathan Ararso, Dylanne Hernandez, Jessica P Vinagolu-Baur, Madison Friedman, Caroline Glidden, Laetitia Firmenich, Grace Lieberman, Dianna L Mejia, Naaz Nasar, Anders P Mutvei, Doru M Paul, Yaron Bram, Bruno Costa-Silva, Olca Basturk, Nancy Boudreau, Haiying Zhang, Irina R Matei, Ayuko Hoshino, David Kelsen, Irit Sagi, Avigdor Scherz, Ruth Scherz-Shouval, Yosef Yarden, Moshe Oren, Mikala Egeblad, Jason S Lewis, Kayvan Keshari, Paul M Grandgenett, Michael A Hollingsworth, Vinagolu K Rajasekhar, John H Healey, Bergthor Björnsson, Diane M Simeone, David A Tuveson, Christine A Iacobuzio-Donahue, Jaqueline Bromberg, C Theresa Vincent, Eileen M O'Reilly, Ronald P DeMatteo, Vinod P Balachandran, Michael I D'Angelica, T Peter Kingham, Peter J Allen, Amber L Simpson, Olivier Elemento, Per Sandström, Robert E Schwartz, William R Jarnagin, David Lyden.
      Metastasis occurs frequently after resection of pancreatic cancer (PaC). In this study, we hypothesized that multi-parametric analysis of pre-metastatic liver biopsies would classify patients according to their metastatic risk, timing and organ site. Liver biopsies obtained during pancreatectomy from 49 patients with localized PaC and 19 control patients with non-cancerous pancreatic lesions were analyzed, combining metabolomic, tissue and single-cell transcriptomics and multiplex imaging approaches. Patients were followed prospectively (median 3 years) and classified into four recurrence groups; early (<6 months after resection) or late (>6 months after resection) liver metastasis (LiM); extrahepatic metastasis (EHM); and disease-free survivors (no evidence of disease (NED)). Overall, PaC livers exhibited signs of augmented inflammation compared to controls. Enrichment of neutrophil extracellular traps (NETs), Ki-67 upregulation and decreased liver creatine significantly distinguished those with future metastasis from NED. Patients with future LiM were characterized by scant T cell lobular infiltration, less steatosis and higher levels of citrullinated H3 compared to patients who developed EHM, who had overexpression of interferon target genes (MX1 and NR1D1) and an increase of CD11B+ natural killer (NK) cells. Upregulation of sortilin-1 and prominent NETs, together with the lack of T cells and a reduction in CD11B+ NK cells, differentiated patients with early-onset LiM from those with late-onset LiM. Liver profiles of NED closely resembled those of controls. Using the above parameters, a machine-learning-based model was developed that successfully predicted the metastatic outcome at the time of surgery with 78% accuracy. Therefore, multi-parametric profiling of liver biopsies at the time of PaC diagnosis may determine metastatic risk and organotropism and guide clinical stratification for optimal treatment selection.
    DOI:  https://doi.org/10.1038/s41591-024-03075-7
  7. Phys Rev E. 2024 May;109(5-1): 054406
    Curvature-induced clustering of cell adhesion proteins.
    Shao-Zhen Lin, Jacques Prost, Jean-François Rupprecht.
      Cell adhesion proteins typically form stable clusters that anchor the cell membrane to its environment. Several works have suggested that cell membrane protein clusters can emerge from a local feedback between the membrane curvature and the density of proteins. Here, we investigate the effect of such a curvature-sensing mechanism in the context of cell adhesion proteins. We show how clustering emerges in an intermediate range of adhesion and curvature-sensing strengths. We identify key differences with the tilt-induced gradient sensing mechanism we previously proposed (Lin et al., arXiv:2307.03670).
    DOI:  https://doi.org/10.1103/PhysRevE.109.054406
  8. Science. 2024 Jun 28. 384(6703): eadh4567
    Type I conventional dendritic cells facilitate immunotherapy in pancreatic cancer.
    Krishnan K Mahadevan, Allison M Dyevoich, Yang Chen, Bingrui Li, Hikaru Sugimoto, Amari M Sockwell, Kathleen M McAndrews, Lakshmi Kavitha Sthanam, Huamin Wang, Shabnam Shalapour, Stephanie S Watowich, Raghu Kalluri.
      Inflammation and tissue damage associated with pancreatitis can precede or occur concurrently with pancreatic ductal adenocarcinoma (PDAC). We demonstrate that in PDAC coupled with pancreatitis (ptPDAC), antigen-presenting type I conventional dendritic cells (cDC1s) are specifically activated. Immune checkpoint blockade therapy (iCBT) leads to cytotoxic CD8+ T cell activation and elimination of ptPDAC with restoration of life span even upon PDAC rechallenge. Using PDAC antigen-loaded cDC1s as a vaccine, immunotherapy-resistant PDAC was rendered sensitive to iCBT with elimination of tumors. cDC1 vaccination coupled with iCBT identified specific CDR3 sequences in the tumor-infiltrating CD8+ T cells with potential therapeutic importance. This study identifies a fundamental difference in the immune microenvironment in PDAC concurrent with, or without, pancreatitis and provides a rationale for combining cDC1 vaccination with iCBT as a potential treatment option.
    DOI:  https://doi.org/10.1126/science.adh4567
  9. Cell. 2024 Jun 17. pii: S0092-8674(24)00583-X. [Epub ahead of print]
    Pan-cancer proteogenomics expands the landscape of therapeutic targets.
    Sara R Savage, Xinpei Yi, Jonathan T Lei, Bo Wen, Hongwei Zhao, Yuxing Liao, Eric J Jaehnig, Lauren K Somes, Paul W Shafer, Tobie D Lee, Zile Fu, Yongchao Dou, Zhiao Shi, Daming Gao, Valentina Hoyos, Qiang Gao, Bing Zhang.
      Fewer than 200 proteins are targeted by cancer drugs approved by the Food and Drug Administration (FDA). We integrate Clinical Proteomic Tumor Analysis Consortium (CPTAC) proteogenomics data from 1,043 patients across 10 cancer types with additional public datasets to identify potential therapeutic targets. Pan-cancer analysis of 2,863 druggable proteins reveals a wide abundance range and identifies biological factors that affect mRNA-protein correlation. Integration of proteomic data from tumors and genetic screen data from cell lines identifies protein overexpression- or hyperactivation-driven druggable dependencies, enabling accurate predictions of effective drug targets. Proteogenomic identification of synthetic lethality provides a strategy to target tumor suppressor gene loss. Combining proteogenomic analysis and MHC binding prediction prioritizes mutant KRAS peptides as promising public neoantigens. Computational identification of shared tumor-associated antigens followed by experimental confirmation nominates peptides as immunotherapy targets. These analyses, summarized at https://targets.linkedomics.org, form a comprehensive landscape of protein and peptide targets for companion diagnostics, drug repurposing, and therapy development.
    Keywords:  pan-cancer, proteogenomics, drug targets, proteomics, synthetic lethality, neoantigens, tumor antigens, data integration
    DOI:  https://doi.org/10.1016/j.cell.2024.05.039
  10. PLoS One. 2024 ;19(6): e0305491
    ConfluentFUCCI for fully-automated analysis of cell-cycle progression in a highly dense collective of migrating cells.
    Leo Goldstien, Yael Lavi, Lior Atia.
      Understanding mechanisms underlying various physiological and pathological processes often requires accurate and fully automated analysis of dense cell populations that collectively migrate. In such multicellular systems, there is a rising interest in the relations between biophysical and cell cycle progression aspects. A seminal tool that led to a leap in real-time study of cell cycle is the fluorescent ubiquitination-based cell cycle indicator (FUCCI). Here, we introduce ConfluentFUCCI, an open-source graphical user interface-based framework that is designed, unlike previous tools, for fully automated analysis of cell cycle progression, cellular dynamics, and cellular morphology, in highly dense migrating cell collectives. We integrated into ConfluentFUCCI's pipeline state-of-the-art tools such as Cellpose, TrackMate, and Napari, some of which incorporate deep learning, and we wrap the entire tool into an isolated computational environment termed container. This provides an easy installation and workflow that is independent of any specific operation system. ConfluentFUCCI offers accurate nuclear segmentation and tracking using FUCCI tags, enabling comprehensive investigation of cell cycle progression at both the tissue and single-cell levels. We compare ConfluentFUCCI to the most recent relevant tool, showcasing its accuracy and efficiency in handling large datasets. Furthermore, we demonstrate the ability of ConfluentFUCCI to monitor cell cycle transitions, dynamics, and morphology within densely packed epithelial cell populations, enabling insights into mechanotransductive regulation of cell cycle progression. The presented tool provides a robust approach for investigating cell cycle-related phenomena in complex biological systems, offering potential applications in cancer research and other fields.
    DOI:  https://doi.org/10.1371/journal.pone.0305491
  11. Aging (Albany NY). 2024 Jun 26. 16
    Senescent cell-derived vaccines: a new concept towards an immune response against cancer and aging?
    João Pessoa, Sandrina Nóbrega-Pereira, Bruno Bernardes de Jesus.
      Two recent seminal works have untangled the intricate role of tumor-associated senescent cells in cancer progression, or regression, by guiding our immune system against cancer cells. The characterization of these unique, yet diverse cell populations, should be considered, particularly when contemplating the use of senolytics, which are drugs that selectively eliminate senescent cells, in a cancer framework. Here, we will describe the current knowledge in this field. In particular, we will discuss how the presence of senescent cells in tumors could be used as a therapeutic target in immunogenic cancers and how we may hypothetically design an adaptive anti-aging vaccine.
    Keywords:  antigen; cancer; immunotherapy; senescence; tumor-associated senescent cells; vaccine
    DOI:  https://doi.org/10.18632/aging.205975
  12. Nat Cell Biol. 2024 Jun 25.
    Ferroptosis-like cell death promotes and prolongs inflammation in Drosophila.
    Andrew J Davidson, Rosalind Heron, Jyotirekha Das, Michael Overholtzer, Will Wood.
      Ferroptosis is a distinct form of necrotic cell death caused by overwhelming lipid peroxidation, and emerging evidence indicates a major contribution to organ damage in multiple pathologies. However, ferroptosis has not yet been visualized in vivo due to a lack of specific probes, which has severely limited the study of how the immune system interacts with ferroptotic cells and how this process contributes to inflammation. Consequently, whether ferroptosis has a physiological role has remained a key outstanding question. Here we identify a distinct, ferroptotic-like, necrotic cell death occurring in vivo during wounding of the Drosophila embryo using live imaging. We further demonstrate that macrophages rapidly engage these necrotic cells within the embryo but struggle to engulf them, leading to prolonged, frustrated phagocytosis and frequent corpse disintegration. Conversely, suppression of the ferroptotic programme during wounding delays macrophage recruitment to the injury site, pointing to conflicting roles for ferroptosis during inflammation in vivo.
    DOI:  https://doi.org/10.1038/s41556-024-01450-7
  13. Mol Metab. 2024 Jun 20. pii: S2212-8778(24)00100-5. [Epub ahead of print] 101969
    Autophagic signaling promotes systems-wide remodeling in skeletal muscle upon oncometabolic stress by D2-HG.
    Yaqi Gao, Kyoungmin Kim, Heidi Vitrac, Rebecca L Salazar, Benjamin D Gould, Daniel Soedkamp, Weston Spivia, Koen Raedschelders, An Q Dinh, Anna G Guzman, Lin Tan, Stavros Azinas, David J R Taylor, Walter Schiffer, Daniel McNavish, Helen B Burks, Roberta A Gottlieb, Philip L Lorenzi, Blake M Hanson, Jennifer E Van Eyk, Heinrich Taegtmeyer, Anja Karlstaedt.
      OBJECTIVES: Cachexia is a metabolic disorder and comorbidity with cancer and heart failure. The syndrome impacts more than thirty million people worldwide, accounting for 20% of all cancer deaths. In acute myeloid leukemia, somatic mutations of the metabolic enzyme isocitrate dehydrogenase 1 and 2 cause the production of the oncometabolite D2-hydroxyglutarate (D2-HG). Increased production of D2-HG is associated with heart and skeletal muscle atrophy, but the mechanistic links between metabolic and proteomic remodeling remain poorly understood. Therefore, we assessed how oncometabolic stress by D2-HG activates autophagy and drives skeletal muscle loss.METHODS: We quantified genomic, metabolomic, and proteomic changes in cultured skeletal muscle cells and mouse models of IDH-mutant leukemia using RNA sequencing, mass spectrometry, and computational modeling.
    RESULTS: D2-HG impairs NADH redox homeostasis in myotubes. Increased NAD+ levels drive activation of nuclear deacetylase Sirt1, which causes deacetylation and activation of LC3, a key regulator of autophagy. Using LC3 mutants, we confirm that deacetylation of LC3 by Sirt1 shifts its distribution from the nucleus into the cytosol, where it can undergo lipidation at pre-autophagic membranes. Sirt1 silencing or p300 overexpression attenuated autophagy activation in myotubes. In vivo, we identified increased muscle atrophy and reduced grip strength in response to D2-HG in male vs. female mice. In male mice, glycolytic intermediates accumulated, and protein expression of oxidative phosphorylation machinery was reduced. In contrast, female animals upregulated the same proteins, attenuating the phenotype in vivo. Network modeling and machine learning algorithms allowed us to identify candidate proteins essential for regulating oncometabolic adaptation in mouse skeletal muscle.
    CONCLUSIONS: Our multi-omics approach exposes new metabolic vulnerabilities in response to D2-HG in skeletal muscle and provides a conceptual framework for identifying therapeutic targets in cachexia.
    Keywords:  Autophagy; Cachexia; Oncometabolism; Systems Biology
    DOI:  https://doi.org/10.1016/j.molmet.2024.101969
  14. J Cell Biol. 2024 Aug 05. pii: e202401074. [Epub ahead of print]223(8):
    Determining how many cells to average for statistical testing of microscopy experiments.
    Adam Zweifach.
      From a statistical standpoint, individual cells are typically not independent experimental replicates. To test for differences in mean, cells from each experimental sample can be averaged and each sample's average treated as an n of 1. Here, I outline how to determine how many cells to average per sample.
    DOI:  https://doi.org/10.1083/jcb.202401074
  15. Cancer Res. 2024 Jun 26.
    Patterns of Aneuploidy and Signaling Consequences in Cancer.
    Nadja Zhakula-Kostadinova, Alison M Taylor.
      Aneuploidy, or a change in the number of whole chromosomes or chromosome arms, is a near-universal feature of cancer. Chromosomes affected by aneuploidy are not random, with observed cancer-specific and tissue-specific patterns. Recent advances in genome engineering methods have allowed the creation of models with targeted aneuploidy events. These models can be used to uncover the downstream effects of individual aneuploidies on cancer phenotypes including proliferation, apoptosis, metabolism, and immune signaling. Here, we review the current state of research into the patterns of aneuploidy in cancer and their impact on signaling pathways and biological processes.
    DOI:  https://doi.org/10.1158/0008-5472.CAN-24-0169
  16. Nat Commun. 2024 Jun 25. 15(1): 5386
    Raman micro-spectroscopy reveals the spatial distribution of fumarate in cells and tissues.
    Marlous Kamp, Jakub Surmacki, Marc Segarra Mondejar, Tim Young, Karolina Chrabaszcz, Fadwa Joud, Vincent Zecchini, Alyson Speed, Christian Frezza, Sarah E Bohndiek.
      Aberrantly accumulated metabolites elicit intra- and inter-cellular pro-oncogenic cascades, yet current measurement methods require sample perturbation/disruption and lack spatio-temporal resolution, limiting our ability to fully characterize their function and distribution. Here, we show that Raman spectroscopy (RS) can directly detect fumarate in living cells in vivo and animal tissues ex vivo, and that RS can distinguish between Fumarate hydratase (Fh1)-deficient and Fh1-proficient cells based on fumarate concentration. Moreover, RS reveals the spatial compartmentalization of fumarate within cellular organelles in Fh1-deficient cells: consistent with disruptive methods, we observe the highest fumarate concentration (37 ± 19 mM) in mitochondria, where the TCA cycle operates, followed by the cytoplasm (24 ± 13 mM) and then the nucleus (9 ± 6 mM). Finally, we apply RS to tissues from an inducible mouse model of FH loss in the kidney, demonstrating RS can classify FH status. These results suggest RS could be adopted as a valuable tool for small molecule metabolic imaging, enabling in situ non-destructive evaluation of fumarate compartmentalization.
    DOI:  https://doi.org/10.1038/s41467-024-49403-w
  17. Mol Cell Oncol. 2024 ;11(1): 2369388
    Selection forces underlying aneuploidy patterns in cancer.
    Tamara C Klockner, Christopher S Campbell.
      Aneuploidy, the presence of an aberrant number of chromosomes, has been associated with tumorigenesis for over a century. More recently, advances in karyotyping techniques have revealed its high prevalence in cancer: About 90% of solid tumors and 50-70% of hematopoietic cancers exhibit chromosome gains or losses. When analyzed at the level of specific chromosomes, there are strong patterns that are observed in cancer karyotypes both pan-cancer and for specific cancer types. These specific aneuploidy patterns correlate strongly with outcomes for tumor initiation, progression, metastasis formation, immune evasion and resistance to therapeutic treatment. Despite their prominence, understanding the basis underlying aneuploidy patterns in cancer has been challenging. Advances in genetic engineering and bioinformatic analyses now offer insights into the genetic determinants of aneuploidy pattern selection. Overall, there is substantial evidence that expression changes of particular genes can act as the positive selective forces for adaptation through aneuploidy. Recent findings suggest that multiple genes contribute to the selection of specific aneuploid chromosomes in cancer; however, further research is necessary to identify the most impactful driver genes. Determining the genetic basis and accompanying vulnerabilities of specific aneuploidy patterns is an essential step in selectively targeting these hallmarks of tumors.
    Keywords:  Aneuploidy patterns; cancer; driver genes; selection forces
    DOI:  https://doi.org/10.1080/23723556.2024.2369388
  18. Nat Aging. 2024 Jun 26.
    Ferroptotic stress drives liver aging and metabolic dysfunction.
      
    DOI:  https://doi.org/10.1038/s43587-024-00654-8
  19. Bioinformatics. 2024 Jun 28. 40(Supplement_1): i548-i557
    GraphCompass: spatial metrics for differential analyses of cell organization across conditions.
    Mayar Ali, Merel Kuijs, Soroor Hediyeh-Zadeh, Tim Treis, Karin Hrovatin, Giovanni Palla, Anna C Schaar, Fabian J Theis.
      SUMMARY: Spatial omics technologies are increasingly leveraged to characterize how disease disrupts tissue organization and cellular niches. While multiple methods to analyze spatial variation within a sample have been published, statistical and computational approaches to compare cell spatial organization across samples or conditions are mostly lacking. We present GraphCompass, a comprehensive set of omics-adapted graph analysis methods to quantitatively evaluate and compare the spatial arrangement of cells in samples representing diverse biological conditions. GraphCompass builds upon the Squidpy spatial omics toolbox and encompasses various statistical approaches to perform cross-condition analyses at the level of individual cell types, niches, and samples. Additionally, GraphCompass provides custom visualization functions that enable effective communication of results. We demonstrate how GraphCompass can be used to address key biological questions, such as how cellular organization and tissue architecture differ across various disease states and which spatial patterns correlate with a given pathological condition. GraphCompass can be applied to various popular omics techniques, including, but not limited to, spatial proteomics (e.g. MIBI-TOF), spot-based transcriptomics (e.g. 10× Genomics Visium), and single-cell resolved transcriptomics (e.g. Stereo-seq). In this work, we showcase the capabilities of GraphCompass through its application to three different studies that may also serve as benchmark datasets for further method development. With its easy-to-use implementation, extensive documentation, and comprehensive tutorials, GraphCompass is accessible to biologists with varying levels of computational expertise. By facilitating comparative analyses of cell spatial organization, GraphCompass promises to be a valuable asset in advancing our understanding of tissue function in health and disease. .
    DOI:  https://doi.org/10.1093/bioinformatics/btae242
  20. Phys Chem Chem Phys. 2024 Jun 27.
    Molecular dynamics simulations reliably identify vibrational modes in far-IR spectra of phospholipids.
    Choon-Peng Chng, Annette Dowd, Adam Mechler, K Jimmy Hsia.
      The properties of self-assembled phospholipid membranes are of essential importance in biochemistry and physical chemistry, providing a platform for many cellular life functions. Far-infrared (far-IR) vibrational spectroscopy, on the other hand, is a highly information-rich method to characterize intermolecular interactions and collective behaviour of lipids that can help explain, e.g., chain packing, thermodynamic phase behaviour, and sequestration. However, reliable interpretation of the far-IR spectra is still lacking. Here we present a molecular dynamics (MD) based approach to simulate vibrational modes of individual lipids and in an ensemble. The results are a good match to synchrotron far-IR measurements and enable identification of the molecular motions corresponding to each vibrational mode, thus allowing the correct interpretation of membrane spectra with high accuracy and resolving the longstanding ambiguities in the literature in this regard. Our results demonstrate the feasibility of using MD simulations for interpreting far-IR spectra broadly, opening new avenues for practical use of this powerful method.
    DOI:  https://doi.org/10.1039/d4cp00521j
  21. Curr Issues Mol Biol. 2024 Jun 14. 46(6): 6041-6051
    Employing Bidirectional Two-Sample Mendelian Randomization Analysis to Verify the Potential of Polyunsaturated Fatty Acid Levels in the Prevention of Pancreatic Cancer.
    Hao Sha, Weifeng Zhu.
      Polyunsaturated fatty acids (PUFAs), specifically Omega-3 (FAω3) and docosahexaenoic acid (DHA), have been studied for their potential role in modulating pancreatic cancer (PC) risk. Although observational studies suggest a beneficial effect in reducing this risk, their findings are often limited by confounding variables and issues of reverse causation. This study used a two-way two-sample Mendelian randomization (MR) method to test the hypothesized genetic causal relationship between PUFAs and PC risk. Data from an extensive genome-wide association study (GWAS) were analyzed, focusing on FAω3 and FAω6 levels, their ratios, and DHA as variables and PC incidence as outcomes. This relationship was comprehensively evaluated using related MR methods, such as inverse variance weighting (IVW), MR Egger, and weighted median (WM). This study finds a significant negative correlation between FAω3 and DHA levels and PC risk, while FAω6 levels show no significant correlation. Interestingly, the ratio of FAω6 to FAω3 was positively associated with increased risk of PC. Neither the MR Egger nor the MR-PRESSO tests detected significant pleiotropy, nor did the Cochrane's Q test show significant heterogeneity. Leave-one-out analyzes further confirmed the robustness of these results. Using MR analysis of two samples, this study provides genetic causal evidence that FAω3 and DHA levels reduce the risk of PC, whereas the ratio of FAω6 to FAω3 increases the risk of PC. These insights highlight the potential utility of supplementing FAω3 and DHA or altering PUFAs in developing PC prevention strategies.
    Keywords:  GWAS; Mendelian randomization; Omega-3; Omega-6; fatty acids; pancreatic cancer
    DOI:  https://doi.org/10.3390/cimb46060360
  22. Biointerphases. 2024 May 01. pii: 038501. [Epub ahead of print]19(3):
    Lipids and proteins: Insights into the dynamics of assembly, recognition, condensate formation. What is still missing?
    Pablo G Argudo.
      Lipid membranes and proteins, which are part of us throughout our lives, have been studied for decades. However, every year, new discoveries show how little we know about them. In a reader-friendly manner for people not involved in the field, this paper tries to serve as a bridge between physicists and biologists and new young researchers diving into the field to show its relevance, pointing out just some of the plethora of lines of research yet to be unraveled. It illustrates how new ways, from experimental to theoretical approaches, are needed in order to understand the structures and interactions that take place in a single lipid, protein, or multicomponent system, as we are still only scratching the surface.
    DOI:  https://doi.org/10.1116/6.0003662
  23. Nat Commun. 2024 Jun 26. 15(1): 5410
    METTL3-mediated chromatin contacts promote stress granule phase separation through metabolic reprogramming during senescence.
    Chen Wang, Hideki Tanizawa, Connor Hill, Aaron Havas, Qiang Zhang, Liping Liao, Xue Hao, Xue Lei, Lu Wang, Hao Nie, Yuan Qi, Bin Tian, Alessandro Gardini, Andrew V Kossenkov, Aaron Goldman, Shelley L Berger, Ken-Ichi Noma, Peter D Adams, Rugang Zhang.
      METTL3 is the catalytic subunit of the methyltransferase complex, which mediates m6A modification to regulate gene expression. In addition, METTL3 regulates transcription in an enzymatic activity-independent manner by driving changes in high-order chromatin structure. However, how these functions of the methyltransferase complex are coordinated remains unknown. Here we show that the methyltransferase complex coordinates its enzymatic activity-dependent and independent functions to regulate cellular senescence, a state of stable cell growth arrest. Specifically, METTL3-mediated chromatin loops induce Hexokinase 2 expression through the three-dimensional chromatin organization during senescence. Elevated Hexokinase 2 expression subsequently promotes liquid-liquid phase separation, manifesting as stress granule phase separation, by driving metabolic reprogramming. This correlates with an impairment of translation of cell-cycle related mRNAs harboring polymethylated m6A sites. In summary, our results report a coordination of m6A-dependent and -independent function of the methyltransferase complex in regulating senescence through phase separation driven by metabolic reprogramming.
    DOI:  https://doi.org/10.1038/s41467-024-49745-5
  24. Cancer Cell. 2024 Jun 21. pii: S1535-6108(24)00226-5. [Epub ahead of print]
    Anti-tumor efficacy of HRS-4642 and its potential combination with proteasome inhibition in KRAS G12D-mutant cancer.
    Caicun Zhou, Chongyang Li, Libo Luo, Xin Li, Keyi Jia, Ning He, Shiqi Mao, Wanying Wang, Chuchu Shao, Xinyu Liu, Kan Huang, Yaxin Yu, Xinlei Cai, Yingxue Chen, Zican Dai, Wei Li, Jia Yu, Jiayu Li, Feng Shen, Zaiyong Wang, Feng He, Xing Sun, Rongfu Mao, Wei Shi, Jun Zhang, Tao Jiang, Zhe Zhang, Fei Li, Shengxiang Ren.
      KRAS G12D is the most frequently mutated oncogenic KRAS subtype in solid tumors and remains undruggable in clinical settings. Here, we developed a high affinity, selective, long-acting, and non-covalent KRAS G12D inhibitor, HRS-4642, with an affinity constant of 0.083 nM. HRS-4642 demonstrated robust efficacy against KRAS G12D-mutant cancers both in vitro and in vivo. Importantly, in a phase 1 clinical trial, HRS-4642 exhibited promising anti-tumor activity in the escalating dosing cohorts. Furthermore, the sensitization and resistance spectrum for HRS-4642 was deciphered through genome-wide CRISPR-Cas9 screening, which unveiled proteasome as a sensitization target. We further observed that the proteasome inhibitor, carfilzomib, improved the anti-tumor efficacy of HRS-4642. Additionally, HRS-4642, either as a single agent or in combination with carfilzomib, reshaped the tumor microenvironment toward an immune-permissive one. In summary, this study provides potential therapies for patients with KRAS G12D-mutant cancers, for whom effective treatments are currently lacking.
    Keywords:  HRS-4642; KRAS G12D; carfilzomib; tumor immune microenvironment
    DOI:  https://doi.org/10.1016/j.ccell.2024.06.001
  25. J Biotechnol Biomed. 2023 ;6(4): 573-578
    cProSite: A web based interactive platform for online proteomics, phosphoproteomics, and genomics data analysis.
    Dunrui Wang, Xiaolan Qian, Yi-Chieh Nancy Du, Beatriz Sanchez-Solana, Kailing Chen, Madhu Kanigicherla, Lisa M Jenkins, Jason Luo, Sarah Eng, Brian Park, Ben Chen, Xiaozheng Yao, Thuong Nguyen, Brajendra K Tripathi, Marian E Durkin, Douglas R Lowy.
      We developed cProSite, a website that provides online genomics, proteomics, and phosphoproteomics analysis for the data of The National Cancer Institute's Clinical Proteomic Tumor Analysis Consortium (CPTAC). This tool focuses on comparisons and correlations between different proteins and mRNAs of tumors and normal tissues. Our website is designed with biologists and clinicians in mind, with a user-friendly environment and fast search engine. The search results of cProSite can be used for clinical data validation and provide useful strategic information to identify drug targets at proteomic, phosphoproteomic, or genomic levels. The site is available at http://cprosite.ccr.cancer.gov.
    DOI:  https://doi.org/10.26502/jbb.2642-91280119
  26. Sci Rep. 2024 06 26. 14(1): 14784
    Implications of mitochondrial membrane potential gradients on signaling and ATP production analyzed by correlative multi-parameter microscopy.
    Benjamin Gottschalk, Zhanat Koshenov, Roland Malli, Wolfgang F Graier.
      The complex architecture and biochemistry of the inner mitochondrial membrane generate ultra-structures with different phospholipid and protein compositions, shapes, characteristics, and functions. The crista junction (CJ) serves as an important barrier separating the cristae (CM) and inner boundary membranes (IBM). Thereby CJ regulates the movement of ions and ensures distinct electrical potentials across the cristae (ΔΨC) and inner boundary (ΔΨIBM) membranes. We have developed a robust and flexible approach to visualize the CJ permeability with super-resolution microscopy as a readout of local mitochondrial membrane potential (ΔΨmito) fluctuations. This method involves analyzing the distribution of TMRM fluorescence intensity in a model that is restricted to the mitochondrial geometry. We show that mitochondrial Ca2+ elevation hyperpolarizes the CM most likely caused by Ca2+ sensitive increase of mitochondrial tricarboxylic acid cycle (TCA) and subsequent oxidative phosphorylation (OXPHOS) activity in the cristae. Dynamic multi-parameter correlation measurements of spatial mitochondrial membrane potential gradients, ATP levels, and mitochondrial morphometrics revealed a CJ-based membrane potential overflow valve mechanism protecting the mitochondrial integrity during excessive cristae hyperpolarization.
    Keywords:  Correlative microscopy; Cristae junctions; Membrane potential gradient; Mitochondria; Mitochondrial membranes
    DOI:  https://doi.org/10.1038/s41598-024-65595-z
  27. Cell. 2024 Jun 21. pii: S0092-8674(24)00592-0. [Epub ahead of print]
    TERT activation targets DNA methylation and multiple aging hallmarks.
    Hong Seok Shim, Jonathan Iaconelli, Xiaoying Shang, Jiexi Li, Zheng D Lan, Shan Jiang, Kayla Nutsch, Brittney A Beyer, Luke L Lairson, Adam T Boutin, Michael J Bollong, Peter G Schultz, Ronald A DePinho.
      Insufficient telomerase activity, stemming from low telomerase reverse transcriptase (TERT) gene transcription, contributes to telomere dysfunction and aging pathologies. Besides its traditional function in telomere synthesis, TERT acts as a transcriptional co-regulator of genes pivotal in aging and age-associated diseases. Here, we report the identification of a TERT activator compound (TAC) that upregulates TERT transcription via the MEK/ERK/AP-1 cascade. In primary human cells and naturally aged mice, TAC-induced elevation of TERT levels promotes telomere synthesis, blunts tissue aging hallmarks with reduced cellular senescence and inflammatory cytokines, and silences p16INK4a expression via upregulation of DNMT3B-mediated promoter hypermethylation. In the brain, TAC alleviates neuroinflammation, increases neurotrophic factors, stimulates adult neurogenesis, and preserves cognitive function without evident toxicity, including cancer risk. Together, these findings underscore TERT's critical role in aging processes and provide preclinical proof of concept for physiological TERT activation as a strategy to mitigate multiple aging hallmarks and associated pathologies.
    Keywords:  adult neurogenesis; cognition; epigenetics; inflammation; p16(INK4a); senescence; telomerase; telomere
    DOI:  https://doi.org/10.1016/j.cell.2024.05.048
  28. Cell. 2024 Jun 21. pii: S0092-8674(24)00636-6. [Epub ahead of print]
    Open-ST: High-resolution spatial transcriptomics in 3D.
    Marie Schott, Daniel León-Periñán, Elena Splendiani, Leon Strenger, Jan Robin Licha, Tancredi Massimo Pentimalli, Simon Schallenberg, Jonathan Alles, Sarah Samut Tagliaferro, Anastasiya Boltengagen, Sebastian Ehrig, Stefano Abbiati, Steffen Dommerich, Massimiliano Pagani, Elisabetta Ferretti, Giuseppe Macino, Nikos Karaiskos, Nikolaus Rajewsky.
      Spatial transcriptomics (ST) methods unlock molecular mechanisms underlying tissue development, homeostasis, or disease. However, there is a need for easy-to-use, high-resolution, cost-efficient, and 3D-scalable methods. Here, we report Open-ST, a sequencing-based, open-source experimental and computational resource to address these challenges and to study the molecular organization of tissues in 2D and 3D. In mouse brain, Open-ST captured transcripts at subcellular resolution and reconstructed cell types. In primary head-and-neck tumors and patient-matched healthy/metastatic lymph nodes, Open-ST captured the diversity of immune, stromal, and tumor populations in space, validated by imaging-based ST. Distinct cell states were organized around cell-cell communication hotspots in the tumor but not the metastasis. Strikingly, the 3D reconstruction and multimodal analysis of the metastatic lymph node revealed spatially contiguous structures not visible in 2D and potential biomarkers precisely at the 3D tumor/lymph node boundary. All protocols and software are available at https://rajewsky-lab.github.io/openst.
    Keywords:  HNSCC; cancer; metastasis; open source; resource; single cell; spatial transcriptomics; subcellular; three dimensional
    DOI:  https://doi.org/10.1016/j.cell.2024.05.055
  29. Med. 2024 Jun 14. pii: S2666-6340(24)00217-4. [Epub ahead of print]
    Cancer research is not correlated with driver gene mutation burdens.
    Gaurav Mendiratta, David Liarakos, Melinda Tong, Satoko Ito, Eugene Ke, George Goshua, Edward C Stites.
      BACKGROUND: Cancer research is pursued with the goal of positively impacting patients with cancer. Decisions regarding how to allocate research funds reflect a complex balancing of priorities and factors. Even though these are subjective decisions, they should be made with consideration of all available objective facts. An accurate estimate of the affected cancer patient population by mutation is one variable that has only recently become available to inform funding decisions.METHODS: We compared the overall incident burden of mutations within each cancer-associated gene with two measures of cancer research efforts: research grant funding amounts and numbers of academic manuscripts. We ask to what degree the aggregate set of cancer research efforts reflects the relative burdens of the different cancer genetic drivers. We thoroughly investigate the design of our queries to ensure that the presented results are robust and conclusions are well justified.
    FINDINGS: We find cancer research is generally not correlated with the relative burden of mutation within the different genetic drivers of cancer.
    CONCLUSIONS: We suggest that cancer research would benefit from incorporating, among other factors, an epidemiologically informed mutation-estimate baseline into a larger framework for funding and research allocation decisions.
    FUNDING: This work was supported in part by the National Institutes of Health (NIH) P30CA014195 and NIH DP2AT011327.
    Keywords:  Translation to population health
    DOI:  https://doi.org/10.1016/j.medj.2024.05.013
  30. NAR Cancer. 2024 Jun;6(2): zcae028
    CRISPR-Cas9 for selective targeting of somatic mutations in pancreatic cancers.
    Selina Shiqing K Teh, Kirsten Bowland, Eitan Halper-Stromberg, Akhil Kotwal, Alexis Bennett, Alyza Skaist, Jacqueline Tang, Fidel Cai, Antonella Macoretta, Hong Liang, Hirohiko Kamiyama, Sarah Wheelan, Ming-Tseh Lin, Ralph H Hruban, Chien-Fu Hung, Michael Goldstein, Robert B Scharpf, Nicholas J Roberts, James R Eshleman.
      Somatic mutations are desirable targets for selective elimination of cancer, yet most are found within noncoding regions. We have adapted the CRISPR-Cas9 gene editing tool as a novel, cancer-specific killing strategy by targeting the subset of somatic mutations that create protospacer adjacent motifs (PAMs), which have evolutionally allowed bacterial cells to distinguish between self and non-self DNA for Cas9-induced double strand breaks. Whole genome sequencing (WGS) of paired tumor minus normal (T-N) samples from three pancreatic cancer patients (Panc480, Panc504, and Panc1002) showed an average of 417 somatic PAMs per tumor produced from single base substitutions. Further analyses of 591 paired T-N samples from The International Cancer Genome Consortium found medians of ∼455 somatic PAMs per tumor in pancreatic, ∼2800 in lung, and ∼3200 in esophageal cancer cohorts. Finally, we demonstrated 69-99% selective cell death of three targeted pancreatic cancer cell lines using 4-9 sgRNAs designed using the somatic PAM discovery approach. We also showed no off-target activity from these tumor-specific sgRNAs in either the patient's normal cells or an irrelevant cancer using WGS. This study demonstrates the potential of CRISPR-Cas9 as a novel and selective anti-cancer strategy, and supports the genetic targeting of adult cancers.
    DOI:  https://doi.org/10.1093/narcan/zcae028
  31. Clin Exp Metastasis. 2024 Jun 28.
    Cancer metastasis through the lymphatic versus blood vessels.
    Stanley P Leong, Marlys H Witte.
      Whether cancer cells metastasize from the primary site to the distant sites via the lymphatic vessels or the blood vessels directly into the circulation is still under intense study. In this review article, we follow the journey of cancer cells metastasizing to the sentinel lymph nodes and beyond to the distant sites. We emphasize cancer heterogeneity and microenvironment as major determinants of cancer metastasis. Multiple molecules have been found to be associated with the complicated process of metastasis. Based on the large sentinel lymph node data, it is reasonable to conclude that cancer cells may metastasize through the blood vessels in some cases but in most cases, they use the sentinel lymph nodes as the major gateway to enter the circulation to distant sites.
    Keywords:  Cancer metastasis; Lymphatic and blood vessels
    DOI:  https://doi.org/10.1007/s10585-024-10288-0
  32. Sci Signal. 2024 Jun 25. 17(842): eadr1306
    Palmitoylation promotes pores.
    John F Foley.
      Palmitoylation of intact or cleaved gasdermin D causes plasma membrane pore formation.
    DOI:  https://doi.org/10.1126/scisignal.adr1306
  33. Autophagy. 2024 Jun 25.
    Extracellular NCOA4 is a mediator of septic death by activating the AGER-NFKB pathway.
    Jiao Liu, Yichun Wang, Ling Zeng, Chunhua Yu, Rui Kang, Daniel J Klionsky, Jianxin Jiang, Daolin Tang.
      Sepsis, a life-threatening condition resulting from a dysregulated response to pathogen infection, poses a significant challenge in clinical management. Here, we report a novel role for the autophagy receptor NCOA4 in the pathogenesis of sepsis. Activated macrophages and monocytes secrete NCOA4, which acts as a mediator of septic death in mice. Mechanistically, lipopolysaccharide, a major component of the outer membrane of Gram-negative bacteria, induces NCOA4 secretion through autophagy-dependent lysosomal exocytosis mediated by ATG5 and MCOLN1. Moreover, bacterial infection with E. coli or S. enterica leads to passive release of NCOA4 during GSDMD-mediated pyroptosis. Upon release, extracellular NCOA4 triggers the activation of the proinflammatory transcription factor NFKB/NF-κB by promoting the degradation of NFKBIA/IκB molecules. This process is dependent on the pattern recognition receptor AGER, rather than TLR4. In vivo studies employing endotoxemia and polymicrobial sepsis mouse models reveal that a monoclonal neutralizing antibody targeting NCOA4 or AGER delays animal death, protects against organ damage, and attenuates systemic inflammation. Furthermore, elevated plasma NCOA4 levels in septic patients, particularly in non-survivors, correlate positively with the sequential organ failure assessment score and concentrations of lactate and proinflammatory mediators, such as TNF, IL1B, IL6, and HMGB1. These findings demonstrate a previously unrecognized role of extracellular NCOA4 in inflammation, suggesting it as a potential therapeutic target for severe infectious diseases.
    Keywords:  Autophagy receptor; inflammation; lysosomal exocytosis; pattern recognition receptor; sepsis
    DOI:  https://doi.org/10.1080/15548627.2024.2372215
  34. Cancer Res. 2024 Jun 26.
    Targeting the TRIM14/USP14 Axis Enhances Immunotherapy Efficacy by Inducing Autophagic Degradation of PD-L1.
    Di Liu, Mengqiu Li, Zhiyao Zhao, Liang Zhou, Feng Zhi, Zhiyong Guo, Jun Cui.
      Immunotherapy has greatly improved cancer treatment in recent years by harnessing the immune system to target cancer cells. The first immunotherapeutic agent approved by the US Food and Drug Administration (FDA) was interferon a (IFNa). Treatment with IFNa can lead to effective immune activation and attenuate tumor immune evasion, but persistent treatment has been shown to elicit immune suppressive effects. Here, we identified an autophagy-dependent mechanism by which IFNa triggers tumor immune evasion by upregulating PD-L1 to suppress the anti-tumor activity of CD8+ T cells. Mechanistically, IFNa increased transcription of TRIM14, which recruited the deubiquitinase USP14 to inhibit the autophagic degradation of PD-L1. USP14 removed K63-linked ubiquitin chains from PD-L1, impairing its recognition by the cargo receptor p62 (also known as SQSTM1) for subsequent autophagic degradation. Combining the USP14 inhibitor IU1 with IFNa and anti-CTLA4 treatment effectively suppressed tumor growth without significant toxicity. This work suggests a strategy for targeting selective autophagy to abolish PD-L1-mediated cancer immune evasion.
    DOI:  https://doi.org/10.1158/0008-5472.CAN-23-3971
  35. Nat Struct Mol Biol. 2024 Jun 25.
    Control of mitophagy initiation and progression by the TBK1 adaptors NAP1 and SINTBAD.
    Elias Adriaenssens, Thanh Ngoc Nguyen, Justyna Sawa-Makarska, Grace Khuu, Martina Schuschnig, Stephen Shoebridge, Marvin Skulsuppaisarn, Emily Maria Watts, Kitti Dora Csalyi, Benjamin Scott Padman, Michael Lazarou, Sascha Martens.
      Mitophagy preserves overall mitochondrial fitness by selectively targeting damaged mitochondria for degradation. The regulatory mechanisms that prevent PTEN-induced putative kinase 1 (PINK1) and E3 ubiquitin ligase Parkin (PINK1/Parkin)-dependent mitophagy and other selective autophagy pathways from overreacting while ensuring swift progression once initiated are largely elusive. Here, we demonstrate how the TBK1 (TANK-binding kinase 1) adaptors NAP1 (NAK-associated protein 1) and SINTBAD (similar to NAP1 TBK1 adaptor) restrict the initiation of OPTN (optineurin)-driven mitophagy by competing with OPTN for TBK1. Conversely, they promote the progression of nuclear dot protein 52 (NDP52)-driven mitophagy by recruiting TBK1 to NDP52 and stabilizing its interaction with FIP200. Notably, OPTN emerges as the primary recruiter of TBK1 during mitophagy initiation, which in return boosts NDP52-mediated mitophagy. Our results thus define NAP1 and SINTBAD as cargo receptor rheostats, elevating the threshold for mitophagy initiation by OPTN while promoting the progression of the pathway once set in motion by supporting NDP52. These findings shed light on the cellular strategy to prevent pathway hyperactivity while still ensuring efficient progression.
    DOI:  https://doi.org/10.1038/s41594-024-01338-y
  36. Cell Death Dis. 2024 Jun 22. 15(6): 440
    Mechano-inhibition of endocytosis sensitizes cancer cells to Fas-induced Apoptosis.
    Mehmet H Kural, Umidahan Djakbarova, Bilal Cakir, Yoshiaki Tanaka, Emily T Chan, Valeria I Arteaga Muniz, Yasaman Madraki, Hong Qian, Jinkyu Park, Lorenzo R Sewanan, In-Hyun Park, Laura E Niklason, Comert Kural.
      The transmembrane death receptor Fas transduces apoptotic signals upon binding its ligand, FasL. Although Fas is highly expressed in cancer cells, insufficient cell surface Fas expression desensitizes cancer cells to Fas-induced apoptosis. Here, we show that the increase in Fas microaggregate formation on the plasma membrane in response to the inhibition of endocytosis sensitizes cancer cells to Fas-induced apoptosis. We used a clinically accessible Rho-kinase inhibitor, fasudil, that reduces endocytosis dynamics by increasing plasma membrane tension. In combination with exogenous soluble FasL (sFasL), fasudil promoted cancer cell apoptosis, but this collaborative effect was substantially weaker in nonmalignant cells. The combination of sFasL and fasudil prevented glioblastoma cell growth in embryonic stem cell-derived brain organoids and induced tumor regression in a xenograft mouse model. Our results demonstrate that sFasL has strong potential for apoptosis-directed cancer therapy when Fas microaggregate formation is augmented by mechano-inhibition of endocytosis.
    DOI:  https://doi.org/10.1038/s41419-024-06822-3
  37. Int J Mol Sci. 2024 Jun 18. pii: 6690. [Epub ahead of print]25(12):
    PCAS: An Integrated Tool for Multi-Dimensional Cancer Research Utilizing Clinical Proteomic Tumor Analysis Consortium Data.
    Jin Wang, Xiangrong Song, Meidan Wei, Lexin Qin, Qingyun Zhu, Shujie Wang, Tingting Liang, Wentao Hu, Xinyu Zhu, Jianxiang Li.
      Proteomics offers a robust method for quantifying proteins and elucidating their roles in cellular functions, surpassing the insights provided by transcriptomics. The Clinical Proteomic Tumor Analysis Consortium database, enriched with comprehensive cancer proteomics data including phosphorylation and ubiquitination profiles, alongside transcriptomics data from the Genomic Data Commons, allow for integrative molecular studies of cancer. The ProteoCancer Analysis Suite (PCAS), our newly developed R package and Shinyapp, leverages these resources to facilitate in-depth analyses of proteomics, phosphoproteomics, and transcriptomics, enhancing our understanding of the tumor microenvironment through features like immune infiltration and drug sensitivity analysis. This tool aids in identifying critical signaling pathways and therapeutic targets, particularly through its detailed phosphoproteomic analysis. To demonstrate the functionality of the PCAS, we conducted an analysis of GAPDH across multiple cancer types, revealing a significant upregulation of protein levels, which is consistent with its important biological and clinical significance in tumors, as indicated in our prior research. Further experiments were used to validate the findings performed using the tool. In conclusion, the PCAS is a powerful and valuable tool for conducting comprehensive proteomic analyses, significantly enhancing our ability to uncover oncogenic mechanisms and identify potential therapeutic targets in cancer research.
    Keywords:  R package; clinical proteomic tumor analysis consortium (CPTAC); integrated cancer analysis; phosphoproteomics; proteomics; shiny application
    DOI:  https://doi.org/10.3390/ijms25126690
  38. Proc Natl Acad Sci U S A. 2024 Jul 02. 121(27): e2403136121
    Nanoscale architecture of synaptic vesicles and scaffolding complexes revealed by cryo-electron tomography.
    Richard G Held, Jiahao Liang, Axel T Brunger.
      The spatial distribution of proteins and their arrangement within the cellular ultrastructure regulates the opening of α-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid (AMPA) receptors in response to glutamate release at the synapse. Fluorescence microscopy imaging revealed that the postsynaptic density (PSD) and scaffolding proteins in the presynaptic active zone (AZ) align across the synapse to form a trans-synaptic "nanocolumn," but the relation to synaptic vesicle release sites is uncertain. Here, we employ focused-ion beam (FIB) milling and cryoelectron tomography to image synapses under near-native conditions. Improved image contrast, enabled by FIB milling, allows simultaneous visualization of supramolecular nanoclusters within the AZ and PSD and synaptic vesicles. Surprisingly, membrane-proximal synaptic vesicles, which fuse to release glutamate, are not preferentially aligned with AZ or PSD nanoclusters. These synaptic vesicles are linked to the membrane by peripheral protein densities, often consistent in size and shape with Munc13, as well as globular densities bridging the synaptic vesicle and plasma membrane, consistent with prefusion complexes of SNAREs, synaptotagmins, and complexin. Monte Carlo simulations of synaptic transmission events using biorealistic models guided by our tomograms predict that clustering AMPARs within PSD nanoclusters increases the variability of the postsynaptic response but not its average amplitude. Together, our data support a model in which synaptic strength is tuned at the level of single vesicles by the spatial relationship between scaffolding nanoclusters and single synaptic vesicle fusion sites.
    Keywords:  cryo-electron tomography; nanoscale topography; synapse; synaptic transmission
    DOI:  https://doi.org/10.1073/pnas.2403136121
  39. Science. 2024 Jun 28. 384(6703): 1482-1488
    Homeocurvature adaptation of phospholipids to pressure in deep-sea invertebrates.
    Jacob R Winnikoff, Daniel Milshteyn, Sasiri J Vargas-Urbano, Miguel A Pedraza-Joya, Aaron M Armando, Oswald Quehenberger, Alexander Sodt, Richard E Gillilan, Edward A Dennis, Edward Lyman, Steven H D Haddock, Itay Budin.
      Hydrostatic pressure increases with depth in the ocean, but little is known about the molecular bases of biological pressure tolerance. We describe a mode of pressure adaptation in comb jellies (ctenophores) that also constrains these animals' depth range. Structural analysis of deep-sea ctenophore lipids shows that they form a nonbilayer phase at pressures under which the phase is not typically stable. Lipidomics and all-atom simulations identified phospholipids with strong negative spontaneous curvature, including plasmalogens, as a hallmark of deep-adapted membranes that causes this phase behavior. Synthesis of plasmalogens enhanced pressure tolerance in Escherichia coli, whereas low-curvature lipids had the opposite effect. Imaging of ctenophore tissues indicated that the disintegration of deep-sea animals when decompressed could be driven by a phase transition in their phospholipid membranes.
    DOI:  https://doi.org/10.1126/science.adm7607
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