bims-maitce Biomed News
on MAIT cells
Issue of 2024‒03‒24
two papers selected by
Andy E. Hogan, Maynooth University
  1. MAIT cells are associated with responsiveness to neoadjuvant immunotherapy in COPD-associated NSCLC.
  2. Targeting pediatric cancers via T-cell recognition of the monomorphic MHC class I-related protein MR1.
  1. Cancer Med. 2024 Mar;13(6): e7112
    MAIT cells are associated with responsiveness to neoadjuvant immunotherapy in COPD-associated NSCLC.
    Yanze Yin, Ao Zeng, Abudumijiti Abuduwayiti, Zhilong Xu, Keyi Chen, Chao Wang, Xinyun Fang, Jiarui Wang, Gening Jiang, Jie Dai.
      BACKGROUND: Patients with non-small cell lung cancer (NSCLC) and chronic obstructive pulmonary disease (COPD) experience worse clinical outcomes but respond better to immunotherapy than patients with NSCLC without COPD. Mucosal-associated invariant T (MAIT) cells, a versatile population of innate immune T lymphocytes, have a crucial function in the response to infection and tumors. This study investigated the distribution of MAIT cells in COPD-associated NSCLC and their involvement in the immune response.METHODS: Flow cytometry, immunohistochemistry, and immunofluorescence were performed on tissue samples of patients with NSCLC, with or without COPD, treated with or without anti-programmed death 1 (PD1) immunotherapy. MAIT cells were stimulated with 5-OP-RU using a mouse subcutaneous tumor model.
    RESULTS: Tumors contained significantly more MAIT cells than paraneoplastic tissues, and CD8+ MAIT cells accounted for more than 90% of these cells. Patients with NSCLC and COPD had higher CD8+ MAIT cell counts than those with NSCLC without COPD. Additionally, patients with NSCLC and COPD displayed reduced expression of the activation marker, CD69, and functional markers, granzyme B (GZMB) and interferon γ (IFNγ), and higher expression of the immune exhaustion marker, PD1. Among patients who received immunotherapy, the proportion with a complete or partial response was higher in those with COPD than in those without COPD. In patients with NSCLC and COPD, the major pathologic response (MPR) group had higher MAIT levels than those in the no major pathologic response (NPR) group. In the mouse subcutaneous tumor model stimulation of MAIT cells using 5-OP-RU enhanced the antitumor effects of anti-PD1.
    CONCLUSIONS: In patients with NSCLC and COPD, response to immunotherapy is associated with accumulation of CD8+ MAIT cells showing immune exhaustion. These findings may contribute to innovative approaches for immunotherapy targeting CD8+ MAIT cells.
    Keywords:  T cell exhaustion; chronic obstructive pulmonary disease; immune checkpoint inhibitor therapy; lung cancer; mucosal‐associated invariant T cells
    DOI:  https://doi.org/10.1002/cam4.7112
  2. J Immunother Cancer. 2024 Mar 21. pii: e007538. [Epub ahead of print]12(3):
    Targeting pediatric cancers via T-cell recognition of the monomorphic MHC class I-related protein MR1.
    Annelisa M Cornel, Loutje van der Sman, Jip T van Dinter, Marta Arrabito, Ester Dunnebach, Marliek van Hoesel, Thomas A Kluiver, Ana P Lopes, Noël M M Dautzenberg, Linde Dekker, Jorik M van Rijn, Denise A M H van den Beemt, Juliane L Buhl, Aimee du Chatinier, Farnaz Barneh, Yuyan Lu, Luca Lo Nigro, Anja Krippner-Heidenreich, Zsolt Sebestyén, Jurgen Kuball, Esther Hulleman, Jarno Drost, Sebastiaan van Heesch, Olaf T Heidenreich, Weng Chuan Peng, Stefan Nierkens.
      Human leukocyte antigen (HLA) restriction of conventional T-cell targeting introduces complexity in generating T-cell therapy strategies for patients with cancer with diverse HLA-backgrounds. A subpopulation of atypical, major histocompatibility complex-I related protein 1 (MR1)-restricted T-cells, distinctive from mucosal-associated invariant T-cells (MAITs), was recently identified recognizing currently unidentified MR1-presented cancer-specific metabolites. It is hypothesized that the MC.7.G5 MR1T-clone has potential as a pan-cancer, pan-population T-cell immunotherapy approach. These cells are irresponsive to healthy tissue while conferring T-cell receptor(TCR) dependent, HLA-independent cytotoxicity to a wide range of adult cancers. Studies so far are limited to adult malignancies. Here, we investigated the potential of MR1-targeting cellular therapy strategies in pediatric cancer. Bulk RNA sequencing data of primary pediatric tumors were analyzed to assess MR1 expression. In vitro pediatric tumor models were subsequently screened to evaluate their susceptibility to engineered MC.7.G5 TCR-expressing T-cells. Targeting capacity was correlated with qPCR-based MR1 mRNA and protein overexpression. RNA expression of MR1 in primary pediatric tumors varied widely within and between tumor entities. Notably, embryonal tumors exhibited significantly lower MR1 expression than other pediatric tumors. In line with this, most screened embryonal tumors displayed resistance to MR1T-targeting in vitro MR1T susceptibility was observed particularly in pediatric leukemia and diffuse midline glioma models. This study demonstrates potential of MC.7.G5 MR1T-cell immunotherapy in pediatric leukemias and diffuse midline glioma, while activity against embryonal tumors was limited. The dismal prognosis associated with relapsed/refractory leukemias and high-grade brain tumors highlights the promise to improve survival rates of children with these cancers.
    Keywords:  cell engineering; immunotherapy; pediatrics
    DOI:  https://doi.org/10.1136/jitc-2023-007538
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