bims-maitce 2026-04-26 papers

Issue of 2026–04–26
five papers selected by
Andy E. Hogan, Maynooth University

Trends Immunol. 2026 Apr 22. pii: S1471-4906(26)00092-X. [Epub ahead of print]

Murine MAIT cells: phenotypic markers, plasticity, and parallels to humans.

Mucosal-associated invariant T (MAIT) cells are innate-like T cells that recognize microbial metabolites. Recent studies have suggested numerous markers to define MAIT cells with distinct functional characteristics. This review synthesizes available data to identify markers that distinguish type 1 and type 3 murine MAIT cells. Inflammation can alter the expression of these markers, reflecting the plasticity of MAIT cells, which is discussed further. Comparative analysis with human MAIT cells reveals that type 1 and type 3 subsets are not as apparent. Although these have been described as activation states, unique human MAIT cell subsets exist across various tissues. By establishing a consensus for how to categorize MAIT cells, this review facilitates future research on these important lymphocytes.

Keywords: MAIT; innate-like lymphocytes; mucosal immunology; plasticity

DOI: https://doi.org/10.1016/j.it.2026.04.001

J Biol Chem. 2026 Apr 17. pii: S0021-9258(26)00342-X. [Epub ahead of print] 111470

Allelic variation alters expression and antigen presentation of MR1 allomorphs.

Adam G Nelson, Victoria Letoga, Clarice Z Q Lee, Carolyn Samer, Songyi Li, Lucy J Meehan, Hamish E G McWilliam, Nicholas A Gherardin, Allison Abendroth, Jose A Villadangos, Barry Slobedman, Alexandra J Corbett, James McCluskey, Jamie Rossjohn, Zhenjun Chen, Michael N T Souter, Wael Awad.

The major histocompatibility complex (MHC) class I-related protein 1 (MR1) presents vitamin B- derived metabolites to mucosal-associated invariant T (MAIT) and other T cells. There is limited polymorphism of MR1, the functional impact of which is not understood. We examined the impact of allelic variation of MR1 on the expression, structure and function of the known MR1 allomorphs. The expression and function of MR1*02, MR1*03 and MR1*06 were similar to the canonical MR1*01. Crystal structures of four MR1 allomorphs show that their polymorphisms do not impact the three-dimensional fold of MR1. Despite the binding of 5-OP-RU to MR1*05 and its cell surface upregulation, this allomorph was severely impaired in its ability to activate primary MAIT cells. This phenotype was controlled by two (His90Gln and Glu52Gly) of its three polymorphisms, which led to the loss of structurally stabilising interactions. When cells expressing the MR1 allomorphs were infected with herpes simplex virus type 1 (HSV-1), the nascent expression of all allomorphs was severely impaired, but surface expression of MR1*04:01 and MR1*04:02 were relatively less impacted. Hence, MR1 allelic variation alters the expression and function of the MR1*04 and MR1*05 allomorphs, with implications for MAIT cell and diverse MR1-reactive T cell immunity.

Keywords: MAIT; MR1; allele; antigen; polymorphism

DOI: https://doi.org/10.1016/j.jbc.2026.111470

Immunity. 2026 Apr 22. pii: S1074-7613(26)00135-4. [Epub ahead of print]

MAIT cells egress the thymus at several maturation stages with selective capacity to seed different tissues.

Rafael Almeida Paiva, Hugues Brière, Anne-Laure Le Gac, Aurélie Darbois, Laetitia Perrin, Anya Belmellat, Chaimae Saji, Mariela Furstenheim, Lea Guyonnet, François Legoux, Bernard Malissen, Marion Salou, Olivier Lantz.

Mucosal-associated invariant T (MAIT) and invariant natural killer T (iNKT) cells participate in tissue homeostasis and repair and in defense against pathogens. While MAIT and iNKT cells share a developmental pathway leading to the expression of effector-memory and tissue-residency programs, differences in subset proportions and tissue distribution suggest lineage-specific developmental mechanisms. We show that thymic epithelial cells contribute to MAIT but not to iNKT cell selection, which relies solely on double-positive thymocytes. Nonetheless, MAIT and iNKT cells had similar developmental kinetics and thymic residency properties. MAIT cells egressed the thymus at several developmental stages and colonized specific tissues. Semi-mature cells seeded the intestine via chemokine receptor CCR9. Thymic output during adulthood contributed to tissue MAIT and iNKT cell homeostasis. Lastly, MAIT ligands produced during colitis induced thymic MAIT17 cell expansion and migration to the colon, which suggests a feedback loop that boosts the production of MAIT cells capable of re-establishing epithelial integrity.

Keywords: MAIT cells; T cell development; colitis; iNKT cells; innate-like T cells; invariant natural killer T cells; mucosal tissues; mucosal-associated invariant T cells; thymus egress; tissue seeding

DOI: https://doi.org/10.1016/j.immuni.2026.03.024

JHEP Rep. 2026 Apr 17. pii: S2589-5559(26)00128-X. [Epub ahead of print] 101857

Intrahepatic T cell analysis reveals Th17 and MAIT17 enrichment in primary sclerosing cholangitis.

Lisa R V Brynjulfsen, Hesham ElAbd, Jonas Øgaard, Markus S Jördens, Amber G Bozward, Daniel Kearns, Xiaojun Jiang, Trine Folseraas, Palak J Trivedi, Ye H Oo, Andre Franke, Tom H Karlsen, Espen Melum, Brian K Chung.

BACKGROUND AND AIMS: Primary sclerosing cholangitis (PSC) is an immune-mediated liver disease where the exact contribution of T cells is unclear. To deeply characterize intrahepatic T cells in PSC, we combined single-cell RNA sequencing (scRNA-seq) with T cell receptor sequencing (TCR-seq) and functional confirmation, using primary biliary cholangitis (PBC) and alcohol-related liver disease (ALD) as disease controls.
METHODS: Intrahepatic T cells from 12 PSC, 9 PBC and 3 ALD explants were enriched by negative selection, viability-sorted and analyzed by scRNA-seq for total gene and TCR expression. T helper 17 (Th17) and mucosal-associated invariant T cell 17 (MAIT17) proportions were analyzed by flow cytometry and liver immunohistochemistry (IHC). Liver TCRs in blood were evaluated in an independent PSC, PBC and healthy cohort previously analyzed by TCR β-chain sequencing. Antigenicity of MAIT TCR-transduced reporters were assessed using MAIT-specific tetramers (5-OP-RU-MR1) and MR1+H69 cholangiocyte co-cultures.
RESULTS: ScRNA-seq of 40,897 intrahepatic T cells revealed increased Th17/MAIT17 proportions in PSC livers compared to PBC (1.9-fold) and ALD (3.5-fold). Liver Th17 and MAIT17 expressed tissue-resident markers (CD69, CXCR6, ITGAE) and relative abundances measured by scRNA-seq correlated with proportions detected by flow cytometry. IHC liver staining of a validation cohort (n=37) showed higher fractions of RORγt+ cells in PSC and greater cumulative frequencies of liver Th17 and MAIT17 TCR clonotypes in PSC blood compared to PBC. Seven of ten TCR reporters representing the most-common and expanded MAIT17 clonotypes in PSC livers bound 5-OP-RU-MR1 tetramer and were activated by 5-OP-RU-loaded MR1+H69 cholangiocytes.
CONCLUSION: Multimodal analysis of intrahepatic T cells in PSC revealed a novel enrichment of Th17 and MAIT17 which may reflect increased IL-17 polarization of T cells within the PSC microenvironment.
IMPACT AND IMPLICATIONS: Primary sclerosing cholangitis (PSC) is a progressive cholestatic biliary disease featuring liver T cell infiltration of unknown significance. To better define the role of T cells in PSC, we phenotyped intrahepatic T cells by single-cell RNA-sequencing and detected increased proportions of tissue-resident Th17 and MAIT17 cells in PSC relative to disease controls. T cell receptor (TCR) sequencing also revealed that liver Th17 and MAIT17 TCR clonotypes were more frequent in blood from individuals with PSC compared to primary biliary cholangitis (PBC). Collectively our results suggest that PSC is associated with a greater expansion of liver Th17 and MAIT17 which may contribute to the pathogenesis of PSC.

Keywords: IL-17 producing helper T cells; T cell receptor sequencing; alcohol-related liver disease; mucosal-associated invariant T cells; primary biliary cholangitis; primary sclerosing cholangitis; single-cell RNA sequencing

DOI: https://doi.org/10.1016/j.jhepr.2026.101857

Immunol Cell Biol. 2026 Apr 23.

From transcription to biological translation: regulation and recognition of MR1.

Timothy Patton, Adam G Nelson, Alexandra J Corbett.

The axis of MR1 restricted T-cell immunity has been an area of growing interest over the past decade. In this "Highlights of 2025" perspective, we discuss recent advances in our understanding of the transcriptional regulation of MR1, the distribution of MR1 protein across tissues and the elucidation of novel MR1 ligands. The advances of 2025 have unlocked new methodologies and mechanistic insights, aiding future studies that consider MR1 and its contribution to the development of MR1-restricted T-cell responses in the context of infection, cancer and autoimmunity.

Keywords: MAIT cell; MR1; MR1T cell; MR1‐ligand

DOI: https://doi.org/10.1111/imcb.70125