Abstract
Background
Granzymes are essential serine proteases in cytotoxic T cells and natural killer (NK) cells, with GZMK's expression being less understood. This study aims to uncover GZMK expression profiles across various immune cell types using single-cell RNA sequencing meta-analysis.Objective
This study aims to uncover GZMK expression profiles across various immune cell types using single-cell RNA sequencing meta-analysis.Methods
We conducted a meta-analysis using cellxgene, an interactive data exploration platform developed by the Chan Zuckerberg Initiative. We focused on mature T cells, NK cells, B cells, and NKT cells. We also checked transcription factor binding sites at the granzyme gene promoter regions using JASPAR. Comparative analysis was also done using mouse single-cell RNA sequencing data.Results
GZMK was the most lowly expressed in NK cells and mature NKT cells in most tissues except for colon and lymph nodes. In mature T cells, GZMK is similarly or more highly expressed than other granzymes. HBCA data revealed weak expression of GZMK in NK cells but strong expression in effector memory CD8-positive, alpha-beta T cells. Combined data shows no significant difference in GZMK expression between cell types. Subtype analysis shows that GZMK expression was higher in CD16-negative, CD56-bright NK cells when compared to CD16-positive, CD56-dim NK cells. We also identified unique transcription factor binding sites for GZMK. While this pattern in mouse data with low Gzmk expression in NK cells and higher T cells was repeated.Conclusion
GZMK expression is distinctively regulated among immune cells and tissues, with unique promoter regions and transcription factor binding sites contributing to this differential expression. These insights into GZMK's role in immune function and regulation offer potential therapeutic targets.References
Articles referenced by this article (27)
Human natural killer cells: a unique innate immunoregulatory role for the CD56(bright) subset.
Blood, (10):3146-3151 2001
MED: 11342442
Single-cell profiling reveals the trajectories of natural killer cell differentiation in bone marrow and a stress signature induced by acute myeloid leukemia.
Cell Mol Immunol, (5):1290-1304 2020
MED: 33239726
Natural cytotoxic reactivity of mouse lymphoid cells against syngeneic and allogeneic tumors. II. Characterization of effector cells.
Int J Cancer, (2):230-239 1975
MED: 1080480
Modulation of T cell cytokine production by interferon regulatory factor-4.
J Biol Chem, (51):49238-49246 2002
MED: 12374808
IRF4 at the crossroads of effector T-cell fate decision.
Eur J Immunol, (7):1886-1895 2014
MED: 24782159
Show 10 more references (10 of 27)
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Funding
Funders who supported this work.
Ministry of Education (1)
Grant ID: NRF- 2022R1I1A1A01071831