Jorge Oksenberg scite author profile

Previous reports show a small subset of CD8+ T cells expressing Ly49 proteins in mice can suppress autoimmunity in a model of demyelinating disease. Here we find a markedly increased frequency of CD8+ T cells expressing inhibitory Killer cell Immunoglobulin like Receptors (KIR), the human equivalent of the Ly49 family, in the blood and inflamed tissues of various human autoimmune diseases. Increased KIR+ CD8+ T cells in the gut also correlate with disease activity in Celiac disease (CeD) patients. Moreover, KIR+ CD8+ T cells can efficiently eliminate pathogenic gliadin-specific CD4+ T cells from CeD patients’ leukocytes in vitro. Together with gene expression data, this shows that these cells are the likely equivalent of the mouse Ly49+ CD8+ T cells. Furthermore, we observe elevated levels of KIR+ CD8+ T cells, but not CD4+ regulatory T cells, in COVID-19 and influenza-infected patients, and this correlates with disease severity and vasculitis in COVID-19. Single-cell RNA and parallelized TCR sequencing reveals that expanded KIR+ CD8+ T cells from these different diseases and healthy subjects display shared phenotypes and similar T cell receptor sequences. Selective ablation of the murine counterpart in virus-infected mice leads to exacerbated autoimmunity developed after infection. These results characterize a regulatory CD8+ T cell subset in humans which we hypothesize functions to control pathogenic cells in autoimmune and infectious diseases, with important implications for the cellular dynamics and possible therapeutic approaches to suppress unwanted autoimmunity. Supported by National Institutes of Health U19-AI057229 Howard Hughes Medical Institute Stanford Diabetes Research Center (P30DK116074)

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F.27. Meta-analysis of Genome Scans and Replication Identify CD6, ICSBP1, and TNFRSF1A as Novel Multiple Sclerosis Susceptibility Loci

Jager

Bakker

Wang³

et al. 2009

Clinical Immunology

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Author Correction: A systems biology approach uncovers cell-specific gene regulatory effects of genetic associations in multiple sclerosis

Madireddy¹,

Patsopoulos²,

Cotsapas³

et al. 2019

Nat Commun

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Jorge Oksenberg

Uncoupling the roles of HLA-DRB1 and HLA-DRB5 genes in multiple sclerosis

Interaction between HLA-DR2 and abnormal brain MRI in optic neuritis and early MS

Human KIR+ CD8+ T cells target pathogenic T cells in Celiac disease and are active in autoimmune diseases and COVID-19

F.27. Meta-analysis of Genome Scans and Replication Identify CD6, ICSBP1, and TNFRSF1A as Novel Multiple Sclerosis Susceptibility Loci

Author Correction: A systems biology approach uncovers cell-specific gene regulatory effects of genetic associations in multiple sclerosis

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