KIR + CD8 + T cells suppress pathogenic T cells and are active in autoimmune diseases and COVID-19

Jing Li; Maxim Zaslavsky; Yapeng Su; Jing Guo; Michael J. Sikora; Vincent van Unen; Asbjørn Christophersen; Shin‐Heng Chiou; Liang Chen; Jun Li; Xuhuai Ji; Julie Wilhelmy; Alana M. McSween; Brad A. Palanski; Vamsee Mallajosyula; Nathan A. Bracey; Gopal Krishna Dhondalay; Kartik Bhamidipati; Joy A. Pai; Lucas Kipp; Jeffrey Dunn; Stephen L. Hauser; Jorge R. Oksenberg; Ansuman T. Satpathy; William H. Robinson; Cornelia L. Dekker; Lars M. Steinmetz; Chaitan Khosla; Paul J. Utz; Ludvig M. Sollid; Yueh‐hsiu Chien; James R. Heath; Nielsen Fernandez‐Becker; Kari C. Nadeau; Naresha Saligrama; Mark M. Davis

doi:10.1126/science.abi9591

KIR + CD8 + T cells suppress pathogenic T cells and are active in autoimmune diseases and COVID-19

Jing Li(Howard Hughes Medical Institute), Maxim Zaslavsky(Stanford University), Yapeng Su(Institute for Systems Biology), Jing Guo(Stanford University), Michael J. Sikora(Stanford University), Vincent van Unen(Stanford University), Asbjørn Christophersen(University of Oslo), Shin‐Heng Chiou(Stanford University), Liang Chen(Stanford University), Jun Li(Howard Hughes Medical Institute), Xuhuai Ji(Stanford University), Julie Wilhelmy(Stanford University), Alana M. McSween(Stanford University), Brad A. Palanski(Stanford University), Vamsee Mallajosyula(Stanford University), Nathan A. Bracey(Stanford University), Gopal Krishna Dhondalay(Stanford University), Kartik Bhamidipati(Stanford University), Joy A. Pai(Stanford University), Lucas Kipp(Stanford University), Jeffrey Dunn(Stanford University), Stephen L. Hauser(University of California, San Francisco), Jorge R. Oksenberg(University of California, San Francisco), Ansuman T. Satpathy(Stanford University), William H. Robinson(VA Palo Alto Health Care System), Cornelia L. Dekker(Stanford University), Lars M. Steinmetz(European Molecular Biology Laboratory), Chaitan Khosla(Stanford University), Paul J. Utz(Stanford University), Ludvig M. Sollid(Oslo University Hospital), Yueh‐hsiu Chien(Stanford University), James R. Heath(University of Washington), Nielsen Fernandez‐Becker(Stanford University), Kari C. Nadeau(Stanford University), Naresha Saligrama(Stanford University), Mark M. Davis(Howard Hughes Medical Institute)

Science

March 8, 2022

10.1126/science.abi9591

Cited by 242Open Access

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Abstract

In this work, we find that CD8 + T cells expressing inhibitory killer cell immunoglobulin-like receptors (KIRs) are the human equivalent of Ly49 + CD8 + regulatory T cells in mice and are increased in the blood and inflamed tissues of patients with a variety of autoimmune diseases. Moreover, these CD8 + T cells efficiently eliminated pathogenic gliadin-specific CD4 + T cells from the leukocytes of celiac disease patients in vitro. We also find elevated levels of KIR + CD8 + T cells, but not CD4 + regulatory T cells, in COVID-19 patients, correlating with disease severity and vasculitis. Selective ablation of Ly49 + CD8 + T cells in virus-infected mice led to autoimmunity after infection. Our results indicate that in both species, these regulatory CD8 + T cells act specifically to suppress pathogenic T cells in autoimmune and infectious diseases.

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KIR <sup>+</sup> CD8 <sup>+</sup> T cells suppress pathogenic T cells and are active in autoimmune diseases and COVID-19

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