| Literature DB >> 34986329 |
Svetlana Saveljeva1, Gavin W Sewell1, Katharina Ramshorn1, M Zaeem Cader1, James A West1, Simon Clare2, Lea-Maxie Haag3, Rodrigo Pereira de Almeida Rodrigues1, Lukas W Unger1, Ana Belén Iglesias-Romero1, Lorraine M Holland1, Christophe Bourges1, Muhammad N Md-Ibrahim3, James O Jones3, Richard S Blumberg4, James C Lee1, Nicole C Kaneider1, Trevor D Lawley2, Allan Bradley5, Gordon Dougan6, Arthur Kaser7.
Abstract
Still's disease, the paradigm of autoinflammation-cum-autoimmunity, predisposes for a cytokine storm with excessive T lymphocyte activation upon viral infection. Loss of function of the purine nucleoside enzyme FAMIN is the sole known cause for monogenic Still's disease. Here we discovered that a FAMIN-enabled purine metabolon in dendritic cells (DCs) restrains CD4+ and CD8+ T cell priming. DCs with absent FAMIN activity prime for enhanced antigen-specific cytotoxicity, IFNγ secretion, and T cell expansion, resulting in excessive influenza A virus-specific responses. Enhanced priming is already manifest with hypomorphic FAMIN-I254V, for which ∼6% of mankind is homozygous. FAMIN controls membrane trafficking and restrains antigen presentation in an NADH/NAD+-dependent manner by balancing flux through adenine-guanine nucleotide interconversion cycles. FAMIN additionally converts hypoxanthine into inosine, which DCs release to dampen T cell activation. Compromised FAMIN consequently enhances immunosurveillance of syngeneic tumors. FAMIN is a biochemical checkpoint that protects against excessive antiviral T cell responses, autoimmunity, and autoinflammation.Entities:
Keywords: NADH/NAD(+) reductive stress; T cell priming; autoimmunity; dendritic cells; membrane trafficking; purine nucleotide cycle
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Year: 2022 PMID: 34986329 PMCID: PMC8730334 DOI: 10.1016/j.cmet.2021.12.009
Source DB: PubMed Journal: Cell Metab ISSN: 1550-4131 Impact factor: 27.287