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Functional overlap of inborn errors of immunity and metabolism genes defines T cell metabolic vulnerabilities.

Andrew R PattersonGabriel A NeedleAyaka SugiuraErin Q JenningsChanning ChiKayLee K SteinerEmilie L FisherGabriella L RobertsonCaroline BodnyaJanet G MarkleRyan D SheldonRussell G JonesVivian GamaJeffrey C Rathmell
Published in: Science immunology (2024)
Inborn errors of metabolism (IEMs) and immunity (IEIs) are Mendelian diseases in which complex phenotypes and patient rarity have limited clinical understanding. Whereas few genes have been annotated as contributing to both IEMs and IEIs, immunometabolic demands suggested greater functional overlap. Here, CRISPR screens tested IEM genes for immunologic roles and IEI genes for metabolic effects and found considerable previously unappreciated crossover. Analysis of IEMs showed that N-linked glycosylation and the hexosamine pathway enzyme Gfpt1 are critical for T cell expansion and function. Further, T helper (T H 1) cells synthesized uridine diphosphate N -acetylglucosamine more rapidly and were more impaired by Gfpt1 deficiency than T H 17 cells. Screening IEI genes found that Bcl11b promotes the CD4 T cell mitochondrial activity and Mcl1 expression necessary to prevent metabolic stress. Thus, a high degree of functional overlap exists between IEM and IEI genes, and immunometabolic mechanisms may underlie a previously underappreciated intersection of these disorders.
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