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CTLA4 protects against maladaptive cytotoxicity during the differentiation of effector and follicular CD4 + T cells.

Yuwei HaoBahar MiraghazadehRochna ChandAinsley R DaviesChelisa CardinezKristy KwongMorgan B DownesRebecca A SweetPablo F CañeteLloyd J D'OrsognaDavid A FulcherSharon ChooDesmond YipGeoffrey PetersSonia YipMatthew J WitneyMaxim NekrasovZhi-Ping FengDavid C TscharkeCarola G VinuesaMatthew C Cook
Published in: Cellular & molecular immunology (2023)
As chronic antigenic stimulation from infection and autoimmunity is a feature of primary antibody deficiency (PAD), analysis of affected patients could yield insights into T-cell differentiation and explain how environmental exposures modify clinical phenotypes conferred by single-gene defects. CD57 marks dysfunctional T cells that have differentiated after antigenic stimulation. Indeed, while circulating CD57 + CD4 + T cells are normally rare, we found that they are increased in patients with PAD and markedly increased with CTLA4 haploinsufficiency or blockade. We performed single-cell RNA-seq analysis of matched CD57 + CD4 + T cells from blood and tonsil samples. Circulating CD57 + CD4 + T cells (CD4cyt) exhibited a cytotoxic transcriptome similar to that of CD8 + effector cells, could kill B cells, and inhibited B-cell responses. CTLA4 restrained the formation of CD4cyt. While CD57 also marked an abundant subset of follicular helper T cells, which is consistent with their antigen-driven differentiation, this subset had a pre-exhaustion transcriptomic signature marked by TCF7, TOX, and ID3 expression and constitutive expression of CTLA4 and did not become cytotoxic even after CTLA4 inhibition. Thus, CD57 + CD4 + T-cell cytotoxicity and exhaustion phenotypes are compartmentalised between blood and germinal centers. CTLA4 is a key modifier of CD4 + T-cell cytotoxicity, and the pathological CD4cyt phenotype is accentuated by infection.
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