Cell stress activates γ9δ2 T cells via endogenous phosphoantigens and butyrophilin complex dynamics
Yiming Jin, Khiem Nguyen, Sidra Bashir, Girija Pawge, Reagan M. Strand, Chia-Hung Christine Hsiao, Olga Vinogradova, Andrew J. Wiemer

TL;DR
Cell stress activates a specific type of T cell through a newly discovered pathway involving phosphoantigens and butyrophilin proteins.
Contribution
A novel stress detection pathway linking cell stress to γ9δ2 T cell activation via endogenous phosphoantigens and butyrophilin dynamics is identified.
Findings
Mild cold stress triggers endogenous phosphoantigens to activate γ9δ2 T cells via BTN family proteins.
HMG-CoA reductase inhibition and BTN3A1 depletion reduce the stress-induced T cell activation.
BTN2A1/3A1 hybrid proteins show that proper spacing of BTN proteins is critical for TCR engagement.
Abstract
Phosphoantigens (pAgs) are phosphate-containing small molecules that elicit an immune response. The pAgs bind to the intracellular domain of butyrophilin 3 (BTN3), enabling interactions with other butyrophilins to form complexes that trigger the T cell receptor (TCR) of Vγ9Vδ2 (γ9δ2) T cells. Despite multiple reports on this process, the conditions that regulate pAg levels leading to their detection remain unclear. Here we reveal a novel stress detection pathway, a type of lymphoid stress-surveillance response, in which mild cold stress triggers endogenous pAgs to engage with BTN family proteins, leading to the activation of γ9δ2 T cells. This stress response is dependent upon endogenous pAgs, as inhibition of HMG-CoA reductase abrogates the effect. It is also dependent upon BTN proteins, as depletion of BTN3A1 reduces the response. The ability of BTN2A1/BTN3A1 to respond is enhanced by…
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Taxonomy
TopicsT-cell and B-cell Immunology · Atherosclerosis and Cardiovascular Diseases · Ubiquitin and proteasome pathways
