7fje Citations

Cholesterol inhibits TCR signaling by directly restricting TCR-CD3 core tunnel motility.

Chen Y, Zhu Y, Li X, Gao W, Zhen Z, Huang B, Ma Z, Zhang A, Song X, Ma Y, Guo C, Zhang F, Huang Z
Mol Cell 82 1278-1287.e5 (2022)
Related entries: 7fjd, 7fjf

Cited: 31 times
EuropePMC logo PMID: 35271814

Abstract

Cholesterol molecules specifically bind to the resting αβTCR to inhibit cytoplasmic CD3ζ ITAM phosphorylation through sequestering the TCR-CD3 complex in an inactive conformation. The mechanisms of cholesterol-mediated inhibition of TCR-CD3 and its activation remain unclear. Here, we present cryoelectron microscopy structures of cholesterol- and cholesterol sulfate (CS)-inhibited TCR-CD3 complexes and an auto-active TCR-CD3 variant. The structures reveal that cholesterol molecules act like a latch to lock CD3ζ into an inactive conformation in the membrane. Mutations impairing binding of cholesterol molecules to the tunnel result in the movement of the proximal C terminus of the CD3ζ transmembrane helix, thereby activating the TCR-CD3 complex in human cells. Together, our data reveal the structural basis of TCR inhibition by cholesterol, illustrate how the cholesterol-binding tunnel is allosterically coupled to TCR triggering, and lay a foundation for the development of immunotherapies through directly targeting the TCR-CD3 complex.

Articles - 7fje mentioned but not cited (2)

  1. Structures of human γδ T cell receptor-CD3 complex. Xin W, Huang B, Chi X, Liu Y, Xu M, Zhang Y, Li X, Su Q, Zhou Q. Nature 630 222-229 (2024)
  2. Molecular insights into recognition of GUCY2C by T-cell engaging bispecific antibody anti-GUCY2CxCD3. Rampuria P, Mosyak L, Root AR, Svenson K, Agostino MJ, LaVallie ER. Sci Rep 13 13408 (2023)


Reviews citing this publication (9)

  1. Cryo-electron Microscopic Analysis of Single-Pass Transmembrane Receptors. Cai K, Zhang X, Bai XC. Chem Rev 122 13952-13988 (2022)
  2. Lipids for CD8+ TILs: Beneficial or harmful? Wu D, Chen Y. Front Immunol 13 1020422 (2022)
  3. Harnessing αβ T cell receptor mechanobiology to achieve the promise of immuno-oncology. Reinherz EL, Hwang W, Lang MJ. Proc Natl Acad Sci U S A 120 e2215694120 (2023)
  4. Metabolic waypoints during T cell differentiation. Wilfahrt D, Delgoffe GM. Nat Immunol 25 206-217 (2024)
  5. Recent advances in understanding TCR signaling: a synaptic perspective. Dustin ML. Fac Rev 12 25 (2023)
  6. Sulfotransferase 2B1b, Sterol Sulfonation, and Disease. Cook I, Leyh TS. Pharmacol Rev 75 521-531 (2023)
  7. T-cell virtuosity in ''knowing thyself". Acuto O. Front Immunol 15 1343575 (2024)
  8. Immunometabolism of CD8+ T cell differentiation in cancer. Shi H, Chen S, Chi H. Trends Cancer 10 610-626 (2024)
  9. The recent advancement of TCR-T cell therapies for cancer treatment. Zhao X, Shao S, Hu L. Acta Biochim Biophys Sin (Shanghai) 56 663-674 (2024)

Articles citing this publication (20)



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