Extended Data Fig. 9: Monomeric mutant Vγ5Vδ1 TCR–CD3 complex fails to initiate T cell activation.
a, SEC analysis of recombinant WT, R120Q and EH Vγ5Vδ1 TCR–CD3 complexes. The SEC chromatograms for WT (orange), R120Q (green), and EH (blue) Vγ5Vδ1 TCR–CD3 complexes are shown. AU: arbitrary units; WT: wild-type; R120Q: R120Q mutation in TCRγ5 chain; EH: Y106E/R120H mutations in TCRγ5 chain. b, Flow cytometry analysis of CD69 expression on WT (left) or EH (middle) or R120Q (right) γδ TCR-transduced Jurkat-76 cells cocultured with K562 cells expressing CD1d or ZIM3–dCas9 (ref. 52) (parental) or without K562 cells. Numbers in plots indicate percent of gated events. APC: antigen-presenting cells. c, Flow cytometry analysis of CD3 (left) or γδ TCR (right) expression level on Jurkat-76 cells expressing WT (orange), R120Q (green), or EH (blue) Vγ5Vδ1 TCRs (n = 3 per group). The surface expression level of γδ TCRs was detected by anti-Flag antibodies. d, Flow cytometry analysis of CD69 upregulation on WT (orange), R120Q (green), or EH (blue) Vγ5Vδ1 TCR-transduced Jurkat-76 cells cocultured with anti-CD3/CD28 antibodies in 24 h (n = 6 per group). Results are presented as the proportion of CD69+ cells (%CD69+ cells) in each experimental co-culture relative to that in the control co-culture. e, Flow cytometry analysis of Jurkat-76 cells expressing the γδ TCRs of interest and stained by human CD1d–α-GalCer tetramers. Numbers in plots indicate percent of gated events. Results are representative of three independent experiments in b–d, and two independent experiments in e. In panels c and d, each symbol represents a biologically independent experiment and data are represented as mean ± SD.
