Figure 1
Figure 1. BTLA expression on resting Vγ9Vδ2 T cells from HV. (A) Multiparametric flow cytometry analysis of B7/CD28 family members’ expression on peripheral γδ T cells (CD3+TCRVγ9+) gated from HV PBMC (n = 8). (B) Expression of BTLA on CD4+ and CD8+ αβ T cells and B cells (n = 4). (C) Gating strategy for BTLA expression on γδ T cells’ differentiation subsets by flow cytometry. γδ T cells were analyzed for CD45RA and CD27 expression, resulting in the following subsets of γδ T lymphocytes: naïve (CD45RA+CD27+), CM (CD45RA−CD27+), EM (CD45RA−CD27−), and TEMRA (CD45RA+CD27−). (D) Representative histograms of BTLA expression in γδ T-cell differentiation subsets. γδ T cells from PBMCs of HV (n = 4) were analyzed by flow cytometry for BTLA expression according to differentiation subsets. MFI, mean fluorescence intensity.

BTLA expression on resting Vγ9Vδ2 T cells from HV. (A) Multiparametric flow cytometry analysis of B7/CD28 family members’ expression on peripheral γδ T cells (CD3+TCRVγ9+) gated from HV PBMC (n = 8). (B) Expression of BTLA on CD4+ and CD8+ αβ T cells and B cells (n = 4). (C) Gating strategy for BTLA expression on γδ T cells’ differentiation subsets by flow cytometry. γδ T cells were analyzed for CD45RA and CD27 expression, resulting in the following subsets of γδ T lymphocytes: naïve (CD45RA+CD27+), CM (CD45RACD27+), EM (CD45RACD27), and TEMRA (CD45RA+CD27). (D) Representative histograms of BTLA expression in γδ T-cell differentiation subsets. γδ T cells from PBMCs of HV (n = 4) were analyzed by flow cytometry for BTLA expression according to differentiation subsets. MFI, mean fluorescence intensity.

Close Modal
This Feature Is Available To Subscribers Only

or Create an Account

Close Modal
Close Modal