This system involves the transfer of ex vivo-activated Roxadustat in vivo syngeneic CD4+ T cells with a measure of in vivo proliferation and IL-2 production and hence has a wide dynamic range that is related directly to T cell proliferation [33]. This model was also used by Sedy et al., and proliferation was inhibited by CHO/mHVEM-expressing cells [9]. Furthermore, several T cell function antagonists have been validated in this model [33]. We found that antibodies that inhibited T cell proliferation in vitro had no significant effect on the antibody-captured IL-2 associated with the in vivo activation of
DO11.10 T cells transferred to syngeneic recipient BALB/c mice. We propose that this may be because an exogenously administered, soluble BTLA-specific selleckchem reagent is unable to interdict the immunological synapse that has formed between an antigen-presenting cell and a T cell in vivo. There are few studies that describe the effects of anti-specific anti-BTLA reagents in vivo (as opposed to soluble HVEM-Fc which can
bind to other molecules). The study by Truong et al. is a novel and interesting study that describes a synergistic improvement in allograft maintenance when the anti-BTLA mAb clone 6F7 is combined with CTLA4-Fc [34]. Specifically, at day 100 post-transplant approximately 40% of the mice treated with CTLA4-Fc alone have survived and approximately 70% of the mice treated with CTLA4-Fc and the mAb 6F7 have survived. This probably represents a statistically significant improvement, but the dynamic range between the two separate treatment groups is moderate. Furthermore, it is unclear if there is a significant improvement in the in vivo phenotypical behaviour Benzatropine and proliferation (i.e. lymphocyte precursor frequency) of the mice treated with CTLA4-Fc plus mAb 6F7, relative to treatment with CTLA4-Fc alone, and these reagents reportedly
do not induce in vitro allospecific unresponsiveness as measured by MLR and CTL assays. In our hands, the anti-BTLA mAb 6F7 does not inhibit T cell proliferation in vitro and it groups to a different epitope on mBTLA relative to the reagents that inhibit T cell proliferation and activation. Hence, we cannot account readily for the reported synergistic improvement in transplant tolerance with the mAb 6F7 that is described in this study. However, differences between different animal facilities and detailed experimental protocols between different laboratories, as well as different preparations of test reagents with varying potencies and pharmacokinetic properties, may provide a partial explanation. It must also be borne in mind that the DO11.