Dominant V beta 8 gene usage in response to TNP: failure to use other V beta chains following removal of V beta 8+ T cells by monoclonal antibody in vivo

Abstract

This paper investigates the V beta usage of lymph node cells from mice immunized with TNP and of cell lines made from them. In cell lines stimulated weekly with TNP in vitro for 1 month, about 87% of the cells were V beta 8+ and further analysis showed that these cells were actually V beta 8.2+. This was also true for the cells that proliferated in lymph nodes in response to TNP 4 days after primary immunization, i.e. proliferation occurred mainly in the V beta 8+, and in particular in the V beta 8.2+, population while much less proliferation occurred when the V beta 8- or V beta 8.2- T-cell populations are used. This was not due to non-specific damage during separation, as the response to concanavalin A and alloantigen was intact. In a separate series of experiments, mice were acutely depleted of V beta 8+ T cells by treatment with F23.1 or a control monoclonal antibody (mAb) in vivo given before immunization. Treatment with the relevant mAb virtually abolished the response to TNP. In contrast, SJL mice, which lack the gene segment coding for the V beta 8 family and several other V beta chains, made a normal proliferative and delayed-type hypersensitivity (DTH) response to TNP. This poses the problem, which may be important in the study of the T-cell repertoire, of why acute removal of V beta 8+ T cells, which are dominantly used in the response to TNP, does not allow T cells using other chains to substitute in the response, while the absence of this population over a long period of time, because of a deletion in the genome, allows the use of T cells bearing other V beta chains.