Amplified expression of murine leukemia virus (MuLV)-coded antigens on thymocytes and leukemia cells of AKR mice after infection by dualtropic (MCF) MuLV

Abstract

Recently, we have shown that several isolates of recombinant, dualtropic (MCF) murine leukemia virus (MuLV) can induce amplification of MuLV gag and env gene-coded antigens on thymocytes of young AKR mice and, subsequently, can accelerate leukemia in these same animals. With respect to env gene-coded antigens, it is unclear whether antigen amplification represents expression of env gene products of the input virus on the surface of infected thymocytes or whether infection by MCF viruses induces the expression of other endogenous env gene sequences. Infection by antigenically marked viruses has allowed us to decide between these alternatives. We have found that AKR MCF isolates 69L1,13, and 247 can be distinguished serologically by specific patterns of reactivity with mouse and rat monoclonal antibodies that recognize 10 distinct epitopes (single antigenic determinants) of AKR ecotropic MuLV gp70 and p15(E) proteins. Accordingly, 1-monthold AKR mice were injected intrathymically with either MCF 69L1, MCF 13, or MCF 247 viruses and thymocytes of virus-injected mice were then assayed for amplification of specific epitopes at 32—36 days postinjection. Quantitative expression of MuLV antigens was determined by flow microfluorometry using a fluorescence-activated cell sorter. The patterns of reactivity with monoclonal antibodies which were originally determined for each virus in vitro were found to breed true on thymocytes infected in vivo. Moreover, the phenotype of virus recovered in vitro from virus accelerated leukemias was identical to that of the injected virus. Thus, the preleukemic change of MuLV antigen amplification appears to represent expression on thymocytes of env gene products encoded by the infecting MCF viral genome which continues to be expressed in the resulting leukemias without apparent changes in the recombinant env gene.