AKR/Gross virus-specific cytotoxic T lymphocytes (CTL) from C57BL/6 (B6) mice are H-2Kb-restricted and recognize epitopes encoded by the prototype endogenous ecotropic routine leukaemia virus (Emv) AKR623. Four CTL epitopes have been identified by the use of synthetic peptides corresponding to AKR623-encoded amino acid sequences. Here we present both functional and nucleotide sequence data indicating that three closely related Emv share all of these CTL epitopes. We also found that one other murine leukaemia virus (MuLV) was not susceptible to lysis by these CTL. This is the ecotropic component of the LP-BM5 virus complex that causes routine AIDS. Nucleotide sequencing revealed that three of the four epitopes, including the immunodominant peptide, are altered in this virus. The other epitope was unchanged. These data implied that the inability of anti-AKR/Gross virus CTL to lyse cells infected with the LP-BM5 ecotropic (BM5eco) MuLV was due to the functional loss of three of the four CTL epitopes. Using recombinant vaccinia and Sindbis virus vectors, we have shown that the BM5eco-encoded form of the immunodominant epitope, which differs only by an arginine for lysine substitution at the N-terminal residue, fails to induce a CTL response in B6 mice. Immunization with BM5eco-infected cells also failed to induce MuLV-specific CTL. In light of the long in vivo passage history of the LP-BM5 complex in B6 mice, our results are consistent with a contribution of CTL-mediated immune selection to the evolution of the BM5eco MuLV.
T24 HRAS transformed NIH/3T3 mouse Cells (GhrasT-NIH/3T3) in serial tumorigenic in vitro/in vivo Passages give rise to Increasingly aggressive tumorigenic cell Lines T1-A and T2-A and metastatic cell Lines T3-HA and T4-PA.,
C57BL/6 mice can generate a type-specific and class IH-2Kb-restricted CTL response against histocompatible AKR/Gross murine leukemia virus (MuLV) cell surface antigen positive (GCSA+) tumor cells. These anti-AKR/Gross MuLV CTL are also known to lyse SC.Kb/623 target cells expressing the molecular MuLV clone AKR623 (derived from the endogenous ecotropic MuLV provirus emv-11). To help identify AKR623 viral epitopes recognized by these CTL, four chimeric proviruses were constructed from two parental plasmids, pAKR623 and pAK7. It has been shown that SC.Kb/7 fibroblast targets expressing the emv-14-derived molecular clone AK7 are only poorly lysed by anti-AKR/Gross MuLV CTL. Data from experiments employing SC.Kb cells infected with the chimeras as targets against anti-AKR/Gross MuLV CTL supported the location of a previously identified immunodominant epitope located within the viral p15E transmembrane envelope protein, peptide TM134-141 (KSP-WFTTL). Furthermore, the use of Kb-motif-defined AKR623 encoded peptides together with data obtained using the chimeric viruses allowed the identification of three additional anti-AKR/Gross MuLV CTL epitopes. Peptides representing these epitopes, MA125-132 (RSALY-PAL), RT142-149 (SHRWYTVL), and RT456-463 (RMTHYQAM), are characterized herein with respect to their ability to confer lysis upon EMV- target cells and to stimulate tumor primed splenocytes in vitro. The identification and characterization of these additional epitopes allow for a better understanding of both the CTL response against GCSA+ tumor cells and the dysfunctional CTL response against EMV-14 and AK7.
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