Induction of multiple myeloma-reactive T cells during post-transplantation immunotherapy with donor lymphocytes and recipient DCs.

Recently, we demonstrated that reduced intensity conditioning (RIC) followed by partial T-cell-depleted SCT creates a platform for inducing the graft-versus-myeloma effect by adjuvant immunotherapy. Here, we evaluated mHA-specific T-cell responses in a multiple myeloma (MM) patient who was treated with RIC-SCT followed by donor lymphocyte infusion (DLI) and subsequent recipient DC vaccination. We isolated a mHA-specific CTL clone with the capacity to target MM tumor cells from this patient experiencing long-term CR. This CTL clone recognizes an HLA-A3-restricted mHA and mediates killing of both primary MM cells and the MM-cell line U266, while BM-derived fibroblasts are not recognized. CTL-specific T-cell receptor (TCR) transcripts could be detected by quantitative PCR analysis in both peripheral blood and BM during tumor remission. Interestingly, a strong increase of CTL-specific TCR transcripts at the BM tumor site was observed following DLI and recipient DC vaccination, while the TCR signal in peripheral blood decreased. These findings illustrate that the approach of partial T-cell-depleted RIC-SCT followed by post-transplantation immunotherapy induces mHA-specific T-cell responses targeting MM tumor cells.

Soluble receptor-mediated targeting of mouse hepatitis coronavirus to the human epidermal growth factor receptor.

The mouse hepatitis coronavirus (MHV) infects murine cells by binding of its spike (S) protein to murine CEACAM1a. The N-terminal part of this cellular receptor (soR) is sufficient for S binding and for subsequent induction of the conformational changes required for virus-cell membrane fusion. Here we analyzed whether these characteristics can be used to redirect MHV to human cancer cells. To this end, the soR domain was coupled to single-chain monoclonal antibody 425, which is directed against the human epidermal growth factor receptor (EGFR), resulting in a bispecific adapter protein (soR-425). The soR and soR-425 proteins, both produced with the vaccinia virus system, were able to neutralize MHV infection of murine LR7 cells. However, only soR-425 was able to target MHV to human EGFR-expressing cancer cells. Interestingly, the targeted infections induced syncytium formation. Furthermore, the soR-425-mediated infections were blocked by heptad repeat-mimicking peptides, indicating that virus entry requires the regular S protein fusion process. We conclude that the specific spike-binding property of the CEACAM1a N-terminal fragment can be exploited to direct the virus to selected cells by linking it to a moiety able to bind a receptor on those cells. This approach might be useful in the development of tumor-targeted coronaviruses.