Major histocompatibility gene therapy: the importance of haplotype and beta 2-microglobulin

Alloantigen gene therapy with the genes for the Class I major histocompatibility complex (MHC) HLA-B7 and beta 2-microglobulin in HLA-B7-negative patients has potential efficacy in the treatment of head and neck cancer, although the mechanism of response is unclear. Whether tumor regression is due to a response to HLA-B7 in HLA-B7-negative patients (i.e., due to "foreign" antigen) or simply to MHC overexpression is unknown. Therefore, a mouse model was used to compare tumor growth following syngeneic MHC transfection to alloantigenic MHC transfection. The importance of the beta 2-microglobulin gene was also evaluated. Prospective animal study. The head and neck cancer cell line SCC-VII that grows in immunocompetent C3H mice, which are MHC haplotype H2-K, was used. Stable transfections were made with H2-K, H2-K, and beta 2-microglobulin in the SCC-VII cells. To test the importance of MHC "foreignness," mice were injected with SCC-VII cells, SCC-VII plus H2-K plus beta 2-microglobulin transfected cells, and SCC-VII plus H2-K plus beta 2-microglobulin transfected cells. To evaluate beta 2-microglobulin, mice were injected with SCC-VII cells, SCC-VII plus H2-K plus beta 2-microglobulin transfected cells, SCC-VII plusH2-K transfected cells, and SCC-VII plus beta 2-microglobulin transfected cells. Tumor growth in all groups was compared statistically. Major histocompatibility complex foreignness was a part of the antitumor response. Foreign MHC routinely abrogated tumor growth, whereas syngeneic MHC only slowed tumor growth. beta 2-microglobulin aided the MHC tumor inhibition but did not inhibit tumor without the MHC. The antitumor response was greater when the MHC gene used was foreign. beta 2-microglobulin increased the efficacy of MHC gene therapy. Both of these findings are important when designing clinical trials of immunologically based gene therapies for head and neck cancer.