Interferon sensitive and insensitive MHC variants of a murine thymoma differentially resistant to methotrexate-containing antibody-directed liposomes and immunotoxin.

We evaluated the ability of methotrexate-containing liposomes or a ricin alpha-chain immunotoxin, both associated with monoclonal antibodies specific for the major histocompatibility complex-encoded class I molecule H-2Kk, to kill cells of the murine k haplotype thymoma RDM4. Cells were incubated with liposomes or immunotoxin in the presence or absence of interferon-gamma, which is known to augment the expression of the target class I molecules. The great majority of cells were killed by either of these reagents. Two types of mutant cells were obtained: type 1 cells, selected by methotrexate-containing liposomes, failed to express sufficient target H-2k molecules to be killed by liposomes in the absence of interferon-gamma. In the presence of interferon-gamma, these cells increased expression of all H-2 class I molecules and could be killed by targeted liposomes. Type 2 cells were immunoselected from cloned type 1 cells by liposomes in the presence of interferon. These cells failed to respond to interferon with expression of the H-2Kk molecule, but continued to augment H-2Dk expression in response to interferon. A third variant (type 3) selected from the wild type population by an H-2Kk specific immunotoxin in the absence of interferon phenotypically resembled type 1 cells. Type 1 but not type 2 cells respond to interferon by augmented synthesis of H-2Kk specific mRNA. The results suggest that for interferon-sensitive cell surface molecules of tumor cells, use of interferon improves the efficacy of targeted chemotherapy, but does not prevent development of mutants lacking the target molecule.