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Gene therapy of cancer

$4,057,426ZIAFY2021CANIH

Division Of Basic Sciences - Nci

Investigators

Linked publications & trials

Abstract

My laboratory is involved in studies to genetically modify autologous lymphocytes to improve their anti-tumor activity. In 1990 we reported the first studies of gene transfer in humans which involved the adoptive transfer of TIL transduced with a marker gene encoding neomycin phosphotransferase. These studies suggested the possibility that genes could be inserted into lymphocytes to improve their anti-tumor efficacy using high efficiency retroviral gene insertion. In clinical studies we showed that up to 30% of patients with metastatic melanoma will achieve objective clinical cancer regressions when treated with their autologous lymphocytes transduced with T cell receptors that recognized the MART-1 or gp100 melanoma antigens. These were the first studies showing that TCR transduced lymphocytes could mediate cancer regression. T-cell receptors were identified that recognized NY-ESO-1 and MAGE-A3, the cancer germ-live antigens, epitopes that have also been used to mediate cancer regression inpatients. Using cells transduced with a TCR reactive with the NY-ESO-1 cancer testes antigen 10 of 19 melanoma patients and 10 of 15 synovial cell sarcoma patients have had objective responses. Current clinical trials involve the administration of cells transduced with antigens encoding T-cell receptors that recognize random somatic mutations. T-cells that recognize random somatic mutations have been identified in 77% of 195 patients with a variety of solid epithelial cancer. 363 neoantigens were identified all of which were unique except for two patients that recognized a KRAS G12D mutation restricted by Cw0802. Chimeric antigen receptors have been developed that recognize CD19 cell surface antigens on B cell malignancies and clinical trials using the transfer of these cells have moderated objective responses in 56% of patients with Diffuse Large B-cell Lymphoma including 50% with durable complete responses. Studies of T-cell transfer targeting the EGFRvIII mutation' expressed on glioblastomas showed no responses in 18 patients. Recent studies have been devoted to generating libraries of genes encoding T cell receptors that recognize shared p53 and KRAS mutations (restricted by multiple MHC antigens) including KRAS G12D, G12V, G12R, G13 D and 17 receptors encoding p53 hotspot mutations for use in cell/gene therapy studies.

View original record on NIH RePORTER →