Smac mimetic increases chemotherapy response and improves survival in mice with pancreatic cancer

SP Dineen, CL Roland, R Greer, JG Carbon… - Cancer research, 2010 - AACR
SP Dineen, CL Roland, R Greer, JG Carbon, JE Toombs, P Gupta, N Bardeesy, H Sun…
Cancer research, 2010AACR
Failure of chemotherapy in the treatment of pancreatic cancer is often due to resistance to
therapy-induced apoptosis. A major mechanism for such resistance is the expression and
activity of inhibitors of apoptosis proteins (IAP). Smac (second mitochondria–derived
activator of caspase) is a mitochondrial protein that inhibits IAPs. We show that JP1201, a
Smac mimetic, is a potent enhancer of chemotherapy in robust mouse models of pancreatic
cancer. Combination of JP1201 with gemcitabine reduced primary and metastatic tumor …
Abstract
Failure of chemotherapy in the treatment of pancreatic cancer is often due to resistance to therapy-induced apoptosis. A major mechanism for such resistance is the expression and activity of inhibitors of apoptosis proteins (IAP). Smac (second mitochondria–derived activator of caspase) is a mitochondrial protein that inhibits IAPs. We show that JP1201, a Smac mimetic, is a potent enhancer of chemotherapy in robust mouse models of pancreatic cancer. Combination of JP1201 with gemcitabine reduced primary and metastatic tumor burden in orthotopic xenograft and syngenic tumor models, induced regression of established tumors, and prolonged survival in xenograft and transgenic models of pancreatic cancer. The effect of JP1201 was phenocopied by XIAP small interfering RNA in vitro and correlated with elevated levels of tumor necrosis factor α protein in vivo. The continued development of JP1201 and other strategies designed to enhance therapy-induced apoptosis in pancreatic cancer is warranted. Cancer Res; 70(7); 2852–61
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