First, our results support a high sensitivity of ES cells to MLN4924 growth inhibition both in vitro (14 ES cell lines tested, median IC50=81 nM) and in tumor xenografts (tumor regression achieved with 60 mg/kg BID, subcutaneously, n=9).
In contrast, Caspase-2 showed tumor suppressive capacity in response to aberrant c-Myc expression, which did not rely on PIDD, the BH3-only protein Bid (BH3 interacting domain death agonist) or the death receptor ligand Trail (TNF-related apoptosis-inducing ligand), but associated with reduced rates of p53 loss and increased extranodal dissemination of tumor cells.
Thus, this study suggests that BID is crucial for cell viability regulated by IFN-α which can induce mitochondria-mediated apoptosis, indicating a notable potential to be a targeted therapy for IFN-α resistant tumors.
In an attempt to develop strategies for prolonging the survival of adoptively transferred T cells in a hostile pro-apoptotic tumor microenvironment, we used synthetic siRNA and vector-based shRNA to suppress the expression of Bid in human uterocervical carcinoma HeLa cells, followed by the further achievement of Bid gene silencing in human primary cells-CD8(+) lymphocytes via retrovirus-delivered siRNAs.