Cancer gene therapy using a survivin mutant adenovirus
Mehdi Mesri, Nathan R. Wall, Jia Li, Richard W. Kim, Dario C. Altieri
Mehdi Mesri, Nathan R. Wall, Jia Li, Richard W. Kim, Dario C. Altieri
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Cancer gene therapy using a survivin mutant adenovirus

Abstract

We have constructed a replication-deficient adenovirus encoding a nonphosphorylatable Thr34→Ala mutant of the apoptosis inhibitor survivin (pAd-T34A) to target tumor cell viability in vitro and in vivo. Infection with pAd-T34A caused spontaneous apoptosis in cell lines of breast, cervical, prostate, lung, and colorectal cancer. In contrast, pAd-T34A did not affect cell viability of proliferating normal human cells, including fibroblasts, endothelium, or smooth muscle cells. Infection of tumor cells with pAd-T34A resulted in cytochrome c release from mitochondria, cleavage of approximately 46-kDa upstream caspase-9, processing of caspase-3 to the active subunits of approximately 17 and 19 kDa, and increased caspase-3 catalytic activity. When compared with chemotherapeutic regimens, pAd-T34A was as effective as taxol and considerably more effective than adriamycin in induction of tumor cell apoptosis and enhanced taxol-induced cell death. In three xenograft breast cancer models in immunodeficient mice, pAd-T34A suppressed de novo tumor formation, inhibited by approximately 40% the growth of established tumors, and reduced intraperitoneal tumor dissemination. Tumors injected with pAd-T34A exhibited loss of proliferating cells and massive apoptosis by in situ internucleosomal DNA fragmentation. These data suggest that adenoviral targeting of the survivin pathway may provide a novel approach for selective cancer gene therapy.

Authors

Mehdi Mesri, Nathan R. Wall, Jia Li, Richard W. Kim, Dario C. Altieri

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pAd-T34A selectively induces tumor cell apoptosis. (a) Nuclear morpholog...
pAd-T34A selectively induces tumor cell apoptosis. (a) Nuclear morphology. HeLa cells infected with the indicated pAd vectors at moi of 50 for 8 hours were analyzed for nuclear apoptosis (chromatin condensation, DNA fragmentation) by DAPI staining. Numbers indicate the percentage of apoptotic cells under the various conditions tested. Data are the mean ± SEM of three independent experiments. (b) Induction of tumor cell apoptosis by pAd-T34A. Aliquots of breast carcinoma MCF-7, cervical carcinoma HeLa, lung carcinoma A549, colorectal carcinoma HCT116, or prostate carcinoma PC3 were infected with pAd-GFP or pAd-T34A for 8 hours, harvested after 48–56 hours, and analyzed for DNA content by propidium iodide staining and flow cytometry. (c) Effect of pAd-T34A on normal cell viability. Human foreskin fibroblasts (HFF), human lung fibroblasts (HLF), human umbilical vein endothelial cells (HUVEC), or human vascular smooth muscle cells (VSMC) were infected with pAd-GFP or pAd-T34A and analyzed for DNA content by propidium iodide staining and flow cytometry, as described in b. For b and c, the percentages of apoptotic cells with hypodiploid (sub-G1) DNA content are indicated per each condition tested. Data are representative of one of two independent experiments with comparable results.