Abstract
Despite the great advances in cancer treatment, colorectal cancer has emerged as the second highest cause of death from cancer worldwide. For this type of tumor, the use of suicide gene therapy could represent a novel therapy. We recently demonstrated that co-expression of gef and apoptin dramatically inhibits proliferation of the DLD-1 colon cell line. In the present manuscript, we try to establish the mechanism underlying the enhanced induction of apoptosis by triggering both gef and apoptin expression in colon tumor cells. Scanning microscopy reveals that simultaneous expression of gef and apoptin induces the apparition of many “pores” in the cytoplasmic membrane not detected in control cell lines. The formation of pores induced by the gef gene and accentuated by apoptin results in cell death by necrosis. Moreover, we observed the presence of apoptotic cells. Performing protein expression analysis using western blot, we revealed an activation of mitochondrial apoptosis (increased expression of Pp53, cytochrome c, Bax, and caspase 9) and also the involvement of the extrinsic pathway through caspase 8activation. In conclusion, in this manuscript we demonstrate for the first time that the extrinsic pathway of apoptosis and pore formation is also involved in the cell death caused by the co-expression of the gef and apoptin genes. Our results suggest that co-expression of gef and apoptin genes induces an increase in post-apoptotic necrotic cell death and could be a valuable tool in the design of new antitumor strategies focused on the enhancement of the immune response against cancer cell death.
Highlights
Colorectal cancer is known to be the second most frequent cause of cancer death and the third in terms of incidence for both sexes combined
This finding was conditioned in part by the fact that dividing cells rarely separated from the monolayer
We have previously demonstrated that simultaneous expression of both genes or each one alone induces the alteration of the mitochondrial membrane structure, suggesting the importance of the mitochondrial pathway in apoptosis mediation
Summary
Colorectal cancer is known to be the second most frequent cause of cancer death and the third in terms of incidence for both sexes combined. The estimation of new colorectal cancer cases in 2018 is over. 1.8 million, and 881,000 patients are estimated to have died in 2018 These numbers represent about 1 out of 10 cancer deaths by this disease [1]. While multimodality therapies are a potential cure for low-metastatic liver and lung risk patients, palliative systemic therapy is aimed at improving the quality of life of non-surgical colon cancer candidates, prolonging the life expectancy of these patients. Drug resistance develops in almost all patients with colon cancer, which leads to a decrease in the therapeutic efficacy of anticancer agents and the urgent need for new alternative treatments [2,3]. The use of gene therapy aimed at delivering genetic material to cancer cells for therapeutic purposes seems to be a good alternative [4]
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