AI Article Synopsis
- Induction of apoptosis plays a crucial role in cancer therapy, but current agents lack selectivity and many cancers resist this form of cell death.
- Potential treatment strategies include selectively targeting antiapoptotic pathways, using antiangiogenic therapies, and employing tissue-selective and immunotherapy approaches.
- Rational drug combinations that incorporate apoptosis-inducing agents with protective inhibitors and other therapeutic strategies could enhance selective cancer cell killing while minimizing toxicity to normal cells.
Article Abstract
Although induction of apoptosis (cell death mediated by caspases) determines response to cancer therapy, this approach is limited by lack of selectivity in available apoptosis-inducing agents. Furthermore, most cancers, almost by definition, are resistant to apoptosis, growth arrest and cell senescence. Then, how can anticancer agents kill cancer cell without unacceptable toxicity to a patient? The potential therapeutic approaches range from selective inhibition of antiapoptotic pathways, antiangiogenic therapy, tissue-selective therapy (including immunotherapy) to exploitation of, for example, drug resistance, oncoprotein addiction, unrestricted cell cycles, hypermitogenic and hypoxic features of cancer cells. These overlapping and complementary approaches rely on rational drug combinations (at mechanism-based doses and sequences) aimed at matching targets. To ensure killing of cancer cells selectively, we may combine apoptosis- and senescence-inducing agents with inhibitors of apoptosis (to protect normal cells), inhibitors of signal transduction with cell cycle-dependent chemotherapy, antiangiogenic agents with hypoxia-inducible factor-1 inhibitors, tissue-selective therapy with differentiating agents and activators of death receptors with chemotherapy. In theory, consecutive use of these drug combinations may control cancer.
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| http://dx.doi.org/10.1038/sj.onc.1207520 | DOI Listing |
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