Apoptosis is a highly organized physiologic mechanism of destroying injured and abnormal cells as well as maintaining homeostasis in multicellular organisms. Both the activation and inhibition of apoptosis are tightly controlled. Pharmacologic manipulation of this pathway is a novel therapeutic target in cancer therapy.
Pulse-administration of vinblastine followed by continuous administration of ketoconazole warrants investigation in the treatment of hormone-independent metastatic prostate cancer.
Angiogenesis is required for tumor formation and growth; inhibition of angiogenesis is a promising new approach in cancer therapy. UCN-01, a protein kinase C (PKC) inhibitor, induces growth arrest and apoptosis in cancer cells and was recently introduced in a phase I clinical trial. We demonstrate that UCN-01, at concentrations lower than those necessary to inhibit cancer cell growth, inhibit proliferation of human endothelial cells in vitro. Moreover, UCN-01, at concentrations as low as 32 nM, prevent microvessel outgrowth from explant cultures of rat aortic rings. Since hypoxia activates hypoxia-inducible factor (HIF-1)-dependent transcription in cancer cells that, in a paracrine fashion, drive tumor angiogenesis, we investigated the effects of UCN-01 on HIF-1-responsive promoter constructs. We report that, in addition to direct inhibitory effects on endothelial cell growth, UCN-01 abrogates hypoxia-mediated transactivation of HIF-1-responsive promoters in a prostate cancer cell line. We conclude that UCN-01, at clinically relevant concentrations, exerts an anti-neovascularization effect by blocking two important steps in vessel formation: (1) the response of cancer cells to hypoxia, and (2) endothelial cell proliferation.
The action of androgens in the development and growth of prostate carcinomas is well documented. The androgen receptor (AR) facilitates androgen-induced regulation of genes involved in cellular proliferation and differentiation. Since the early 1940s androgen ablation has been the cornerstone of treatment for metastatic prostate cancer. Although initially highly effective, hormonal therapy is not curative, and resistant disease will ultimately prevail. Mutations that alter AR conformation, function, and regulation may provide a selective growth advantage for subpopulations of cells within the tumor that are then able to proliferate in an androgen-deprived environment. Clinically, these mutations are important because they may lead to the growth of androgen-independent tumors and progression to a refractory state. Further characterization of AR mutations will lead to a more thorough understanding of their role in the development of prostate carcinomas. This information, in addition to discovering which genes are regulated by the AR, can aid in the future development of more effective pharmacotherapy for prostate cancer.
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