Journal of cellular biochemistry
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Histone deacetylase (HDAC), inhibitors represent a new class of targeted anti-cancer agents. Several of these compounds are in clinical trials with significant activity against a spectrum of both hematologic and solid tumors at doses that are well tolerated by the patients. The HDAC inhibitors are a structurally diverse group of molecules that can induce growth arrest, differentiation, apoptosis, and autophagocytic cell death of cancer cells. ⋯ The structure and activity of these non-histone proteins may be altered by acetylation/deacetylation with consequent effects on various cell functions including gene expression, cell cycle progression, and cell death pathways. This review focuses on several key questions with respect to the mechanism of action of HDACi, including, what are the different cell phenotypes induced by HDACi, why are normal cells compared to transformed cells relatively resistant to HDACi induced cell death, why are certain tumors more responsive to HDACi than others, and what is the basis of the selectivity of HDACi in altering gene expression. The answers to these questions will have therapeutic importance since we will identify targets for enhancing the efficacy and safety of HDACi.
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Review
Androgen receptor: a key molecule in the progression of prostate cancer to hormone independence.
Despite earlier detection and recent advances in surgery and radiation, prostate cancer is second only to lung cancer in male cancer deaths in the United States. Hormone therapy in the form of medical or surgical castration remains the mainstay of systemic treatment in prostate cancer. Over the last 15 years with the clinical use of prostate specific antigen (PSA), there has been a shift to using hormone therapy earlier in the disease course and for longer duration. ⋯ These growth factors working through receptor tyrosine kinase pathways may promote AR activation and growth in low androgen environments. The clinical significance of these AR alterations in the development and progression of androgen-independent prostate cancer remains to be determined. Understanding the changes in AR signaling in the evolution of androgen-independent prostate cancer will be key to the development of more effective hormone therapy.