TY - JOUR
T1 - Selenium-containing histone deacetylase inhibitors for melanoma management
AU - Gowda, Raghavendra
AU - Madhunapantula, Subba Rao V.
AU - Desai, Dhimant
AU - Amin, Shantu
AU - Robertson, Gavin P.
N1 - Funding Information:
Histology and morphological characterization of artificial We thank Arati Sharma, Omer Kuzu, Keen Chung and Kenneth skin reconstructs. Cellular morphology and architecture of skin Huang for technical assistance. NIH CA-127892-01A, NIH reconstructs prior to, and at the end of each treatment regime NCI contract (NO2-CB-56603), The Foreman Foundation for were analyzed following fixation with 10% paraformaldehyde Melanoma Research and Melanoma Research Foundation.
PY - 2012/7
Y1 - 2012/7
N2 - Melanoma incidence and mortality rates continue to increase each year. Lack of clinically viable agents, drug combinations, effective targeted delivery approaches and success inhibiting targets in tumor tissue have made this disease one of the most difficult to treat, which makes prevention an important option for decreasing disease incidence and mortality rates. Inhibiting histone deacetylases (HDAC) is an approach currently being explored to more effectively treat melanoma but use for prevention has not been explored. In this study, novel selenium containing derivatives of the FDA approved HDAC inhibitor suberoylanilide hydroxamic acid (SAHA) called 5-phenylcarbamoylpentyl selenocyanide (PCP-SeCN) and Bis(5-phenylcarbamoylpentyl) diselenide [B(PCP)-2Se] were created and efficacy tested for preventing early melanocytic lesion development in skin. Topical application of PCP-SeCN and B(PCP)-2Se inhibited melanocytic lesion development in laboratory-generated skin by up to 87% with negligible toxicological effect. Mechanistically, PCP-SeCN and B(PCP)-2Se inhibited HDAC activity and had new inhibitory properties by moderating Akt activity to induce cellular apoptosis as demonstrated by an increase in the sub-G0-G1 cell population, and cleaved caspase-3 as well as PA RP levels. Furthermore, PCP-SeCN and B(PCP)-2Se inhibited cell proliferation by inhibiting cyclin D1 expression and increasing p21 levels. Thus, PCP-SeCN and B(PCP)-2Se are potential melanoma chemopreventive agents with enhanced efficacy compared with SAHA due to new PI3 kinase pathway inhibitory properties.
AB - Melanoma incidence and mortality rates continue to increase each year. Lack of clinically viable agents, drug combinations, effective targeted delivery approaches and success inhibiting targets in tumor tissue have made this disease one of the most difficult to treat, which makes prevention an important option for decreasing disease incidence and mortality rates. Inhibiting histone deacetylases (HDAC) is an approach currently being explored to more effectively treat melanoma but use for prevention has not been explored. In this study, novel selenium containing derivatives of the FDA approved HDAC inhibitor suberoylanilide hydroxamic acid (SAHA) called 5-phenylcarbamoylpentyl selenocyanide (PCP-SeCN) and Bis(5-phenylcarbamoylpentyl) diselenide [B(PCP)-2Se] were created and efficacy tested for preventing early melanocytic lesion development in skin. Topical application of PCP-SeCN and B(PCP)-2Se inhibited melanocytic lesion development in laboratory-generated skin by up to 87% with negligible toxicological effect. Mechanistically, PCP-SeCN and B(PCP)-2Se inhibited HDAC activity and had new inhibitory properties by moderating Akt activity to induce cellular apoptosis as demonstrated by an increase in the sub-G0-G1 cell population, and cleaved caspase-3 as well as PA RP levels. Furthermore, PCP-SeCN and B(PCP)-2Se inhibited cell proliferation by inhibiting cyclin D1 expression and increasing p21 levels. Thus, PCP-SeCN and B(PCP)-2Se are potential melanoma chemopreventive agents with enhanced efficacy compared with SAHA due to new PI3 kinase pathway inhibitory properties.
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U2 - 10.4161/cbt.20558
DO - 10.4161/cbt.20558
M3 - Article
C2 - 22669577
AN - SCOPUS:84863471450
SN - 1538-4047
VL - 13
SP - 756
EP - 765
JO - Cancer Biology and Therapy
JF - Cancer Biology and Therapy
IS - 9
ER -