Linda L Eastham1, Caroline N Mills, Richard M Niles. 1. Department of Biochemistry and Microbiology, Joan C. Edwards School of Medicine, Marshall University, Huntington, West Virginia 25755, USA.
Abstract
PURPOSE: We examined the expression of PPARs and the effects of PPARalpha and PPARgamma agonists on growth of mouse and human melanocytes and melanoma cells. METHODS: PPARalpha,beta, and PPARgamma mRNA qualitative expression in melan-a mouse melanocytes, B16 mouse melanoma, human melanocytes, and A375 and SK-mel28 human melanoma cells was determined by RT-PCR, while quantitative PPARalpha mRNA levels were determined by QuantiGene assay. PPARalpha and PPARgamma protein was assessed by Western blotting. The effect of natural and synthetic PPAR ligands on cell growth was determined by either hemocytometer counting or crystal violet assay. PPAR transcriptional activity was determined by a PPRE-reporter gene assay, while knockdown of PPARalpha expression was achieved by transient transfection of siRNA. RESULTS: Both mouse and human melanoma cells produced more PPARalpha and PPARgamma protein compared to melanocytes. PPARalpha mRNA levels were elevated in human melanoma cells, but not in mouse melanoma cells relative to melanocytes. Silencing of PPARalpha in human melanoma cells did not alter cell proliferation or morphology. PPARgamma-selective agonists inhibited the growth of both mouse and human melanoma cells, while PPARalpha-selective agonists had limited effects. CONCLUSION: Increased expression of PPARalpha in melanoma relative to melanocytes may be a common occurrence, however its biologic significance remains to be determined. PPARgamma agonists may be useful for arresting the growth of some melanomas.
PURPOSE: We examined the expression of PPARs and the effects of PPARalpha and PPARgamma agonists on growth of mouse and human melanocytes and melanoma cells. METHODS:PPARalpha,beta, and PPARgamma mRNA qualitative expression in melan-a mouse melanocytes, B16 mousemelanoma, human melanocytes, and A375 and SK-mel28 humanmelanoma cells was determined by RT-PCR, while quantitative PPARalpha mRNA levels were determined by QuantiGene assay. PPARalpha and PPARgamma protein was assessed by Western blotting. The effect of natural and synthetic PPAR ligands on cell growth was determined by either hemocytometer counting or crystal violet assay. PPAR transcriptional activity was determined by a PPRE-reporter gene assay, while knockdown of PPARalpha expression was achieved by transient transfection of siRNA. RESULTS: Both mouse and humanmelanoma cells produced more PPARalpha and PPARgamma protein compared to melanocytes. PPARalpha mRNA levels were elevated in humanmelanoma cells, but not in mousemelanoma cells relative to melanocytes. Silencing of PPARalpha in humanmelanoma cells did not alter cell proliferation or morphology. PPARgamma-selective agonists inhibited the growth of both mouse and humanmelanoma cells, while PPARalpha-selective agonists had limited effects. CONCLUSION: Increased expression of PPARalpha in melanoma relative to melanocytes may be a common occurrence, however its biologic significance remains to be determined. PPARgamma agonists may be useful for arresting the growth of some melanomas.
Authors: Jin-Woo Park; Rasa Zarnegar; Hajime Kanauchi; Mariwil G Wong; William C Hyun; David G Ginzinger; Margaret Lobo; Philip Cotter; Quan-Yang Duh; Orlo H Clark Journal: Thyroid Date: 2005-03 Impact factor: 6.568
Authors: Michael G Borland; Pei-Li Yao; Ellen M Kehres; Christina Lee; Amanda M Pritzlaff; Elizabeth Ola; Ashley L Wagner; Brooke E Shannon; Prajakta P Albrecht; Bokai Zhu; Boo-Hyon Kang; Gavin P Robertson; Frank J Gonzalez; Jeffrey M Peters Journal: Toxicol Sci Date: 2017-10-01 Impact factor: 4.849