Jianzeng Liu , Xiaohao Xu , Jingyuan Zhou , Guang Sun , Zhenzhuo Li , Lu Zhai , Jing Wang , Rui Ma , Daqing Zhao , Rui Jiang , Liwei Sun
{"title":"人参酚酸通过不同信号通路双向调节黑色素合成酶转录抑制黑色素生成","authors":"Jianzeng Liu , Xiaohao Xu , Jingyuan Zhou , Guang Sun , Zhenzhuo Li , Lu Zhai , Jing Wang , Rui Ma , Daqing Zhao , Rui Jiang , Liwei Sun","doi":"10.1016/j.jgr.2023.05.002","DOIUrl":null,"url":null,"abstract":"<div><h3>Background</h3><p>Our previous investigation indicated that the preparation of <em>Panax ginseng</em> Meyer (<em>P. ginseng</em>) inhibited melanogenesis. It comprised salicylic acid (SA), protocatechuic acid (PA), <em>p</em>-coumaric acid (<em>p</em>-CA), vanillic acid (VA), and caffeic acid (CA). In this investigation, the regulatory effects of <em>P. ginseng</em> phenolic acid monomers on melanin production were assessed.</p></div><div><h3>Methods</h3><p><em>In vitro and in vivo</em> impact of phenolic acid monomers were assessed.</p></div><div><h3>Results</h3><p>SA, PA, <em>p</em>-CA and VA inhibited tyrosinase (TYR) to reduce melanin production, whereas CA had the opposite effects. SA, PA, <em>p</em>-CA and VA significantly downregulated the melanocortin 1 receptor (MC1R), cycle AMP (cAMP), protein kinase A (PKA), cycle AMP-response element-binding protein (CREB), microphthalmia-associated transcription factor (MITF) pathway, reducing mRNA and protein levels of TYR, tyrosinase-related protein 1 (TYRP1), and TYRP2. Moreover, CA treatment enhanced the cAMP, PKA, and CREB pathways to promote MITF mRNA level and phosphorylation. It also alleviated MITF protein level in α-MSH-stimulated B16F10 cells, comparable to untreated B16F10, increasing the expression of phosphorylation glycogen synthase kinase 3β (p-GSK3β), β-catenin, p-ERK/ERK, and p-p38/p38. Furthermore, the GSK3β inhibitor promoted p-GSK3β and p-MITF expression, as observed in CA-treated cells. Moreover, p38 and ERK inhibitors inhibited CA-stimulated p-p38/p38, p-ERK/ERK, and p-MITF increase, which had negative binding energies with MC1R, as depicted by molecular docking.</p></div><div><h3>Conclusion</h3><p><em>P. ginseng</em> roots' phenolic acid monomers can safely inhibit melanin production by bidirectionally regulating melanin synthase transcription. Furthermore, they reduced MITF expression via MC1R/cAMP/PKA signaling pathway and enhanced MITF post-translational modification via Wnt/mitogen-activated protein kinase signaling pathway.</p></div>","PeriodicalId":16035,"journal":{"name":"Journal of Ginseng Research","volume":null,"pages":null},"PeriodicalIF":6.8000,"publicationDate":"2023-11-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.sciencedirect.com/science/article/pii/S1226845323000556/pdfft?md5=01f972dfbf3be2134932adcbf890bfe0&pid=1-s2.0-S1226845323000556-main.pdf","citationCount":"1","resultStr":"{\"title\":\"Phenolic acids in Panax ginseng inhibit melanin production through bidirectional regulation of melanin synthase transcription via different signaling pathways\",\"authors\":\"Jianzeng Liu , Xiaohao Xu , Jingyuan Zhou , Guang Sun , Zhenzhuo Li , Lu Zhai , Jing Wang , Rui Ma , Daqing Zhao , Rui Jiang , Liwei Sun\",\"doi\":\"10.1016/j.jgr.2023.05.002\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<div><h3>Background</h3><p>Our previous investigation indicated that the preparation of <em>Panax ginseng</em> Meyer (<em>P. ginseng</em>) inhibited melanogenesis. It comprised salicylic acid (SA), protocatechuic acid (PA), <em>p</em>-coumaric acid (<em>p</em>-CA), vanillic acid (VA), and caffeic acid (CA). In this investigation, the regulatory effects of <em>P. ginseng</em> phenolic acid monomers on melanin production were assessed.</p></div><div><h3>Methods</h3><p><em>In vitro and in vivo</em> impact of phenolic acid monomers were assessed.</p></div><div><h3>Results</h3><p>SA, PA, <em>p</em>-CA and VA inhibited tyrosinase (TYR) to reduce melanin production, whereas CA had the opposite effects. SA, PA, <em>p</em>-CA and VA significantly downregulated the melanocortin 1 receptor (MC1R), cycle AMP (cAMP), protein kinase A (PKA), cycle AMP-response element-binding protein (CREB), microphthalmia-associated transcription factor (MITF) pathway, reducing mRNA and protein levels of TYR, tyrosinase-related protein 1 (TYRP1), and TYRP2. Moreover, CA treatment enhanced the cAMP, PKA, and CREB pathways to promote MITF mRNA level and phosphorylation. It also alleviated MITF protein level in α-MSH-stimulated B16F10 cells, comparable to untreated B16F10, increasing the expression of phosphorylation glycogen synthase kinase 3β (p-GSK3β), β-catenin, p-ERK/ERK, and p-p38/p38. Furthermore, the GSK3β inhibitor promoted p-GSK3β and p-MITF expression, as observed in CA-treated cells. Moreover, p38 and ERK inhibitors inhibited CA-stimulated p-p38/p38, p-ERK/ERK, and p-MITF increase, which had negative binding energies with MC1R, as depicted by molecular docking.</p></div><div><h3>Conclusion</h3><p><em>P. ginseng</em> roots' phenolic acid monomers can safely inhibit melanin production by bidirectionally regulating melanin synthase transcription. 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Phenolic acids in Panax ginseng inhibit melanin production through bidirectional regulation of melanin synthase transcription via different signaling pathways
Background
Our previous investigation indicated that the preparation of Panax ginseng Meyer (P. ginseng) inhibited melanogenesis. It comprised salicylic acid (SA), protocatechuic acid (PA), p-coumaric acid (p-CA), vanillic acid (VA), and caffeic acid (CA). In this investigation, the regulatory effects of P. ginseng phenolic acid monomers on melanin production were assessed.
Methods
In vitro and in vivo impact of phenolic acid monomers were assessed.
Results
SA, PA, p-CA and VA inhibited tyrosinase (TYR) to reduce melanin production, whereas CA had the opposite effects. SA, PA, p-CA and VA significantly downregulated the melanocortin 1 receptor (MC1R), cycle AMP (cAMP), protein kinase A (PKA), cycle AMP-response element-binding protein (CREB), microphthalmia-associated transcription factor (MITF) pathway, reducing mRNA and protein levels of TYR, tyrosinase-related protein 1 (TYRP1), and TYRP2. Moreover, CA treatment enhanced the cAMP, PKA, and CREB pathways to promote MITF mRNA level and phosphorylation. It also alleviated MITF protein level in α-MSH-stimulated B16F10 cells, comparable to untreated B16F10, increasing the expression of phosphorylation glycogen synthase kinase 3β (p-GSK3β), β-catenin, p-ERK/ERK, and p-p38/p38. Furthermore, the GSK3β inhibitor promoted p-GSK3β and p-MITF expression, as observed in CA-treated cells. Moreover, p38 and ERK inhibitors inhibited CA-stimulated p-p38/p38, p-ERK/ERK, and p-MITF increase, which had negative binding energies with MC1R, as depicted by molecular docking.
Conclusion
P. ginseng roots' phenolic acid monomers can safely inhibit melanin production by bidirectionally regulating melanin synthase transcription. Furthermore, they reduced MITF expression via MC1R/cAMP/PKA signaling pathway and enhanced MITF post-translational modification via Wnt/mitogen-activated protein kinase signaling pathway.
期刊介绍:
Journal of Ginseng Research (JGR) is an official, open access journal of the Korean Society of Ginseng and is the only international journal publishing scholarly reports on ginseng research in the world. The journal is a bimonthly peer-reviewed publication featuring high-quality studies related to basic, pre-clinical, and clinical researches on ginseng to reflect recent progresses in ginseng research.
JGR publishes papers, either experimental or theoretical, that advance our understanding of ginseng science, including plant sciences, biology, chemistry, pharmacology, toxicology, pharmacokinetics, veterinary medicine, biochemistry, manufacture, and clinical study of ginseng since 1976. It also includes the new paradigm of integrative research, covering alternative medicinal approaches. Article types considered for publication include review articles, original research articles, and brief reports.
JGR helps researchers to understand mechanisms for traditional efficacy of ginseng and to put their clinical evidence together. It provides balanced information on basic science and clinical applications to researchers, manufacturers, practitioners, teachers, scholars, and medical doctors.
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