Mitochondrial dynamics regulate melanogenesis through proteasomal degradation of MITF via ROS‐ERK activation

Mitochondrial dynamics control mitochondrial functions as well as their morphology. However, the role of mitochondrial dynamics in melanogenesis is largely unknown. Here, we show that mitochondrial dynamics regulate melanogenesis by modulating the ROS‐ERK signaling pathway. Genetic and chemical inhibition of Drp1, a mitochondrial fission protein, increased melanin production and mitochondrial elongation in melanocytes and melanoma cells. In contrast, down‐regulation of OPA1, a mitochondria fusion regulator, suppressed melanogensis but induced massive mitochondrial fragmentation in hyperpigmented cells. Consistently, treatment with CCCP, a mitochondrial fission chemical inducer, also efficiently repressed melanogenesis. Furthermore, we found that ROS production and ERK phosphorylation were increased in cells with fragmented mitochondria. And inhibition of ROS or ERK suppressed the antimelanogenic effect of mitochondrial fission in α‐MSH‐treated cells. In addition, the activation of ROS‐ERK pathway by mitochondrial fission induced phosphorylation of serine73 on MITF accelerating its proteasomal degradation. In conclusion, mitochondrial dynamics may regulate melanogenesis by modulating ROS‐ERK signaling pathway.     

DKK3调控羊驼黑色素细胞中黑色素生成

Dickkopf-3(DKK3),Wnt/p-catenin信号通路中一个重要的抑制因子,可能参与调控黑色素生成过程.本文研究了DKK3在羊驼黑色素细胞中黑色素生成的作用.在羊驼黑色素细胞中,过表达DKK3显著下调Wntl,Lefl,Myc和黑色素生成相关基因MITF及其下游基因TYR,TYRP1和TYRP2的表达,在...     

miR-380调控羊驼黑色素细胞MAPK/ERK信号通路

miR-380是不同羊驼毛色中差异表达的基因之一,但是否与黑色素生成有关未见报道。为了丰富调控黑色素生成的机制,挖掘黑色素生成路径中所涉及到的更多新的基因并揭示miR 380在黑色素细胞中的功能,本实验通过生物信息学方法预测出MAPK信号通路的成员MAP3K6是miR-380的靶基因之一。在293T细胞中共转染miR-380和MAP3K6后,与对照组相比双荧光报告酶活性下降（28.92 ± 25.63）%(P<0.01) ,下降趋势明显,说明MAP3K6可能是miR-380的靶基因之一;在羊驼黑色素细胞中转染miR-380后,MAP3K6、MEK1、ERK1/2、CREB和MITF在转录水平的表达量与NC组相比具有显著下降趋势,其中CREB下降趋势尤为显著（64.20 ± 54.30）%（P<0.01）,Western印迹检测MAP3K6、p-MEK1、p-ERK1/2、CREB和MITF在蛋白质水平的表达与NC组相比下降趋势明显且p-MEK1和CREB基因下降极为显著,分别为（29.09 ± 10.68）%（P<0.001）和（47.12 ± 6.70）%（P<0.001）,抑制组则反之。通过 Masson-Fontana黑色素颗粒染色法检测miR-380抑制黑色素细胞产生黑色素颗粒,用紫外分光度法检测真黑素（eumelanin,EM）和褐黑素（pheomelanin,PM）,含量结果提示EM与PM含量分别下降为（38.63 ± 2.00）%（P<0.01）,（54.10 ± 5.73）%（P<0.001）且PM含量下降极为显著。综上所述miR-380通过靶向抑制MAP3K6等基因的表达,从而对MAPK/ERK信号通路起调控作用,最终影响黑色素生成生物学功能,此研究对哺乳动物毛色形成机制和防止皮肤受紫外辐射有重要意义。     

A novel synthetic Piper amide derivative NED‐180 inhibits hyperpigmentation by activating the PI3K and ERK pathways and by regulating Ca2+ influx via TRPM1 channels

Piper amides have a characteristic, unsaturated amide group and exhibit diverse biological activities, including proliferation and differentiation of melanocytes, although the molecular mechanisms underlying its antimelanogenesis effect remain unknown. We screened a selected chemical library of newly synthesized Piper amide derivatives and identified (E)‐3‐(4‐(tert‐butyl)phenyl)‐N‐(2,3‐dihydrobenzo[b][1,4]dioxin‐6‐yl)acrylamide (NED‐180) as one of the most potent compounds in suppressing melanogenesis. In murine melan‐a melanocytes, NED‐180 downregulated the expression of melanogenic regulatory proteins including tyrosinase, Tyrp1, Dct, and MITF. PI3K/Akt‐dependent phosphorylation of GSK3β by NED‐180 decreases MITF phosphorylation and inhibits melanogenesis without any effects on cytotoxicity and proliferation. Furthermore, topical application of NED‐180 significantly ameliorated UVB‐induced skin hyperpigmentation in guinea pigs. Interestingly, data obtained using calcium imaging techniques suggested that NED‐180 reduced the TPA‐induced activation of TRPM1 (melastatin), which could explain the NED‐180‐induced inhibition of melanogenesis. All things taken together, NED‐180 triggers activation of multiple pathways, such as PI3K and ERK, and inhibits TRPM1/TRPV1, leading to inhibition of melanogenesis.     

Ganoderma lucidum polysaccharide reduces melanogenesis by inhibiting the paracrine effects of keratinocytes and fibroblasts via IL-6/STAT3/FGF2 pathway

Our previous study found that Ganoderma lucidum polysaccharide (GLP), bioactive ingredients from Ganoderma lucidum, protected fibroblasts from photoaging. However, whether GLP can affect melanogenesis in melanocytes through regulating paracrine mediators that secreted by keratinocytes and fibroblasts is unclear. We aimed to investigate the efficacy and mechanisms of action of GLP in melanogenesis by regulating paracrine effects of keratinocytes and fibroblasts. The effect of GLP on cell viability affected by GLP was measured by the 3-(4,5-dimethyl-2-thiazolyl)-2,5-diphenyl-2H-tetrazolium bromide (MTT) assay. After an immortal keratinocyte line (HaCaT) and primary fibroblasts (FB) were treated with GLP, the supernatants of HaCaT and FB cells were collected and cocultured with an immortalized melanocyte line (PIG1). The expression levels of melanogenesis-associated genes in PIG1 cells were measured by quantitative real-time polymerase chain reaction (qRT-PCR) and western blot analysis. Furthermore, FRS-2, ERK, JNK, and p38 phosphorylation levels were measured. Then, major melanogenic paracrine mediators in HaCaT and FB cells treated with GLP were evaluated by qRT-PCR and enzyme-linked immunosorbent assay (ELISA). In addition, the expression of IL-6 and STAT3 was examined in HaCaT and FB cells. GLP was not cytotoxic to HaCaT and FB cells. The supernatants of GLP-treated HaCaT and FB cells downregulated the expression levels of MITF, TYR, TYRP1, TYRP2, RAB27A, and FSCN1 genes and inhibited the phosphorylation of FRS-2, ERK, JNK, and p38 in PIG1 cells. GLP also decreased FGF2 secretion in HaCaT and FB cells. Moreover, GLP reduced IL-6 expression and STAT3 phosphorylation in HaCaT and FB cells. GLP reduced melanogenesis in melanocytes by inhibiting the paracrine effects of keratinocytes and fibroblasts via IL-6/STAT3/FGF2 pathway.