Proteomics demonstration that histone H4 is a colchicine-induced retro-modulator of growth and alkaline phosphatase activity in hair follicle dermal papilla culture

Dermal papilla cells (DPCs) control the development of hair follicles via cell-cell interactions and extracellular molecules. Colchicine affected active anagen DPCs to result in hair loss in the clinical setting. The purpose of this study was to identify the retro-modulator released by DPCs exposed to sub-toxic dose of colchicine and elucidate its effect on dermal papilla culture. The molecular-weight cutoff ultrafiltration and HPLC were used to purify the components of colchicine-treated DPC secretomes and examined their ability to down-regulate the growth and alkaline phosphatase (ALP) activity of DPCs. The active product was identified by in-gel trypsin digestion, nano-LC-ESI-MS/MS and validated by Western blot to be histone H4 (P62804), which inhibited the proliferation and diminished the ALP activity of cultured DPCs. Treating DPCs with recombinant histone H4 reproduced the growth inhibition effect whereas adding antibody to immunoneutralize histone H4 abolished this growth inhibitory consequence. DPCs with high ALP activity can induce the neogenesis of hair follicles and support the hair fiber growth in vivo. Our results indicated that sub-lethal colchicine can inactivate DPCs through releasing histone H4. Through the investigation of the retro-modulation of histone H4 on dermal papillae may give implications for understanding the mechanism of colchicine-induced hair disorder.     

6-Gingerol Inhibits Hair Shaft Growth in Cultured Human Hair Follicles and Modulates Hair Growth in Mice

Ginger (Zingiber officinale) has been traditionally used to check hair loss and stimulate hair growth in East Asia. Several companies produce shampoo containing an extract of ginger claimed to have anti-hair loss and hair growth promotion properties. However, there is no scientific evidence to back up these claims. This study was undertaken to measure 6-gingerol, the main active component of ginger, on hair shaft elongation in vitro and hair growth in vivo, and to investigate its effect on human dermal papilla cells (DPCs) in vivo and in vitro. 6-Gingerol suppressed hair growth in hair follicles in culture and the proliferation of cultured DPCs. The growth inhibition of DPCs by 6-gingerol in vitro may reflect a decrease in the Bcl-2/Bax ratio. Similar results were obtained in vivo. The results of this study showed that 6-gingerol does not have the ability to promote hair growth, on the contrary, can suppress human hair growth via its inhibitory and pro-apoptotic effects on DPCs in vitro, and can cause prolongation of telogen phase in vivo. Thus, 6-gingerol rather than being a hair growth stimulating drug, it is a potential hair growth suppressive drug; i.e. for hair removal.     

Different patterns of 5alpha-reductase expression, cellular distribution, and testosterone metabolism in human follicular dermal papilla cells

Androgens regulate hair growth, and 5α-reductase (5αR) plays a pivotal role in the action of androgens on target organs. To clarify the molecular mechanisms responsible for controlling hair growth, the present study presents evidence that the human follicular dermal papilla cells (DPCs) from either beard (bDPCs) or scalp hair (sDPCs) possess endogenous 5αR activity. Real-time RT-PCR revealed that the highest level of 5αR1 mRNA was found in bDPCs, followed by sDPCs, and a low but detectable level of 5αR1 mRNA was observed in fibroblasts. Minimally detectable levels of 5αR2 mRNA were found in all three cell types. A weak band at 26 kDa corresponding to the human 5αR1 protein was detected by Western blot in both DPCs, but not in fibroblasts. Immuonofluorescence analysis confirmed that 5αR1 was localized to the cytoplasm rather than in the nuclei in both DPCs Furthermore, a 5αR assay using [¹⁴C]testosterone labeling in intact cells revealed that testosterone was transformed primarily into androstenedione, and in small amounts, into DHT. Our results demonstrate that the 5αR activities of either bDPCs or sDPCs are stronger than that of dermal fibroblasts, despite the fact that the major steroidogenic activity is attributed to 17β-HSD rather than 5αR among the three cell types. The 5αR1 inhibitor MK386 exhibited a more potent inhibitory effect on 5αR activity than finasteride (5αR2 inhibitor) in bDPCs.     

黄芪、何首乌、女贞子、菟丝子混合提取物对体外培养毛囊生长的影响及药理作用研究

目的:通过体内外实验探讨黄芪、何首乌、女贞子、菟丝子混合中药提取物对毛囊增殖的影响作用以及其作用机理。方法:通过体外培养的C57BL/6小鼠毛囊器官模型观察不同浓度中药提取物对毛囊生长的影响;采用MTT法测定不同浓度中药提取物对毛乳头增殖的影响;蛋白免疫印迹法(Western Blot)和ELISA检测中药提取物对毛乳头细胞分泌肝细胞生长因子(HGF)的影响。结果:中药提取物能够刺激体外培养的小鼠毛囊的生长,800μg/mL浓度的促进作用最强;160μg/mL中药提取物对毛乳头细胞的增殖作用最强,与米诺地尔、齐墩果酸阳性对照存在显著性差异(P0.05)。而且,药提取物促进了毛乳头细胞分泌HGF。结论:黄芪、何首乌、女贞子、菟丝子混合中药提取物在促进毛发生长中起到重要作用,促进毛乳头细胞增殖和分泌HGF是促进毛囊生长的可能性药理机制。     

Fibroblast growth factor 5 inhibits hair growth by blocking dermal papilla cell activation.

Fibroblast growth factor (FGF) 5 inhibits hair growth and induces catagen in mouse hair follicles, in vivo. Given that FGF-5 receptor (FGFR1) is expressed in dermal papilla cells (DPCs), which are known to stimulate outer root sheath cell (ORSC) proliferation, we hypothesized that FGF-5 attenuates DPC-mediated ORSC proliferation. In the present study, DPCs and ORSCs were isolated from rat vibrissae, after which the effects of FGF-5 on proliferation of ORSCs cultured in DPC-conditioned medium were assessed. We first confirmed that FGFR1 was expressed in cultured DPCs and detected FGFR2-4 as well. ORSC proliferation was increased approximately twofold when the cells were cultured in DPC-conditioned medium, and the effect was unaltered by FGF-5. In addition, FGF-5 did not directly inhibit ORSC proliferation; indeed, it actually promoted proliferation of both DPCs and ORSCs. When DPCs were first activated by exposure to FGF-1 and FGF-2, which are expressed in hair follicles during anagen, ORSC proliferation observed in the resultant conditioned medium was substantially greater than in medium conditioned by unstimulated DPCs. The FGF-1-induced enhancement was reversed by FGF-5, diminishing ORSC proliferation to control levels. By contrast, the enhancement of DPC-mediated ORSC proliferation by FGF-2 was not suppressed by FGF-5. Proliferation of ORSCs did not depend on DPC proliferation, nor did FGF-1 directly promote ORSC proliferation. Dermal papillae thus appear to require activation before they will efficiently stimulate hair growth, and FGF-5 appears to inhibit hair growth and induce catagen by blocking that activation.     

Promotion effect of constituents from the root of Polygonum multiflorum on hair growth

Two new compounds, gallic acid ester of torachrysone-8-O-β-d-glucoside (1) and (E)-2,3,5,4′-tetrahydroxystilbene-2-O-β-d-xyloside (4), along with eight known compounds (2, 3, 5–10) were isolated from a 70% ethanol extract of Polygonum multiflorum roots. The structures were determined by ¹H and ¹³C NMR, HMQC, and HMBC spectrometry. Extracts of P. multiflorum have been reported to promote hair growth in vivo. This study was carried out to evaluate the effects of isolated compounds from P. multiflorum on promoting hair growth using dermal papilla cells (DPCs), which play an important role in hair growth. When DPCs were treated with compounds (1–10) from P. multiflorum, compounds 1, 2, 3, 6, and 10 increased the proliferation of DPCs compared with the control. Specifically, compound 2 (10 and 20 μM) induced a greater increase in the proliferation of DPCs than minoxidil (10 μM). Additionally, treatment of vibrissa follicles with compound 2 for 21 days increased hair-fiber length significantly. On the basis of this result, further investigation and optimization of these derivatives might help in the development of therapeutic agents for the treatment of alopecia.     

Induction of transforming growth factor-beta 1 by androgen is mediated by reactive oxygen species in hair follicle dermal papilla cells

The progression of androgenetic alopecia is closely related to androgen-inducible transforming growth factor (TGF)-β1 secretion by hair follicle dermal papilla cells (DPCs) in bald scalp. Physiological levels of androgen exposure were reported to increase reactive oxygen species (ROS) generation. In this study, rat vibrissae dermal papilla cells (DP-6) transfected with androgen receptor showed increased ROS production following androgen treatment. We confirmed that TGF-β1 secretion is increased by androgen treatment in DP-6, whereas androgeninducible TGF-β1 was significantly suppressed by the ROSscavenger, N-acetyl cysteine. Therefore, we suggest that induction of TGF-β1 by androgen is mediated by ROS in hair follicle DPCs. [BMB Reports 2013; 46(9): 460-464]     

Hair multiplication with dermal papilla like tissue containing human dermal papilla cells

Alopecia is not a critical disease; however it is a disease that can affect the quality of life. Many remedies have been developed to cure alopecia, but only two have been approved by the FDA. Due to the steadily increasing number of young alopecia patients, the need for new therapies for curing alopecia is very high. Recent studies on cell therapy have reported using technique to treat various diseases. We introduce upgraded hair cell therapy which tested hair structure inducing activity with bioartificial dermal papilla tissue. Hair follicles contain two types of stem cells: Outer root sheath cells (ORSCs) derived epithelial cells, and dermal cells (DPCs). In this study, we reconstructed DP-like tissues (DPLTs) using cultured dermal papilla cells (DPCs) from human hair follicles. The DPLTs were produced special media (Dermal Papilla Forming Media: DPFM) conditions in vitro, which can induce epithelial stands from implanted healthy hair without DP. We tested in vivo hair-inducing with a modified hair sandwich model. Two to three weeks DPLT injection into the mouse scalp skin, we observed new hair in the injected site and detected injected human cells from DPLTs and Outer Root Sheath Cells (ORSCs) in the new hair via human Alu-DNA-specific probe. In the future, reconstructed DPLTs may be used in in vitro studies of hair development and the morphogenesis mechanism, as well as in vitro studies of the efficacy and toxicity of drugs for baldness. These tissues will be used as an alternative medicine product for hair transplantation     

人毛乳头细胞组织化学研究

毛乳头细胞是一种高度特殊化的成纤维细胞。本文通过对体外培养的毛乳头细胞进行组织化学染色研究发现,它对阿新蓝、甲苯胺蓝和PAS染色均呈阳性,并对甲苯胺蓝显异染性．与原位时的细胞染色结果相同,表明在体外培养下．毛乳头细胞合成和分泌酸性、中性粘多糖的能力仍能维持较长时间;在细胞聚集区和多层化细胞团中有丰富的细胞外基质,阿新蓝和PAS染色呈强阳性,说明细胞外基质的存在与毛乳头细胞的聚集有很大关系;另外毛囊真皮鞘细胞对阿新蓝、甲苯胺蓝染色呈阳性反应．无甲苯胺蓝的异染性,PAS染色阴性,而真皮成纤维细胞这些染色均阴性,说明它与毛乳头细胞关系密切。     

Effects of Wnt-10b on hair shaft growth in hair follicle cultures

Wnts are deeply involved in the proliferation and differentiation of skin epithelial cells. We previously reported the differentiation of cultured primary skin epithelial cells toward hair shaft and inner root sheath (IRS) of the hair follicle via beta-catenin stabilization caused by Wnt-10b, however, the effects of Wnt-10b on cultured hair follicles have not been reported. In the present study, we examined the effects of Wnt-10b on shaft growth using organ cultures of whisker hair follicles in serum-free conditions. No hair shaft growth was observed in the absence of Wnt-10b, whereas its addition to the culture promoted elongation of the hair shaft, intensive incorporation of BrdU in matrix cells flanking the dermal papilla (DP), and beta-catenin stabilization in DP and IRS cells. These results suggest a promoting effect of Wnt-10b on hair shaft growth that is involved with stimulation of the DP via Wnt-10b/beta-catenin signalling, proliferation of matrix cells next to the DP, and differentiation of IRS cells by Wnt-10b.     

Comparative secretome analysis of human follicular dermal papilla cells and fibroblasts using shotgun proteomics

The dermal papilla cells (DPCs) of hair follicles are known to secrete paracrine factors for follicular cells. Shotgun proteomic analysis was performed to compare the expression profiles of the secretomes of human DPCs and dermal fibroblasts (DFs). In this study, the proteins secreted by DPCs and matched DFs were analyzed by 1DE/LTQ FTICR MS/MS, semi-quantitatively determined using emPAI mole percent values and then characterized using protein interaction network analysis. Among the 1,271 and 1,188 proteins identified in DFs and DPCs, respectively, 1,529 were further analyzed using the Ingenuity Pathway Analysis tool. We identified 28 DPC-specific extracellular matrix proteins including transporters (ECM1, A2M), enzymes (LOX, PON2), and peptidases (C3, C1R). The biochemically- validated DPC-specific proteins included thrombospondin 1 (THBS1), an insulin-like growth factor binding protein3 (IGFBP3), and, of particular interest, an integrin beta1 subunit (ITGB1) as a key network core protein. Using the shotgun proteomic technique and network analysis, we selected ITGB1, IGFBP3, and THBS1 as being possible hair-growth modulating protein biomarkers.     

Induction of hair growth by insulin-like growth factor-1 in 1,763 MHz radiofrequency-irradiated hair follicle cells

Radiofrequency (RF) radiation does not transfer high energy to break the covalent bonds of macromolecules, but these low energy stimuli might be sufficient to induce molecular responses in a specific manner. We monitored the effect of 1,763 MHz RF radiation on cultured human dermal papilla cells (hDPCs) by evaluating changes in the expression of cytokines related to hair growth. The expression of insulin-like growth factor-1 (IGF-1) mRNA in hDPCs was significantly induced upon RF radiation at the specific absorption rate of 10 W/kg, which resulted in increased expression of B-cell chronic lymphocytic leukemia/lymphoma 2 (BCL-2) and cyclin D1 (CCND1) proteins and increased phosphorylation of MAPK1 protein. Exposure to 10 W/kg RF radiation 1 h per day for 7 days significantly enhanced hair shaft elongation in ex vivo hair organ cultures. In RF-exposed follicular matrix keratinocytes in the hair bulb, the expression of Ki-67 was increased, while the signal for terminal deoxynucleotidyl transferase dUTP nick end labeling was reduced. From these results, we suggest that 1,763 MHz RF exposure stimulates hair growth in vitro through the induction of IGF-1 in hDPCs.     

Apoptosis of human fibrosarcoma HT-1080 cells by epigallocatechin-3-<Emphasis Type="Italic">O</Emphasis>-gallate via induction of p53 and caspases as well as suppression of Bcl-2 and phosphorylated nuclear factor-κB

Animal tumor bioassays and in vitro cell culture systems have demonstrated that epigallocatechin-3-O-gallate (EGCG), the predominant catechin in green tea, possesses anti-proliferative and pro-apoptotic effects on various cancer cells and tumors. In this study, we investigated the effects of EGCG on cell growth, cell cycle progression, and apoptosis in human fibrosarcoma HT-1080 cells. The involvement of p53, Bcl-2, Bax, caspases, and nuclear factor-κB (NF-κB) was examined as a mechanism for the anti-cancer activity of EGCG. Time-dependent intracellular trafficking of EGCG was also determined using fluorescein isothiocyanate (FITC)-conjugated EGCG (FITC-EGCG). Our data show that EGCG treatment caused dose-dependent cell growth inhibition, cell cycle arrest at the G₀/G₁ phase, and DNA fragmentation suggesting the induction of apoptosis in HT-1080 cells. Immunoblot analysis revealed that the expression of p53, caspase-7 and -9 as well as the ratio of Bax/Bcl-2 protein increased significantly with higher EGCG concentrations and longer incubation times. Moreover, expression of phosphorylated NF-κB/p65 in HT-1080 cells was inhibited by EGCG treatment in a dose-dependent manner, while that of unphosphorylated NF-κB/p65 remained unaffected. Here we also reveal time-dependent internalization of FITC-EGCG into the cytosol of HT-1080 cells and its subsequent nuclear translocation. These results suggest that EGCG may interrupt exogenous signals directed towards genes involved in proliferation and cell cycle progression. Taken together, our data indicate that HT-1080 apoptosis may be mediated through the induction of p53 and caspases by the pro-oxidant activity of internalized EGCG, as well as suppression of Bcl-2 and phosphorylated NF-κB by the antioxidant activity of EGCG.     

Dietary isoflavone increases insulin-like growth factor-I production, thereby promoting hair growth in mice

Sensory neurons release calcitonin gene-related peptide (CGRP) upon activation. We previously demonstrated that CGRP increases insulin-like growth factor-I (IGF-I) production in various tissues of mice including the skin. We demonstrated that isoflavone increases the CGRP synthesis in the dorsal root ganglion (DRG) neurons in rats. Since IGF-I plays a critical role in hair growth, we hypothesized that isoflavones may promote hair growth by increasing the IGF-I production in hair follicles. We examined this hypothesis using wild-type (WT) and CGRP-knockout (CGRP^−/−) mice. Isoflavone significantly increased the CGRP mRNA levels in DRG neurons isolated from WT mice (P<.01). Administration of isoflavone for 3 weeks increased the dermal levels of CGRP, IGF-I and IGF-I mRNA in WT mice, but not in CGRP^−/− mice. Isoflavone administration increased the immunohistochemical expression of IGF-I in hair follicle dermal papilla cells in WT mice. Significant enhancements of hair follicle morphogenesis, hair regrowth, and hair pigmentation were also observed in WT mice administered isoflavone. However, none of these effects in WT mice were observed in CGRP^−/− mice.These observations strongly suggest that isoflavone might increase IGF-I production in the hair follicle dermal papilla cells in mice through increasing CGRP production in the sensory neurons, thereby promoting hair growth associated with melanogenesis in mice.     

“一枝好”育发液促进毛发生长及机制探讨

目的:考察利用新疆维吾尔族传统药物研制成的"一枝好"育发液促进毛发生长的效果,并探讨其可能的作用机制。方法:采用硫化钠溶液建立昆明小鼠化学性脱发实验模型,将30只昆明小鼠随机分为实验组、阳性对照组(章光101育发剂)、空白对照组,以毛发评分、毛长、毛重以及毛囊数为指标,考察小鼠新生毛发生长情况。对脱毛后21天的脱毛区皮肤毛长、毛重、毛囊数进行测量和统计分析。并利用MTT法初步探讨"一枝好"育发液对人脐静脉血管内皮细胞(HUVEC)增殖的影响。结果:实验组脱毛区体毛生长评分及毛长,与空白对照组差异显著,并且略高于阳性对照组。对小鼠毛重与毛囊数的统计结果显示,与空白对照组和阳性对照组相比,实验组均有显著性差异(P0.01,P0.001)。"一枝好"育发液能够促进人脐静脉血管内皮细胞(HUVEC)增殖。结论:利用新疆维吾尔族传统药物研制成的"一枝好"育发液,能够显著促进小鼠毛发生长,初步推断其作用机制与促进毛囊生长和促进血管内皮细胞增殖有关。     

顺铂耳毒性大鼠耳聋模型的研究

摘要 目的：探讨顺铂对大鼠造成的听力损伤及耳蜗细胞形态学变化。方法：体内实验,运用顺铂腹腔注射的方法,连续七天注射,通过听性脑干反应检测,观察顺铂对不同日龄的大鼠听力损伤情况;测听后取耳蜗,通过基底膜铺片和冰冻切片的免疫荧光染色,观察听力损伤后对耳蜗毛细胞和螺旋神经元的影响。体外实验,耳蜗器官培养免疫荧光染色,观察顺铂对耳蜗毛细胞和螺旋神经元的影响。结果：顺铂具有耳毒性,会对大鼠听力造成损伤,高频听力损伤更加严重,而且对不同日龄的大鼠造成的听力损失不同,小日龄的大鼠对顺铂耳毒性更加敏感。体内实验,顺铂耳毒性造成听力损失,会引起大鼠耳蜗毛细胞的缺失,但未观察到明显的螺旋神经元缺失,也没有观察到明显的Cleaved caspase-3阳性螺旋神经元细胞。体外实验,可以观察到顺铂同时引起毛细胞和螺旋神经元产生明显的损伤。结论：体、内外实验,都可以建立稳定的顺铂耳毒性大鼠耳聋模型,对研究顺铂损伤耳蜗毛细胞的发生机制和保护奠定了实验基础。     

Effects of flavonoids on MicroRNA 145 regulation through Klf4 and myocardin in neointimal formation in vitro and in vivo

MicroRNA 145 (miR-145) is a critical modulator of vascular smooth muscle cell (VSMC) phenotyping and proliferation. Flavonoids have been studied extensively due to their diverse pharmacological properties, including anti-inflammatory effects. The aims of this study is designed to evaluate the atheroprotective effects on angiotensin II (Ang II)-induced miR-145 and Klf4/myocardin expression in vitro and in vivo of flavonoids, including (−)-epigallocatechin gallate (EGCG), chrysin, wogonin, silibinin, and ferulic acid. Ang II significantly reduced the miR-145 compared with the control VSMC groups; all the tested flavonoids increased miR-145 in the 100 nM concentration. Among the test compounds, EGCG showed the strongest augmenting effect on miR-145 and myocardin, however, it also abolished Ang II-induced Klf4. A [³H]-thymidine incorporation proliferation assay demonstrated that EGCG inhibited Ang II-induced VSMC proliferation, and Klf4 siRNA presented with the similar results. Immunohistochemical analysis and confocal microscopy demonstrated increased Klf4 expression and the arterial lumen was narrowed after balloon injury 14 days. With the addition of EGCG (50 mg/kg) and Klf4 siRNA, neointimal formation was reduced by 40.7% and 50.5% compared with balloon injury 14 days; Klf4 expression also was attenuated. This study demonstrated EGCG increased miR-145 and attenuated Klf4, and ameliorated neointimal formation in vitro and in vivo. The novel suppressive effect was mediated through the miR-145 and Klf4/myocardin pathways.