角蛋白15在大鼠皮肤发育中表达的研究

目的研究角蛋白15(K15)在大鼠皮肤发育中的表达状况,定位表皮干细胞.方法以不同年龄大鼠背部皮肤为标本,用组织学方法,观察出生后大鼠皮肤的形态发育变化;以K15单克隆抗体为一抗,进行免疫组织化学染色,观察K15在大鼠皮肤中的表达状况.结果(1)组织学方法显示,随着年龄的增长,大鼠背部表皮细胞层数逐渐变少;在毛囊的生长周期中,以隆突区为界,毛囊上段为恒定区,下段呈周期性变化(2)免疫组化染色显示,毛囊隆突区细胞胞浆表达K15,随年龄的增长,K15阳性细胞出现在毛母质细胞区、毛囊外根鞘和表皮基底层.结论表皮干细胞位于毛囊隆突区,与表皮的更新和毛囊的周期性变化有关.     

小鼠毛囊不同生长周期中MITF下游色素相关基因的定位表达及相关性分析

小眼畸形转录因子（MITF）不仅是黑色素细胞发育、增殖和存活的必要调节因子,而且对调节相关酶和黑素体蛋白表达来确保黑色素产生具有至关重要的作用。MITF下游色素相关基因在小鼠毛囊生长周期中的表达及相关性仍有待研究。HE染色结果表明不同毛囊时期的小鼠毛囊呈现典型的组织形态学结构;免疫组织化学显示,MITF、GPNMB、OA1、TYR、TYRP2在不同毛囊生长周期中的毛基质及内外毛根鞘均有不同程度的阳性表达。黑色素测定结果表明,在毛囊生长初期和中期,碱性可溶性总黑色素（ASM）、真黑素（EM）以及褐黑素（PM）相对含量高于毛囊生长末期。蛋白免疫印迹结果表明,MITF、GPNMB、OA1、TYR、TYRP2在毛囊生长初期和中期蛋白质相对水平明显高于毛囊生长末期。实时荧光定量PCR结果表明, MITF、GPNMB、OA1、TYR、TYRP2、PMEL在毛囊生长初期和中期,mRNA相对表达量显著高于毛囊生长末期。在不同毛囊生长周期小鼠皮肤的MITF下游色素相关基因表达存在显著差异,表明上述因子在维持黑色素细胞色素生成是不可或缺的因素。     

IGF1和IGF1R在小鼠第一个毛囊生长周期皮肤的表达

毛囊生长周期中,真皮乳头和毛基质间的基质 上皮信号调控细胞的增殖和分化。多功能细胞调控因子胰岛素样生长因子1（IGF1)是该信号路径的成员之一。第1个毛囊生长周期决定着毛囊的正常生长和发育,但IGF1在此期的作用未见报道。实时荧光定量PCR结果显示,IGF1在生长期皮肤中的相对表达量最低,在退化期表达量最高,在静止期表达量又降低。与生长初期相比,IGF1在退化期和静止期的表达量呈差异极显著（P＜0.01）;胰岛素样生长因子1受体（IGF1R）在生长期皮肤中的相对表达量最高,在退化期表达量最低,而在静止期表达量又升高。与生长初期相比,IGF1R在退化期和静止期的表达量呈差异极显著（P＜0.01）。Western 印迹结果显示,IGF1和IGF1R蛋白在小鼠皮肤第1个毛囊生长周期各阶段的表达趋势分别与其mRNA的表达趋势一致;免疫组织化学结果表明,IGF1主要分布在小鼠表皮,而IGF1R免疫阳性在小鼠毛囊毛球部、内外根鞘和毛乳头均有分布。以上实验结果揭示,IGF1和IGF1R在小鼠皮肤第1个毛囊生长周期的各阶段的差异性表达,可能在毛囊生长周期各阶段的转化过程中参与了黑色素的形成。然而,IGF1和IGF1R表达趋势不一致,提示IGF1在小鼠皮肤中发挥作用时,并非只与IGF1R结合才能发挥作用。     

小鼠皮肤及其毛囊早期发育的组织学观察

目的探讨小鼠皮肤及其毛囊的早期发育规律。方法采用常规石蜡切片和H-E染色技术,观察昆明系小鼠出生前后皮肤及其毛囊的形态发育。结果(1)孕龄16 d胎鼠的皮肤表面形成凹凸不平的深褶皱,但在生后3 d~5 d不仅皱褶的数量减少,而且凹陷变浅;(2)胎鼠孕龄16 d至19 d,其皮肤的表皮、真皮及皮肤总厚度呈现平稳增厚。但是,出生后,其表皮、真皮和皮肤总厚度急剧降低;在生后第1天至第9天,表皮呈现平稳增厚,而真皮则在生后快速厚度,第7天达到最高值(1861.50μm);(3)孕龄16 d的胎鼠皮肤中可观察到初级毛囊,至生后第7天其密度呈现平稳增长;与其相比,次级毛囊从18 d胎鼠开始出现,其密度增长非常迅速,出生后第7天达到1257.14/mm;毛囊的总密度与次级毛囊呈现相似的变化趋势。出生第7天后,由于毛囊的数量急剧增加,无法观察初级毛囊和次级毛囊的变化规律;(4)初级毛囊和次级毛囊的长度与深度变化在出生前后的相对缓慢,与其相比在第3天以后至第7天呈现迅速变化趋势。结论小鼠皮肤及其毛囊的生长性发育发生在胎儿晚期和生后的早期,而其周期性变化可能从出生后的第9天以后开始出现;在孕期16 d至生后第7天可能是检测毛囊特异性基因表达的最佳期。     

羧甲基壳聚糖促进小鼠皮肤毛囊再生修复的组织形态学研究

目的:观察羧甲基壳聚糖(CMC)促进小鼠皮肤毛囊再生修复的组织形态学结构变化,并与新生小鼠皮肤毛囊的组织形态学结构对比。方法:通过切除皮肤组织建立小鼠背部皮肤组织全层缺损模型,随机分为4组:CMC组、清得佳组、生理盐水组与空白对照组,除空白对照组外其余3组每天分别连续给药,第21天处死;为评估造模后小鼠皮肤毛囊组织的再生修复程度,另取新生小鼠36只,每日处死3只;应用Image J技术观察并测量各组小鼠皮肤组织创面修复率;HE染色后光镜下观察新生小鼠皮肤组织厚度、毛囊及"腺泡样"结构数量;对比分析各组小鼠模型第21天和新生小鼠皮肤毛囊的组织形态学结构。结果:第3天和17天各组小鼠模型皮肤创面再生修复率:CMC组为33.07±9.52%和96.75±2.11%,清得佳组为24.18±6.14%和92.22±0.62%,生理盐水组为21.06±11.59%和87.38±2.79%,空白对照组为8.66±2.27%和85.15±1.34%;采用线性模型重复度量方差分析法,对CMC组与清得佳组、生理盐水组和空白对照组小鼠皮肤创面第17天再生修复率比较存在显著性差异(F=11.970,17.666,8.828,P0.05)。新生小鼠皮肤厚度、毛囊及"腺泡样"结构数量随小鼠日龄增长而增加(r=0.983,0.922,P0.05)。与新生小鼠皮肤毛囊的组织形态学结构相比,第21天CMC组、清得佳组、生理盐水组及空白对照组小鼠模型皮肤组织再生修复程度分别相当于新生小鼠皮肤毛囊发育后期、中期、初期及瘢痕组织。结论:CMC具有促进皮肤毛囊组织形态学结构再生修复的重要作用。     

Edar信号通路调控毛囊发育的研究进展

Edar信号通路最早发现于人少汗型外胚层发育不良综合征(hypohidrotic ectodermal dysplasia,HED)疾病患者,它是调控胚胎发育早期皮肤附属物——头发、指甲、牙齿、外分泌腺等的形态发生、发育过程的重要信号通路。与人类相同,小鼠皮肤内毛囊于胚胎期发生并发育成熟,出生后进入动态变化的毛囊周期性生长。小鼠模型的相关研究表明,Edar信号通路在早期初级毛囊的发生、成体毛囊周期性生长和被毛纤维直径等方面都发挥重要的调控作用。现综述Edar通路中重要信号分子的结构特点、转导途径及其在皮肤和毛囊早期形态发生中的作用;阐述Edar信号通路对毛囊生长周期的调控,对维持皮肤微环境稳态、促进皮肤损伤修复和表皮再生的作用,以及在临床治疗HED相关疾病方面的潜在应用前景。     

常见毛囊细胞角蛋白在毛囊周期中的表达研究

目的探讨常见毛囊细胞角蛋白在毛囊周期中的表达特征。 方法取毛囊发育期、生长期启动、生长期、退化期和静止期的小鼠皮肤,石蜡切片后通过免疫荧光的方法,检测细胞角蛋白Krt5、Krt6、Krt10、Krt14、Krt15和Krt19的表达情况。 结果Krt5在静止期和生长期启动表达于所有毛囊上皮细胞,在其他时期表达不一致;Krt6表达于所有时期的外根鞘细胞和内根鞘细胞;Krt10表达于生长期和退化期的毛母质和内根鞘细胞,在其他时期表达不一致;Krt14在生长期和退化期表达于所有毛囊上皮细胞,在其他时期表达不一致;Krt15和Krt19表达于毛囊发育期、生长期启动和静止期的毛囊隆突区细胞,在生长期和退化期表达不一致。 结论角蛋白作为毛囊结构或毛囊干细胞标记物仅适用于特定的毛囊周期。研究者在使用毛囊角蛋白作为标记物时,应首先明确其在毛囊周期中的表达情况。     

敲除非受体酪氨酸激酶c-Abl促进小鼠毛发循环和再生

c-Abl作为非受体酪氨酸激酶家族的成员,参与调节多个组织器官的发育过程,如神经、血管及骨骼等。c-Abl的异常激活也往往导致神经退行性疾病或肿瘤的发生。到目前为止,c-Abl在皮肤和毛发器官中的研究非常少。本研究首先分析了c-Abl基因在皮肤和毛囊中的动态表达情况,发现在毛囊上皮有丰富的表达,然后利用表皮特异性工具小鼠K14-Cre将c-Abl基因在表皮敲除,发现毛囊由静息期向生长期的转换略有加快。小鼠脱毛实验发现,当所有毛囊都从头开始再生时,突变鼠的毛囊起始比对照小鼠更快。这些结果均表明,在表皮敲除c-Abl基因能够导致毛发循环和毛囊再生的加快。进一步的研究发现,以上表型可能是c-Abl通过调节BMP信号通路造成的。我们的工作首次研究了c-Abl基因在皮肤毛囊中的动态表达,揭示了c-Abl通过BMP信号通路调节毛囊再生的机制。     

Wnt3a在毛囊及黑素细胞谱系中的表达

目的:探讨毛囊周期中,Wnt3a在毛囊及黑素细胞中的表达变化。方法:以DCT-LacZ转基因小鼠为动物模型,通过X-gal染色技术观察黑素细胞谱系在小鼠皮肤中的分布情况;采用X-gal染色结合免疫组化方法检测Wnt3a在毛囊及黑素细胞谱系中的表达情况;采用RT-PCR方法对小鼠皮肤全层Wnt3a和TYR的mRNA表达进行半定量分析。结果:在生长期毛囊中,Wnt3a蛋白在表皮、毛囊外根鞘Bulge区、内根鞘以及毛球部均有表达,在黑素干细胞与黑素细胞也观察到Wnt3a;在退化期,Wnt3a的表达逐渐减弱,仅在外根鞘有较弱的表达,但黑素干细胞中没有观察到Wnt3a;在静止期,几乎检测不到Wnt3a的表达;TYR mRNA与Wnt3a mRNA在毛囊周期中的表达模式一致,在生长期最强,退化期减弱,静止期最弱。结论:Wnt3a可能对黑素细胞谱系分化起到促进作用。     

绒山羊70d胚胎与新生羊羔体侧部皮肤miRNA的比较分析

目的:最近发现miRNA对哺乳动物毛囊的发育和维持具有重要作用,研究miRNA在绒山羊次级毛囊发育中的作用,可以为人工调节绒毛生长和提高羊绒产量提供新的线索。方法:应用Exiqon miRNA8.1表达谱芯片对70d胎儿皮肤和出生2w羊羔体侧部皮肤组织差异表达的miRNA基因进行筛查,找出绒山羊皮肤发育不同阶段差异表达的miRNA。结果:绒山羊70d胎儿皮肤中相对于出生2w羊羔体侧部皮肤上调的miRNA 4个。绒山羊70d胎儿皮肤中相对于出生2w羊羔体侧部皮肤下调的miRNA 64个。结论:绒山羊70d胚胎皮肤中上调的miRNA远远少于出生后羊羔皮肤上调miRNAs,说明miRNA在皮肤毛囊不同发育阶段中发挥重要作用。     

STX17在不同毛色小鼠皮肤中差异表达与在毛囊中的定位

突触融合蛋白17 (STX17)是一种囊泡蛋白,参与细胞中物质的运输.为研究Stx17在不同毛色皮肤中是否存在差异表达及明确它在毛囊中的定位,进行了普通PCR、real-time PCR、免疫组化和蛋白免疫印迹实验对小鼠皮肤组织和体外培养黑素细胞的Stx17基因及蛋白的检测.普通PCR检测得出小鼠皮肤和黑色素细胞总RNA有Stx17 CDS区序列的表达;荧光定量检测显示,在白、灰、黑3种组织中Stx17均有表达,在灰色腹部表达量最高,是黑色皮肤的1.682倍,昆明鼠白色皮肤中表达量最低,是黑色皮肤的0.115倍;皮肤组织免疫组化结果显示,STX17表达于毛囊的上皮根鞘,且毛囊上段和中段表达量高于下段,黑色素细胞的免疫组化分析得出,STX17在黑色素细胞的细胞质和细胞膜上均有表达;蛋白免疫印迹结果显示,在白色、灰色和黑色皮肤均有STX17蛋白阳性条带且灰色皮肤中表达量最高,黑色皮肤次之,白色皮肤中表达量是最低的,这与荧光定量检测结果一致,体外培养的小鼠黑色素细胞中也有STX17蛋白阳性条带.实验结果表明,小鼠Stx17基因在皮肤组织、毛囊角化细胞以及黑色素细胞中均有表达,Stx17可能参与毛色的形成,且在小鼠腹部毛色变浅中起到了一定的作用.     

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。     

Different Populations of Melanocytes Are Present in Hair Follicles and Epidermis

Melanocytes in human skin reside both in the epidermis and in the matrix and outer root sheath of anagen hair follicles. Comparative study of melanocytes in these different locations has been difficult as hair follicle melanocytes could not be cultured. In this study we used a recently described method of growing hair follicle melanocytes to characterize and compare hair follicle and epidermal melanocytes in the scalp of the same individual. Three morphologically and antigenically distinct types of melanocytes were observed in primary culture. These included (1) moderately pigmented and polydendritic melanocytes derived from epidermis; (2) small, bipolar, amelanotic melanocytes; and (3) large, intensely pigmented melanocytes; the latter two were derived from hair follicles. The three sub-populations of cells all reacted with melanocyte-specific monoclonal antibody. Epidermal and amelanotic hair follicle melanocytes proliferated well in culture, whereas the intensely pigmented hair follicle melanocytes did not. Amelanotic hair follicle melanocytes differed from epidermal melanocytes in being less differentiated, and they expressed less mature melanosome antigens. In addition, hair follicle melanocytes expressed some antigens associated with alopecia areata, but not antigens associated with vitiligo, whereas the reverse was true for epidermal melanocytes. Thus, antigenically different populations of melanocytes are present in epidermis and hair follicle. This could account for the preferential destruction of hair follicle melanocytes in alopecia areata and of epidermal melanocytes in vitiligo.     

Expression profile analysis of microRNAs during hair follicle development in the sheep foetus

MicroRNAs (miRNAs) regulate the development and growth cycle of hair follicles (HFs). The molecular mechanism by which miRNAs determine the development of HFs in the sheep foetus remains elusive. In this study, the expression profiles of miRNAs at 11 development periods (45, 55, 65, 75, 85, 95, 105, 115, 125, 135 and 145 d) in sheep foetus skin were analysed by high-throughput sequencing and bioinformatics analysis. A total of 72 conserved miRNAs, 44 novel miRNAs and 32 known miRNAs were significantly differentially expressed. qRT-PCR results for 18 miRNAs were consistent with the sequencing data. 85 d of foetal development was the starting point for secondary hair follicle (SF) development according to tissue morphology and cluster analysis. In SF development, the prolactin signalling pathway and platelet activation played important roles, and 10 miRNAs were potential candidate miRNAs in SF initiation.     

Notch1 is essential for postnatal hair follicle development and homeostasis

Notch genes encode evolutionarily conserved large, single transmembrane receptors, which regulate many cell fate decisions and differentiation processes during fetal and postnatal life. Multiple Notch receptors and ligands are expressed in both developing and adult epidermis and hair follicles. Proliferation and differentiation of these two ectodermal-derived structures have been proposed to be controlled in part by the Notch pathway. Whether Notch signaling is involved in postnatal hair homeostasis is currently unknown. Here, we investigate and compare the role of the Notch1 receptor during embryonic hair follicle development and postnatal hair homeostasis using Cre-loxP based tissue specific and inducible loss-of-function approaches. During embryonic development, tissue-specific ablation of Notch1 does not perturb formation and patterning of hair follicle placodes. However, Notch1 deficient hair follicles invaginate prematurely into the dermis. Embryonic as well as postnatal inactivation of Notch1 shortly after birth or in adult mice results in almost complete hair loss followed by cyst formation. The first hair cycle of Notch1 deficient mice is characterized by shortened anagen and a premature entry into catagen. These data show that Notch1 is essential for late stages of hair follicle development during embryogenesis as well as for post-natal hair follicle development and hair homeostasis.     

The role of activins and follistatins in skin and hair follicle development and function

Investigations of the signalling between epithelial and mesenchymal compartments of skin during hair follicle initiation in utero and hair cycling have revealed the importance of the TGFβ superfamily in ectodermal organogenesis and morphogenesis. In particular the activins, their receptors and binding proteins such as follistatin, have been shown to be important regulators of cell proliferation, differentiation and apoptosis in hair follicle initiation, hair cycling, normal skin homeostasis and wound healing. Transgenic mice lacking various components of the activin signalling pathways display varying ectodermal pathologies including altered pelage hair follicle initiation. This review summarises the activin signal transduction pathways and the interactions between activins and other TGFβ signalling systems during hair follicle formation, hair growth cycling, skin function and wound healing.