小鼠超高硫角蛋白基因启动子的克隆及其表达活性分析

目的筛选在小鼠毛囊中具有高表达活性的内源启动子,为建立小鼠被毛特异表达外源蛋白的转基因技术奠定基础。方法以小鼠基因组为模板,克隆得到超高硫角蛋白基因启动子超高硫角蛋白(UHS),将其分别与pβgal-Basic和pAcGFP1-N1载体连接,构建了重组真核表达载体。采用阳离子脂质体法转染胎鼠组织块,分析其表达活性。结果转染后48 h,在蓝光激发条件下可以检测到绿色荧光蛋白(GFP)在小鼠毛囊区高表达,转染96 h后,表达减弱;此外,转染后48 h,βgal染色结果显示在皮肤块的毛囊区存在蓝色点状区域。结论 UHS启动子在小鼠毛囊中具有表达特异性。     

KRT71决定羊驼毛弯曲度的形成

角蛋白71（Keratins 71,KRT71）属于人类Ⅱ型上皮角蛋白,是毛囊特异性的上皮角蛋白基因。相关研究表明,在其他物种中,KRT71与被毛卷曲相关,KRT71在卷曲的被毛形成过程中起着重要的作用。现眼观羊驼背部、耳部和腿部毛发的弯曲程度不同,但KRT71与其被毛的弯曲度是否相关尚不清楚。本研究利用PCR技术克隆KRT71基因全CDS区。通过实时荧光定量PCR技术检测基因的表达。免疫组化、Western 印迹对KRT71蛋白在羊驼背部、耳部和腿部皮肤组织中的表达量进行分析,以探讨KRT71与羊驼毛发弯曲度的关系。结果显示,羊驼的KRT71基因的CDS区共有1 578 bp,编码525个氨基酸;免疫组化结果显示,KRT71在羊驼的背部、耳部和腿部均有表达,并且主要特异性表达于毛囊的内根鞘;实时荧光定量PCR和Western印迹结果显示,KRT71的mRNA和蛋白量均呈现背部﹥腿部﹥耳部的趋势;相较于耳部,背部和腿部的表达量较高。实验结果提示,KRT71的表达量与毛纤维的弯曲度呈正相关,KRT71可能在羊驼毛纤维的弯曲度形成过程中发挥着一定的作用。     

EDAR参与绵羊毛发性状与生长的调节

绵羊的背部、耳部和腹股沟部的毛发性状、生长速度存在差异,背部毛发弯曲、细长、密度高、生长速度快,耳部、腹股沟部毛发粗直、密度低、生长速度慢。研究表明,EDA/EDAR、IGFBP5/Krox 20、WNT等介导的信号通路及毛发角蛋白基因对毛发纤维弯曲的形成有重要的影响。本研究利用实时荧光定量PCR、原位杂交技术、Western 印迹和免疫组织化学等技术,对外异蛋白受体（ectodysplasin A receptor,EDAR）在绵羊背部、耳部和腹股沟皮肤中的mRNA、蛋白质表达水平和定位进行研究,以探讨EDAR与绵羊毛发的生长和性状的关系。实时荧光定量PCR结果显示,EDAR在绵羊背部皮肤中相对基因表达量是绵羊腹股沟皮肤的4.9倍(P＜ 0.01),耳部是腹股沟部的1.4倍（P＜0.05）,背部是耳部的3.4倍（P＜0.05）;原位杂交和免疫组化结果表明,EDAR基因mRNA和蛋白质在背部、耳部和腹股沟部毛囊均有表达。根据光密度值可知,背部表达量最高,耳部次之,而腹股沟部最低;Western 印迹结果显示,绵羊皮肤组织蛋白质提取物中存在与兔抗EDAR多克隆抗体发生免疫阳性反应的蛋白条带,绵羊皮肤背部平均蛋白质表达量最高,耳部次之,而腹股沟部最低,差异极显著(P ＜ 0.01)。研究结果提示,EDAR可能参与绵羊毛发卷曲的形成和调控,对毛发密度、生长速度等可能也有影响。     

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。     

尿激酶型纤溶酶原激活物的表达与毛囊细胞增殖关系的研究

为了研究毛囊外根鞘(outer root sheath,ORS)细胞尿激酶型纤溶酶原激活物(urokinase plasmino-gen activator,uPA)的表达与其细胞周期的关系,并探讨uPA对毛囊生长的调控作用,本文应用流式细胞仪对不同代龄的ORS细胞的细胞周期进行了 检测,并用免疫细胞化学和RT-PCR手段对相应代龄ORS细胞的uPA mRNA及蛋白质的表达进行了检测。结果显示,原代ORS细胞增殖旺盛,而3代ORS细胞增殖水平显著下降,增殖旺盛的ORS细胞uPA mRNA及蛋白表达较强,而增殖缓慢的ORS细胞uPA mRNA及蛋白的表达明显下降或不表达。说明ORS细胞的增殖水平与其uPA mRNA及蛋白的表达密切相关,uPA在毛囊生长早期的表达可以促进毛囊细胞增殖,利于毛囊发育。     

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.     

LncRNA在哺乳动物毛囊发育调控中的研究进展

长链非编码RNA(long non-coding RNA,lncRNA)是一类长度超过200 nt,本身不具编码能力的真核转录本,是基因编码蛋白的关键调节器,在转录水平和转录后水平调节基因的表达,广泛分布于动植物基因组中,作为一类重要的调节因子参与生命发育周期、细胞分化及疾病相关的一些生物学过程。目前,已有一些与皮肤生物学相关lncRNA的报道,但其在皮肤毛囊发育和毛发纤维中的功能及作用机制鲜有报道。近年来,新一代测序技术和芯片技术的结合为lncRNA的鉴定提供了更加有效和快速的途径。研究表明,部分lncRNA对皮肤毛囊细胞的增殖、分化及真皮乳头的形成具有一定影响,其相关靶基因参与调控毛囊的周期性生长。结合近期研究进展就lncRNA对毛囊生长发育的调控作用进行了综述,旨在为后续研究哺乳动物毛囊生长发育相关lncRNA的作用及调控机制奠定理论基础。     

青年羊驼耳部和背部皮肤组织中miRNA差异表达研究

羊驼是毛用型经济动物,其耳部和背部的毛发品质和生长速度存在差异.MicroRNA(miRNA)是新发现的一类在转录后水平调控基因表达的非编码RNA分子,为比较miRNA在羊驼耳部和背部皮肤的表达差异,从而探讨miRNA在羊驼皮肤和毛囊发育过程中的调控作用,本实验提取羊驼皮肤总RNA,制备了羊驼皮肤miRNA芯片,通过与Affymetrix多物种miRNA芯片跨物种杂交对耳部和背部皮肤的miRNA进行筛选,并通过实时荧光定量PCR进行了验证,同时利用在线生物信息软件预测miRNA靶基因.结果显示,羊驼耳部和背部皮肤中高表达差异2倍以上的miRNA有39个,实时荧光定量PCR检测let-7b和miR-24在2个部位皮肤中的差异表达量与miRNA基因芯片结果一致;预测到let-7b和miR-24的靶基因中包含有与毛囊生长发育和毛发品质相关的基因,提示这些miRNA可能参与羊驼皮肤和毛囊的生长发育、更新以及毛发品质的调控.     

角蛋白HGTP及其对羊毛发育的影响

羊毛的主要成分是角蛋白,其组分高甘氨酸-酪氨酸蛋白(HGTP)家族成员KAP6、KAP7和KAP8基因表达对羊毛细度和弯曲等特性具有重要影响。本文从羊毛的组成、角蛋白的生物学特征以及HGTP基因定位和表达对细度的影响等方面进行了综述,旨在为羊毛发育调控研究提供理论参考。     

角蛋白家族及其对羊毛生长发育的调控

角蛋白是动物毛发和羊毛纤维的主要成分,该文简要介绍角蛋白的结构、种类和生物学特性以及在毛发发育中的作用,为角蛋白在动物育种中的应用提供理论基础。     

Hoxc12 expression pattern in developing and cycling murine hair follicles

We examine the Hoxc12 RNA expression pattern during both hair follicle morphogenesis and cycling in direct comparison to its only upstream neighbor, Hoxc13. Expression of both genes is restricted to the epidermal part of the follicle excluding the outer root sheath and interfollicular epidermis in a distinct stage-dependent and cyclical manner. During the progressive growth phase (anagen) of developing and cycling follicles, the distinct proximo-distal expression domain of Hoxc12 overlaps only proximally, at the upper-most region of the bulb, with the more proximally restricted Hoxc13 domain. This arrangement of the expression domains of the two genes along the proximal-toward-distal axis of increasing follicular differentiation correlates with the sequential expression of first Hoxc13 and then Hoxc12. This indicates a reversal of the typical temporal colinearity of Hox gene activation otherwise observed along the anterior-posterior morphogenetic axis of the embryo (review: Cell 78 (1994) 191).     

Expression analysis of KAP9.2 and Hoxc13 genes during different cashmere growth stages by qRT-PCR method

Keratin-associated protein 9.2 (KAP9.2) and Homeobox C13 (Hoxc13) genes were chosen to study because of their biological functions involving hair formation. KAP9.2 gene belongs to the ultra high sulfur KAPs, which is important for hair formation and may have association with cashmere. Hoxc13 takes part in the formation of cashmere keratin and maintaining the normal structure of follicle. It has been reported that Hoxc13 gene exists binding site of KP and KAP genes at its promoter regions in mouse. So the expression of KAP9.2 and Hoxc13 genes was detected at anagen stage vs telogen stage by qRT-PCR. The data showed that KAP9.2 and Hoxc13 gene had similar expression trend at different stages, which indicated that there was interaction between them. KAP9.2 and Hoxc13 gene had lower expression level in anagen than that of in telogen of cashmere growth. In anagen, KAP9.2 and Hoxc13 expressed lower in high cashmere yield individuals than that of in low cashmere yield ones. In telogen, the result was reverse. The study would provide the evidence of involvement of KAP9.2 and Hoxc13 in hair periodic growth.     

Overexpression of Hoxc13 in differentiating keratinocytes results in downregulation of a novel hair keratin gene cluster and alopecia

Studying the roles of Hox genes in normal and pathological development of skin and hair requires identification of downstream target genes in genetically defined animal models. We show that transgenic mice overexpressing Hoxc13 in differentiating keratinocytes of hair follicles develop alopecia, accompanied by a progressive pathological skin condition that resembles ichthyosis. Large-scale analysis of differential gene expression in postnatal skin of these mice identified 16 previously unknown and 13 known genes as presumptive Hoxc13 targets. The majority of these targets are downregulated and belong to a subgroup of genes that encode hair-specific keratin-associated proteins (KAPs). Genomic mapping using a mouse hamster radiation hybrid panel showed these genes to reside in a novel KAP gene cluster on mouse chromosome 16 in a region of conserved linkage with human chromosome 21q22.11. Furthermore, data obtained by Hoxc13/lacZ reporter gene analysis in mice that overexpress Hoxc13 suggest negative autoregulatory feedback control of Hoxc13 expression levels, thus providing an entry point for elucidating currently unknown mechanisms that are required for regulating quantitative levels of Hox gene expression. Combined, these results provide a framework for understanding molecular mechanisms of Hoxc13 function in hair growth and development.     

Disruption of the hedgehog signaling pathway contributes to the hair follicle cycling deficiency in Vdr knockout mice

Mice null for the Vitamin D receptor (VdrKO) have a disrupted first hair follicle cycle and aborted subsequent hair follicle cycling. We examined the expression of different markers and mediators of hair follicle cycling in the hair follicle of the VdrKO mouse during days 13–22 when the hair follicle normally initiates and completes the first catagen. We compared the expression of those genes in mice with a nonsense mutation in hairless (Rhino), which have a similar alopecia phenotype, and to Cyp27b1 null mice which are deficient in the production of 1,25(OH)2D3, the Vdr ligand, but display normal hair follicle cycling. Our results demonstrate the down regulation of hair follicle markers and the alteration of expression of hedgehog (Hh), Wnt, Fgf, and Tgfβ pathways in VdrKO and Rhino mice, but not in Cyp27b1KO mice. Treatment of VdrKO mice with an agonist to the Hh pathway partially restored hair follicle cycling, suggesting a role of this pathway in the regulation of hair follicle cycling by VDR. These results suggest that Vdr regulates directly or indirectly the expression of genes required for hair follicle cycling, including Hh signaling, independent of 1,25(OH)2D3. J. Cell. Physiol. 225: 482–489, 2010. © 2010 Wiley‐Liss, Inc.