小鼠睾丸支持细胞的生物学特性研究

目的:获得高纯度的小鼠支持细胞,用以研究睾丸支持细胞在诱导胚胎干细胞向雄性生殖细胞分化过程中的作用,同时借助睾丸支持细胞减少进行体内诱导试验时可能产生的免疫排斥反应。方法:用胶原酶和胰蛋白酶组合消化结合选择性贴壁法从1周龄昆明白小鼠睾丸分离获得睾丸支持细胞,纯化后进行体外培养,观察其体外培养的生物学特性。结果:睾丸支持细胞体外培养3～4h即贴壁,贴壁后伸出3～4个突起,为成纤维型细胞,在体外培养2～3d即长满全瓶。油红Ο染色显示,其胞质含有大量脂滴。透射电镜观察结果表明,支持细胞核仁周围有卫星核小体。RT-PCR结果显示获得的细胞表达缪勒管抑制物,不表达促黄体素受体和小鼠VASA同源物。结论:获得了较高纯度的小鼠睾丸支持细胞,可以用于诱导小鼠胚胎干细胞向雄性生殖细胞分化的体内和体外试验。     

牛睾丸支持细胞分离、纯化及体外生长行为的研究

了解牛睾丸支持细胞体外培养的生物学特性,试验采用组合酶消化和选择贴壁法,将5月龄、6月龄牛胎儿及新生牛睾丸支持细胞分离纯化后进行体外培养。试验结果显示,这一阶段牛睾丸适宜支持细胞分离纯化用;采用0.25 %胰蛋白酶+0.02 %EDTA二次消化法是一种经济有效的牛胎儿睾丸支持细胞分离方案;试验发现,牛胎儿睾丸支持细胞体外研究时间应控制在3天～20天内,处于对数生长期的牛胎儿睾丸支持细胞,对牛体外受精卵体外发育有明显的促进作用。     

胎牛雄性生殖干细胞源类ES细胞的分离培养与多能性研究

雄性生殖干细胞(male germ stem cells , mGSCs)来源于原始生殖细胞(primordial germ cells ,PGCs) ,且终生存在于性分化后的睾丸中。从20周胎牛分离睾丸细胞,2步连续贴壁速率差法能有效纯化胎牛mGSCs ,经流式细胞仪检测,CD9阳性细胞的比例达到95.8 %。原代与支持细胞共培养,出现隆突状和鸟巢状两种细胞集落。获得1株传至4代仍呈现集落生长的细胞株,且集落AKP染色阳性。对第3代鸟巢状细胞集落免疫组化和诱导分化分析,结果显示:SSEA1和Oct-4免疫组化染色阳性;短期内可自发形成c-kit染色阳性的分化态精原细胞;定向诱导分化形成了表达神经丝蛋白(Neuro filament ,NF)的神经样细胞和表达α-actin的心肌样细胞团。试验结果表明:20周胎牛雄性生殖干细胞在体外可形成具有多分化潜能性的类胚胎干(embryonic stem,ES)细胞。     

胎牛雄性生殖干细胞源类ES细胞的分离培养与多能性研究

雄性生殖干细胞（male germ stem cells, mGSCs）来源于原始生殖细胞(primordial germ cells, PGCs),且终生存在于性分化后的睾丸中。从20周胎牛分离睾丸细胞,2步连续贴壁速率差法能有效纯化胎牛mGSCs,经流式细胞仪检测,CD9阳性细胞的比例达到 95.8%。原代与支持细胞共培养,出现隆突状和鸟巢状两种细胞集落。获得1株传至4代仍呈现集落生长的细胞株,且集落AKP染色阳性。对第3代鸟巢状细胞集落免疫组化和诱导分化分析,结果显示：SSEA1和Oct-4免疫组化染色阳性;短期内可自发形成c-kit染色阳性的分化态精原细胞;定向诱导分化形成了表达神经丝蛋白(Neuro filament,NF)的神经样细胞和表达α-actin的心肌样细胞团。试验结果表明：20周胎牛雄性生殖干细胞在体外可形成具有多分化潜能性的类胚胎干（embryonic stem, ES）细胞。     

KnockoutTM SR无血清培养基支持小鼠精原干细胞的短期存活(简报)

精原干细胞(spermatogonial stem cells,SSCs)是睾丸内具有自我复制和分化为精子潜能的干细胞,它的体外培养是精子发生机理研究和制作转基因动物等的新途径[1,2].近几年的研究表明,SSCs在体外的自我增殖需要GDNF(glial cell line-derived neu-rotrophie factor)因子和饲养层细胞等的支持[3-10].并且睾丸支持细胞(Sertoli's cells)和血清都导致培养的SSCs分化[1,6].因此,使用无血清培养基培养高度纯化的SSCs是培养成败的关键之一.     

山羊精原干细胞的鉴定及培养体系优化的研究

该研究优化了山羊精原干细胞(goat spermatogonial stem cells,g SSCs)培养体系,使山羊精原干细胞能在体外长期培养,维持自我更新的能力并保持未分化状态。取3~5月龄山羊睾丸,采用两步酶消法结合差速贴壁方法得到山羊精原干细胞悬液,分别通过形态学观察、碱性磷酸酶(alkaline phosphatase,AKP)染色、特异基因表达及蛋白质水平的分析对培养的细胞进行鉴定;并以山羊睾丸支持细胞(goat sertoli cells,g SCs)、小鼠胚胎成纤维细胞(mouse embryonic fibroblasts,MEFs)和层黏连蛋白(laminin,L)为饲养层,观察饲养层对山羊精原干细胞体外增殖的影响。结果表明,山羊精原干细胞体外增殖形成克隆簇,AKP染色呈阳性。经RT-PCR检测,Oct-4、C-myc、Cyclin D1、Ngn3和TERT等干细胞特异基因均有表达。细胞免疫组化结果显示,Oct-4、SSEA-1、α6-integrin、Vasa和Thy-1蛋白质呈阳性。克隆簇统计显示,在山羊睾丸支持细胞上形成的山羊精原干细胞(goat spermatogonial stem cells,g SSCs)克隆数与其他两组比较差异显著(P0.05)。山羊睾丸支持细胞饲养层上的精原干细胞可在体外传3~4代,培养时间为2个月。结果证明,通过两步酶消法和差速贴壁法可以分离获得山羊精原干细胞,且山羊睾丸支持细胞能够促进g SSCs的增殖。     

精原干细胞分离、鉴定、培养及其应用进展

雄性哺乳动物睾丸内持续的精子发生是维持其生殖能力的必备条件。精原干细胞(SSCs)是精子发生的基础,是永久分化成精子的克隆源,它既可以自我更新维持体内干细胞的数量,又可以增殖分化形成各阶段的生精细胞直至成熟精子。现对SSCs分离、鉴定与培养等技术及其应用的进展进行综述,发现两步酶消化、差异贴壁、磁珠分选等方法是体外分离与纯化SSCs的常用方法。特异性标志物的研究一直在推进SSCs的纯化与鉴定,并仍将是SSCs技术的研究重点之一。培养基、血清、生长因子和饲养层在SSCs体外培养中至关重要,但长期培养中血清可引起SSCs分化的问题有待解决。在基础与临床方面的应用中,SSCs体外培养系统为研究精子发生过程、遗传学、雄性辅助生殖和细胞再生治疗等开辟了新的道路。     

胚胎干细胞的生物学特性及体外诱导分化

来源于早期胚胎的胚胎干细胞 (ES)和胎儿生殖脊干细胞 (EG)可在未分化状态下长期增殖培养 ,并保持其多向分化潜能 .体外培养ES细胞的条件已趋于稳定 ,国内外建立了来自人和多种动物早期胚胎的ES细胞系 .某些细胞因子和化学物质等可定向诱导ES细胞分化为各种不同类型的组织细胞 .ES细胞在胚胎发育、细胞分化、转基因动物、移植治疗、药物开发等领域具有广阔的应用前景 .     

大鼠精原干细胞的高效分离和纯化方法

精原干细胞是精子发生的基础,是永久分化成精子的克隆源,它既可以自我更新维持体内干细胞的数量,又可以增殖分化形成各阶段的生精细胞直至成熟精子。本文以22～25日龄Wistar-Iamichi大鼠为研究对象,利用两步酶消化法分离得到睾丸曲细精管细胞悬液,根据精原干细胞与曲细精管细胞悬液中体细胞(支持细胞及少量的管周细胞)及各级分化的生精细胞贴壁能力及对细胞外基质粘附力的不同,将大鼠精原干细胞进行纯化。经纯化后,5只大鼠的睾丸可以得到约3×10~5个精原干细胞,该精原干细胞在体外培养可形成克隆,并且该克隆可表达精原干细胞特异的标记基因GFRα1和CDH1。本文所介绍的高效分离和纯化大鼠精原干细胞的方法,操作简便,且得到的精原干细胞具有很高的活力和增殖能力,该方法为今后大鼠精原干细胞的长期培养及操作研究奠定了基础。     

哺乳动物精原干细胞的操作技术及应用

精原干细胞(spermatogonial stem cells,SSCs)具有高度的自我更新能力和分化潜能。精原干细胞移植技术作为精原干细胞研究的重要手段,已成为一种新兴的动物繁殖技术,能够提高雄性动物的生殖能力。该技术是从适龄雄性供体动物中采集精原干细胞,注射入受体动物的生精小管中使其产生精子。通过对精原干细胞的体外培养、遗传修饰及移植等操作,可以为探讨精子的发生机制、重建不育个体的精子发生、生产转基因动物提供新的途径;同时为提高优良品种家畜的生产效率、保护野生动物资源及不育症的治疗提供了一种新的方法;在医学、生物学及动物科学方面有着广泛地应用。通过对培养体系的不断完善,筛选、移植方法的不断改进,可获得更高的移植成功率。本文将从利用精原干细胞法生产转基因动物的优势,精原干细胞的形态特性和增殖分化特性,精原干细胞的移植技术和影响移植效率的关键因素,精原干细胞的体外培养,以及相关操作技术的应用与前景展望等方面做一概述。     

H19 regulates the proliferation of bovine male germline stem cells via IGF-1 signaling pathway

Self-renewal and differentiation of male germline stem cells (mGSCs) provide the basic function for continual spermatogenesis. Studies of in vitro culture of germline stem cells are important and meaningful for basic biological research and practical application. Growth factors, such as GDNF, bFGF, CSF1, and EGF, could maintain the self-renewal of mGSCs. Insulin-like growth factor 1 (IGF-1), an important growth factor, and its pathway have been reported to maintain the survival of several types of stem cells and play important roles in male reproduction. However, the mechanism through which the IGF-1 pathway acts to regulate the self-renewal of mGSCs remains unclear. We analyzed the effect of IGF-1 on the proliferation and apoptosis of bovine mGSCs. We evaluated the expression profile of long noncoding RNA (LncRNA) H19 in bovine and mouse tissues. Moreover, we investigated whether LncRNA H19 could regulate the IGF-1 pathway. Results showed that IGF-1 could activate the phosphorylation of AKT and ERK signaling pathways, and the IGF-1 pathway played an important role in regulating the proliferation and apoptosis of bovine mGSCs. The proliferation rate of mGSCs decreased, whereas the apoptosis rate of mGSCs increased when the IGF-1 receptor (IGF-1R) was blocked using the IGF-1R-specific inhibitor (picropodophyllin). LncRNA H19 could regulate the IGF-1 signaling pathway and, consequently, the proliferation and apoptosis of mGSCs. The number of cells in the seminiferous tubule decreased when H19 was interfered by injecting a virus-containing supernatant. Hence, LncRNA H19 participated in the regulation of the proliferation and apoptosis of mGSCs via the IGF-1 signaling pathway.     

Effect of GSK-3 inhibitor on the proliferation of multipotent male germ line stem cells (mGSCs) derived from goat testis

The glycogen synthase kinase 3 (GSK3) inhibitor, 6-bromoindirubin-3′-oxime (BIO), is a key regulator of many signaling pathways to maintain pluripotency of human and mouse embryonic stem cells (ESCs). However, the effect of BIO on derivation of dairy goat male germline stem cells (mGSCs) remains unclear. The objectives of this study were to investigate whether BIO influences derivation of dairy goat mGSCs. Dairy goat mGSCs were cultured in mTeSR containing BIO medium and its effects on the proliferation ability of goat mGSCs (derived from goats ≤2 mo of age) were evaluated by 5-Bromo-2-deoxyuridine (BrdU) incorporation and alkaline phosphatase (AP) staining. Furthermore, its effects on maintenance of the undifferentiated state of mGSCs in late passages of cultures, as well as the capacity of mGSCs to differentiate into embryoid bodies (EBs) were examined. The presence of BIO increased the mitosis index and the number of AP positive colonies, as well as expression of pluripotent markers, Oct4, Nanog, Sox2, C-myc, Klf4, E-cadherin, and the proliferative markers, Pcna and C-myc. In contrast, there was no significant change in expression of apoptosis markers, P53, P21 and cyclin-related genes (Cyclin A, CDK2, Cyclin D1), as determined by RT-PCR analysis. When mGSCs were cultured in mTeSR medium containing BIO, EBs were formed, which were capable of further differentiating into various cell types found in the three embryonic germ layers, as determined by immunofluorescence and/or histologic staining. In conclusion, adding BIO to cultures BIO significantly promoted establishment of goat mGSC colonies and maintained their undifferentiated state.     

Conservation and function of Dazl in promoting the meiosis of goat male germline stem cells

Dazl (deleted in azoospermia-like) is a conserved gene in mammalian meiosis, which encodes RNA binding protein required for spermatocyte meiosis. Up to date, the expression and function of Dazl in the goat testis are unknown. The objectives of this study were to investigate the expression pattern of Dazl in dairy goat testis and their function in male germline stem cells (mGSCs). The results first revealed that the expression level of Dazl in adult testes was significantly higher than younger and immature goats, and azoospermia and male intersex testis. The dairy goat Dazl is highly conserved analysed by several online and bioinformatics software, respectively. Over-expression of Dazl promoted the expression of meiosis-related genes in dairy goat mGSCs. The expression of Stra8 was up-regulated by over-expression of Dazl analysed by Luciferase reporter assay. Taken together, results suggest the Dazl plays an important role in dairy goat spermatogenesis and that over-expression of Dazl may promote Stra8 expression in dairy goat mGSCs.     

PLZF与哺乳动物雄性生殖干细胞的发育分化

早幼粒细胞白血病锌指蛋白（promyelocytic leukemia zinc finger,PLZF）,也被称为ZBTB16(zinc finger and BTB domain containing 16,ZBTB16)或锌指蛋白145(zinc finger protein 145,ZFP145),是我国学者发现与人类疾病相关的蛋白质.人类PLZF的是由673个氨基酸残基组成的转录抑制因子,属于蛋白质超家族. 该超家族以N端的BTB/POZ（bric-à-brac, tramtrack, brad complex(BTB)/poxvirus zinc finger (POZ) domain）结构为特征. PLZF蛋白的BTB/POZ结构与个体发育、胚胎发生、染色体的重构等事件相关.近年发现,PLZF在哺乳动物雄性生殖干细胞（male germline stem cells,mGSCs）发育分化过程中也发挥重要作用.探讨PLZF的生物学功能和作用机制,将有助于理解其在mGSCs发育过程中的重要作用. 本文就PLZF在维持mGSCs自我更新和在发育分化调控中的作用给予综述.     

Expression of miR‐34c in response to overexpression of Boule and Stra8 in dairy goat male germ line stem cells (mGSCs)

Reproduction is required for the survival of all mammalian animals. Spermatogenesis is an essential and complex developmental process that ultimately results in production of haploid spermatozoa. Recent studies demonstrated that Boule and stimulated by retinoic acid 8 (Stra8) played important roles in initiation meiosis in male germ cells. miR‐34c is indispensable in the late steps of spermatogenesis; remarkably, the main function of miR‐34c is to reduce cell proliferation potentiality and promote cellular apoptosis. The objectives of this study were to investigate the expression patterns of Boule, Stra8, P53 and miR‐34c in dairy goat testis and their relationship in male germ line stem cells (mGSCs). The results first revealed the expression patterns of Boule, Stra8, P53 and miR‐34c in 30 dpp, 90 dpp and adult testes of dairy goats. The expression levels of Boule, Stra8, P53 and miR‐34c in adult dairy goat testes were significantly higher than that of 30 dpp. Overexpression of Boule and Stra8 promoted the expression of miR‐34c in dairy goat mGSCs. In our previous study, we showed that miR‐34c was P53 dependent in mGSCs. These results have shown that the up‐regulation of miR‐34c was not due to P53 protein activation but which might be caused by the up‐regulation of Boule and Stra8 promoting the advance of meiosis. In addition, we found retinoic acid would decrease the expression of P53 and miR‐34c, however, did not change the expression of c‐Myc greatly. It suggested that the function of driving differentiation of dairy goat mGSCs by retinoic acid might not be caused by P53. Copyright © 2013 John Wiley & Sons, Ltd.     

Autonomous differentiation of Drosophila spermatogonia in vitro

Spermatogenesis is a complex process that produces functional sperm by establishing male germline stem cells (mGSCs) in adult testes. To study Drosophila spermatogenesis in vitro , we examined various culture conditions of spermatogonia. Spermatogonia from larval testes began to differentiate soon after culture, whereas mGSCs did not undergo self-renewal division. Strikingly, 16-cell spermatogonia from early and late larval testes differentiated into motile spermatids autonomously. Furthermore, individual spermatogonia developed into motile spermatids even after mechanical dissociation from encapsulating cyst cells. This is the first study to report that spermatogonia in larval testes retain the ability to differentiate into spermatids in the absence of gonadal tissue. Our in vitro system should provide an excellent opportunity to study spermatogenesis in detail and apply genetic manipulation.