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1.
目的:比较人皮肤成纤维细胞(humandermalfibroblasts,HDFs)与小鼠胚胎成纤维细胞(Mouseembryonicfibroblasts,MEFs)的增殖能力及研究人皮肤成纤维细胞作为饲养层支持人胚胎干细胞(humanembryonicstemcells,hESCs)未分化生长的能力。方法:利用组织贴壁法从人皮肤中分离出HDFs,通过细胞形态的观察和生长曲线的绘制比较HDFs与MEFs的体外增殖能力。将HDFs作为饲养层细胞与hESCs共培养,传代12代后,检测hESCs碱性磷酸酶(AKP)、表面特异性标志及胚胎干细胞特异性转录因子。结果:HDFs可连续传代培养15代以上,10代以下的HDFs增殖迅速,而MEFs自第4代起,增殖能力就明显下降;hESCs在HDFs饲养层上可传代培养12代以上,克隆边界清晰,细胞排列紧密,碱性磷酸酶、表面标志物检测均呈阳性,表达了hESCs特异性转录因子。结论:HDFs比MEFs具有更强的增殖能力;HDFs可作为培养hEscs的饲养层细胞。  相似文献   

2.
人孤雌胚胎干细胞(human parthenogenetic embryonic stem cells,hPESCs)体外培养常需饲养层的支持以保持干细胞特性.通过原代培养获得人包皮成纤维细胞(human foreskin fibroblasts,hFFs)并将其制备成饲养层,使hPESCs在hFFs上进行体外培养及传代.倒置显微镜下观察hPESCs的生长状态,采用碱性磷酸酶(alkalinephosphatase,AKP)检测、核型分析和体内分化实验研究hPESCs的生物学特性及分化潜能,以探索hFFs能否长期支持hPESCs的生长并维持其未分化状态.经原代培养成功获得了hFFs,通过形态学观察和免疫细胞化学染色鉴定符合成纤维细胞的生物学特性;在hFFs上生长的hPESCs克隆形态规则,不易分化;已成功在体外培养20余代,hPESCs仍能够保持基本生物学特性和正常核型,在裸鼠体内可形成含有3个胚层组织成分的畸胎瘤.作为人源性饲养层,hFFs可长期支持hPESCs的生长并维持其未分化状态.  相似文献   

3.
人胚胎干细胞(human embryonic stem cells.hESCs)的培养一直是干细胞研究的重要内容.用本实验室独立建系的两株hESCs,建立3种不同的培养体系:小鼠胚胎成纤维细胞(mouse embryonic fibroblasts,MEFs)做饲养层,永生化人成纤维细胞(immortalized human adult fibroblasts,HAFi)做饲养层,无饲养层条件培养基培养体系(condition medium,CM),观察在3种培养体系中,干细胞的增殖和分化情况.发现3种培养体系中的hESCs都可以表达一致的生物学特性,但也有不同之处,相对于CM干细胞在MEFs和HAFi饲养层体系的分化率低,增殖快;但MEFs来源于鼠类是异源细胞,HAFi虽不舍鼠源性成分却繁殖很慢;无饲养层的体系便于操作,无外源细胞存在.实验所得出的结果可以引导研究人员针对于临床、科研不同的需要,选择最适合的培养体系.  相似文献   

4.
人胚胎干细胞(human embryonic stem cells,hESCs)由囊胚期胚胎内细胞团分离培养获得,具有保持未分化状态的无限增殖能力。hESCs具有多向分化潜能,在体内和体外均可分化形成所有三个胚层(外胚层、中胚层、内胚层)的衍生物。hESCs一般在鼠胚胎成纤维细胞(mouse embryonic fibroblast,MEF)饲养层上培养和扩增。为了优化培养条件,目前人们已发展了多种人类细胞饲养层和无饲养层、非条件培养基体系。hESCs可以在体外定向诱导分化为多种细胞类型,为揭示人胚早期发育机制和发展多种疾病的细胞移植治疗奠定了基础。hESCs可以在体外进行遗传修饰,将有助于揭示特定基因在发育过程中的调控和功能。对hESCs的深入研究将极大地推动医学和生命科学的进展,并将最终应用于临床,造福人类。  相似文献   

5.
目的开发一种新的培养人胚胎干细胞(hESCs)的包被基质,使hESCs的培养更加简便。方法用甲醇固定的小鼠胚胎成纤维细胞(MEF)作为包被基质,人胚胎干细胞系X-01在该基质上生长,每隔5~6 d传代一次,培养10代后,对人胚胎干细胞特性进行检测,包括细胞形态、碱性磷酸酶染色、相关多能性基因的表达和分化能力。结果 hESCs在新的基质上生长良好,经10次传代后仍能保持典型的hESCs克隆形态。碱性磷酸酶染色阳性,免疫荧光染色Oct4、SSEA4、Tra-1-60为阳性,体外分化可形成拟胚体。结论此种固定的基质可以大量制备,长期保存,并可以长期维持hESCs的未分化状态,为人胚胎干细胞的体外扩增探索出了一个新的途径。  相似文献   

6.
昆明小鼠胚胎干细胞滋养层制备条件的实验研究   总被引:1,自引:0,他引:1  
目的:建立小鼠胚胎成纤维细胞(MEFS)滋养层,用于昆明小鼠胚胎干细胞的培养。方法:取妊娠13.5的胎鼠,采用组织消化法分离培养出原代成纤维细胞,对MEFs的生长形态、生长曲线及分裂指数进行观察;MTT法筛选丝裂霉素C(MMC)作用的最佳浓度和时间;取妊娠3.5d的囊胚在经MMC处理的饲养层上培养,观察胚胎干细胞集落生成情况。结果:MEFS为一种贴壁生长且增殖速度较快的细胞,第三代细胞增殖旺盛,第5代以后细胞开始变形并趋于衰老;MMC能抑制胚胎成纤维细胞的增殖,最佳的作用浓度和时间是10ug/ml作用2.5~4h,20ug/ml作用1-2.5h。妊娠3.5d小鼠囊胚在饲养层上培养能形成典型的"鸟巢"状干细胞集落,并可维持胚胎干细胞的正常形态且不发生分化。结论:这种方法制备的滋养细胞层适用于胚胎干细胞的培养。  相似文献   

7.
鸡胚胎生殖细胞在鼠胚成纤维细胞饲养层上的生长   总被引:1,自引:0,他引:1  
目的:探讨以鼠胚成纤维细胞为饲养层分离、培养鸡胚胎生殖细胞的方法和条件。方法:分离、培养12.5~13.5d鼠胚成纤维细胞。分离孵化5.5d鸡胚原始生殖细胞,原代培养时不使用饲养层,与性腺基质细胞共培养;继代培养时将其置于鼠胚成纤维细胞饲养层上,在含生长因子、分化抑制因子的培养体系中培养胚胎生殖细胞。结果:鼠胚成纤维细胞可连续传代18代以上(4个月),3~15代细胞可以用作饲养层细胞。分离的鸡胚胎生殖细胞在饲养层上可增殖形成典型胚胎生殖细胞集落,并能连续在体外培养超过9代。集落未分化标志高碘酸希夫反应(PAS)呈强阳性,体外分化实验表明胚胎生殖细胞具有多能性。结论:用鼠胚成纤维细胞作为饲养层能获得可连续增殖的胚胎生殖细胞。  相似文献   

8.
目的 用饲养层分离胚胎干细胞集落。方法 用胚龄为13~14 d的小鼠胚胎分离原代成纤维细胞,制成饲养层,用于囊胚的培养。结果 小鼠原代胚胎成纤维细胞(PMEF)贴壁能力较好,增殖快,易铺层。囊胚和内细胞团(ICM)在饲养层上贴壁生长良好,当培养4~5 d时,其增殖率为16/28(57%)。在ICM离散48 h后,各种胚胎干细胞(ES)集落开始出现。此种集落经碱性磷酸酶染色成阳性。结论 用饲养层分离胚胎干细胞获得初步成功。  相似文献   

9.
目的:建立一种从废弃胚胎中提高囊胚形成率和质量的培养体系,寻找多种促进内细胞团(ICM)数目增多、贴壁、增值的方法,提高人胚胎干细胞(human embryonic stem cell,hESC)建系效率,建立人胚胎干细胞库。方法:将179枚IVFDay3废弃的胚胎放入优选培养体系中培养(G2.5培养液中添加10%人血清蛋白,人白细胞抑制生长因子(hLIF),碱性成纤维细胞生长因子(bFGF))。到Day7将形成的囊胚全部用机械法分离ICM,接种于丝裂霉素C灭活处理的原代小鼠胚胎成纤维细胞(MEF)上,培养8-9天,每4-5天传代1次。结果:优选培养体系的囊胚形成率为29.1%(52/179),其中A级囊胚形成率为11.2%(20/179),50个ICM贴壁生长,20个出现克隆形态,成功建立11株hESC(FY-hES-11至FY-hES-21)。11株hESC均具有共同的多能性生物学特性。结论:优选培养体系可以明显提高囊胚形成的质量,促进ICM的增值,纯熟的机械切割法可以避免损伤ICM并提高其贴壁率,原代灭活的MEF饲养层可以明显促进细胞增殖。  相似文献   

10.
目的探索和建立西藏小型猪胚胎成纤维细胞体外分离培养及性别鉴定的技术方法。方法取35d的西藏小型猪胚胎分离胚胎成纤维细胞,进行体外原代培养及传代培养,观察细胞成纤维细胞的形态和生长状况。根据猪Y染色体上性别决定基因SRY设计引物进行性别鉴定,同时以β珠蛋白作为内参基因,建立PCR反应体系鉴别胚胎的性别。结果西藏小型猪胚胎成纤维体外分离后,呈贴壁生长,快速增殖。PCR性别鉴定结果表明雄性胚胎细胞可扩增出一特异性SRY基因条带,而雌性则没有。该法可快速鉴定胚胎的性别,可用于体细胞克隆动物早期性别鉴定。结论研究结果表明利用胶原酶消化法所获得的西藏小型猪胚胎成纤维细胞可在体外稳定培养并传代,利用PCR鉴定猪胎儿性别具有简单、快速、准确的特点,可应用于克隆猪研究中体细胞系的早期性别鉴定。  相似文献   

11.
The conventional method for the derivation of human embryonic stem cells (hESCs) involves inner cell mass (ICM) co-culture with a feeder layer of inactivated mouse or human embryonic fibroblasts in an in vitro fertilisation culture dish. Growth factors potentially involved in primary derivation of hESCs may be lost or diluted in such a system. We established a microdrop method which maintained feeder cells and efficiently generated hESCs. Embryos were donated for stem cell research after fully informed patient consent. A feeder cell layer was made by incubating inactivated mouse embryonic fibroblasts (MEFs) feeder cells in a 50 μl drop of medium (DMEM/10% foetal calf serum) under mineral oil in a small tissue culture dish. MEFs formed a confluent layer and medium was replaced with human embryonic stem medium supplemented with 10% Plasmanate (Bayer) and incubated overnight. Cryopreserved embryos were thawed and cultured until the blastocyst stage and the zona pellucida removed with pronase (2 mg/ml; Calbiochem). A zona-free intact blastocyst was placed in the feeder microdrop and monitored for ES derivation with medium changed every 2-3 d. Proliferating hESCs were passaged into other feeder drops and standard feeder preparation by manual dissection until a stable cell line was established. Six hESC lines (Shef 3-8) were derived. From a total of 46 blastocysts (early to expanded), five hESC lines were generated (Shef 3-7). Shef 3-6 were generated on MEFs from 25 blastocysts. Shef7 was generated on human foetal gonadal embryonic fibroblasts from a further 21 blastocysts. From our experience, microdrop technique is more efficient than conventional method for derivation of hESCs and it is much easier to monitor early hESC derivation. The microdrop method lends itself to good manufacturing practice derivation of hESCs.  相似文献   

12.
13.
Human embryonic stem cells (hESCs) can serve as an unlimited cell source for cellular transplantation and tissue engineering due to their prolonged proliferation capacity and their unique ability to differentiate into derivatives of all three-germ layers. In order to reliably and safely produce hESCs, use of reagents that are defined, qualified, and preferably derived from a non-animal source is desirable. Traditionally, mouse embryonic fibroblasts (MEFs) have been used as feeder cells to culture undifferentiated hESCs. We recently reported a scalable feeder-free culture system using medium conditioned by MEFs. The base and conditioned medium (CM) still contain unknown bovine and murine-derived components, respectively. In this study, we report the development of a hESC culture system that utilizes a commercially available serum-free medium (SFM) containing human sourced and recombinant proteins supplemented with recombinant growth factor(s) and does not require conditioning with feeder cells. In this system, which employs human laminin coated surface and high concentration of hbFGF, the hESCs maintained undifferentiated hESC morphology and had a twofold increase in expansion compared to hESCs grown in MEF-CM. The hESCs also expressed surface markers SSEA-4 and Tra-1-60 and maintained expression of hTERT, Oct4, and Cripto genes similar to cells cultured in MEF-CM. In addition, hESCs maintained in this culture system were able to differentiate in vitro and in vivo into cells of all three-germ layers. The cells maintained a normal karyotype after prolonged culture in SFM. In summary, this study demonstrates that the hESCs cultured in defined non-conditioned serum-free medium (NC-SFM) supplemented with growth factor(s) retain the characteristics and replicative potential of hESCs. The use of defined culture system with NC-SFM on human laminin simplifies scale-up and allows for reproducible generation of hESCs under defined and controlled conditions that would serve as a starting material for production of hESC derived cells for therapeutic use.  相似文献   

14.
While microRNAs have been shown to copurify with polysomes, their relative fraction in the translation pool (polysome occupancy) has not yet been measured. Here, we introduce a high-throughput method for quantifying polysome occupancies of hundreds of microRNAs and use it to investigate factors affecting these occupancies. Analysis in human embryonic stem cells (hESCs) and foreskin fibroblasts (hFFs) revealed microRNA-specific preferences for low, medium, or high polysome occupancy. Bioinformatics and functional analysis based on overexpression of endogenous and chimeric microRNAs showed that the polysome occupancy of microRNAs is specified by its mature sequence and depends on the choice of seed. Nuclease treatment further suggested that the differential occupancy of the microRNAs reflects interactions with their mRNA targets. Indeed, analysis of microNRA•mRNA duplexes showed that pairs involving high occupancy microRNAs exhibit significantly higher binding energy compared to pairs with low occupancy microRNAs. Since mRNAs reside primarily in polysomes, strong interactions lead to high association of microRNAs with polysomes and vice versa for weak interactions. Comparison between hESCs and hFFs data revealed that hESCs tend to express lower occupancy microRNAs, suggesting that cell type–dependent translational features may be affected by expression of a particular set of microRNAs.  相似文献   

15.
Conventionally, mouse embryonic fibroblasts (MEFs) inactivated by mitomycin C or irradiation were applied to support the self-renew and proliferation of human embryonic stem cells (hESCs). To avoid the disadvangtages of mitomycin C and irradiation, here MEFs were treated by ethanol (ET). Our data showed that 10% ET-inactivated MEFs (eiMEFs) could well maintain the self-renew and proliferation of hESCs. hESCs grown on eiMEFs expressed stem cell markers of NANOG, octamer-binding protein 4 (OCT4), stage-specific embryonic antigen-4 (SSEA4) and tumour related antigen-1-81 (TRA-1-81), meanwhile maintained normal karyotype after long time culture. Also, hESCs cocultured with eiMEFs were able to form embryoid body (EB) in vitro and develop teratoma in vivo. Moreover, eiMEFs could keep their nutrient functions after long time cryopreservation. Our results indicate that the application of eiMEF in hESCs culture is safe, economical and convenient, thus is a better choice.  相似文献   

16.
The culture of human embryonic stem cells (hESCs) is limited, both technically and with respect to clinical potential, by the use of mouse embryonic fibroblasts (MEFs) as a feeder layer. The concern over xenogeneic contaminants from the mouse feeder cells may restrict transplantation to humans and the variability in MEFs from batch-to-batch and laboratory-to-laboratory may contribute to some of the variability in experimental results. Finally, use of any feeder layer increases the work load and subsequently limits the large-scale culture of human ES cells. Thus, the development of feeder-free cultures will allow more reproducible culture conditions, facilitate scale-up and potentiate the clinical use of cells differentiated from hESC cultures. In this review, we describe various methods tested to culture cells in the absence of MEF feeder layers and other advances in eliminating xenogeneic products from the culture system.  相似文献   

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