生物技术通讯
生物技術通訊
생물기술통신
LETTERS IN BIOTECHNOLOGY
2014年
1期
87-90
,共4页
胡培%王小莉%李东升%严世荣%陈玲%杨晓文
鬍培%王小莉%李東升%嚴世榮%陳玲%楊曉文
호배%왕소리%리동승%엄세영%진령%양효문
人脐带间充质干细胞%原代培养%分离鉴定
人臍帶間充質榦細胞%原代培養%分離鑒定
인제대간충질간세포%원대배양%분리감정
human umbilical cord mesenchymal stem cells%primary culture%cell isolation and identification
目的:建立并优化人脐带间充质干细胞分离纯化方法,并对其表面标志与多向分化潜能进行鉴定。方法:收集健康足月产胎儿脐带组织,采用组织块贴壁法进行原代培养,流式细胞仪对其表面标志进行检测,通过向成骨成脂分化对其多向分化潜能进行鉴定,RT-PCR对其干细胞特性基因Oct4、Nanog、Sox2、Nestin进行检测。结果:采用组织块贴壁法可在2周左右获得大量间充质干细胞,培养的细胞经流式细胞仪检测,高表达CD29、CD44、CD105、CD106,低表达CD34、CD45;经成骨成脂诱导2周后可分化为成骨细胞和成脂细胞,RT-PCR检测发现原代细胞表达Oct4、Nanog、Sox2、Nestin基因。结论:人脐带间充质干细胞可在体外扩增培养,具有多向分化潜能,可作为组织工程种子细胞来源。
目的:建立併優化人臍帶間充質榦細胞分離純化方法,併對其錶麵標誌與多嚮分化潛能進行鑒定。方法:收集健康足月產胎兒臍帶組織,採用組織塊貼壁法進行原代培養,流式細胞儀對其錶麵標誌進行檢測,通過嚮成骨成脂分化對其多嚮分化潛能進行鑒定,RT-PCR對其榦細胞特性基因Oct4、Nanog、Sox2、Nestin進行檢測。結果:採用組織塊貼壁法可在2週左右穫得大量間充質榦細胞,培養的細胞經流式細胞儀檢測,高錶達CD29、CD44、CD105、CD106,低錶達CD34、CD45;經成骨成脂誘導2週後可分化為成骨細胞和成脂細胞,RT-PCR檢測髮現原代細胞錶達Oct4、Nanog、Sox2、Nestin基因。結論:人臍帶間充質榦細胞可在體外擴增培養,具有多嚮分化潛能,可作為組織工程種子細胞來源。
목적:건립병우화인제대간충질간세포분리순화방법,병대기표면표지여다향분화잠능진행감정。방법:수집건강족월산태인제대조직,채용조직괴첩벽법진행원대배양,류식세포의대기표면표지진행검측,통과향성골성지분화대기다향분화잠능진행감정,RT-PCR대기간세포특성기인Oct4、Nanog、Sox2、Nestin진행검측。결과:채용조직괴첩벽법가재2주좌우획득대량간충질간세포,배양적세포경류식세포의검측,고표체CD29、CD44、CD105、CD106,저표체CD34、CD45;경성골성지유도2주후가분화위성골세포화성지세포,RT-PCR검측발현원대세포표체Oct4、Nanog、Sox2、Nestin기인。결론:인제대간충질간세포가재체외확증배양,구유다향분화잠능,가작위조직공정충자세포래원。
Objective: To establish and optimize the method of isolation of human mesenchymal stem cells (MSC) and identify their surface markers and mulitidifferentiation ability. Methods: The MSC were isolated from neonate umbilical cord, cultured by tissue explants adherent method. The surface markers were identified by flow cytometry, multi-differentiation capacity was identified by osteogenic and adipogenic differentiation, stem cell mark-er gene Oct4, Nanog, Sox2 and Nestin were detected by RT-PCR. Results: A substantial number of MSC can be harvested using the tissue explants adherent method at about two weeks, CD29, CD44, CD105 and CD106 highly expressed, while CD34, CD45 weakly expressed on the cells surface through the detection of flow cytometry, after induction for 2 weeks. These cells can differentiated into adipogenic and osteogenic cells. RT-PCR results showed that these cells expressed Oct4, Nanog, Sox2 and Nestin. Conclusion: The human umbilical cord MSC can be cul-tured and proliferated in vitro, these cells can be used as a new source of tissue engineering due to their capaci-ty of multidifferentiation.
