中华小儿外科杂志
中華小兒外科雜誌
중화소인외과잡지
CHINESE JOURNAL OF PEDIATRIC SURGERY
2014年
7期
509-513
,共5页
潘伟康%郑百俊%高亚%段怡涛%李鹏%黄强%王怀杰%龚伟
潘偉康%鄭百俊%高亞%段怡濤%李鵬%黃彊%王懷傑%龔偉
반위강%정백준%고아%단이도%리붕%황강%왕부걸%공위
先天性巨结肠%细胞移植%神经嵴
先天性巨結腸%細胞移植%神經嵴
선천성거결장%세포이식%신경척
Hirschsprung's disease%Cell transplantation%Neural crest
目的 观察表皮生长因子(EGF)、碱性成纤维细胞生长因子(bFGF)对人肠神经嵴前体细胞(hENCP)在体外增殖和分化能力的影响,对人ENCP的体外分离培养、传代以及分化特点等基础研究进行探索,为巨结肠患儿自体细胞移植治疗提供实验依据.方法 收集胎龄>8周非药物流产胎儿,消化后制成单细胞悬液,体外培养3、5、7d后分别观察hENCP在不同生长因子作用下形成的克隆球数量、体积.MTT法观察hENCP在1周内OD值变化曲线.荧光免疫组织化学法p75NTR(鉴定hENCP)、peripherin(鉴定肠神经元)、GFAP(鉴定胶质细胞)抗体染色.结果 能够从胎儿肠壁分离出少量细胞,经体外培养增殖形成克隆球.bFGF联合EGF培养下hENCP的克隆球数量、体积在各个时间点均明显大于单独添加EGF (P<0.01)或bFGF培养的克隆球(P<0.01).bFGF+ EGF联合培养的hENCP OD值在各时间点均高于其他各组.克隆球中含有p75NTR免疫阳性细胞(hENCP),并在体外血清诱导下可分化为peripherin免疫阳性细胞(肠神经元)、GFAP免疫阳性细胞(神经胶质细胞).bFGF组分化为神经元的百分率明显高于其他各组(P<0.01),EGF组分化为神经胶质细胞的百分率明显高于其他各组(P<0.01).结论 人胚肠壁中存在具有自我更新能力的ENCP,其在体外可分化为神经元和神经胶质细胞.EGF+ bFGF对hENCP有明显的促进增殖作用,bFGF、EGF对体外定向诱导hENCP分化细胞类型具有不同促进作用.
目的 觀察錶皮生長因子(EGF)、堿性成纖維細胞生長因子(bFGF)對人腸神經嵴前體細胞(hENCP)在體外增殖和分化能力的影響,對人ENCP的體外分離培養、傳代以及分化特點等基礎研究進行探索,為巨結腸患兒自體細胞移植治療提供實驗依據.方法 收集胎齡>8週非藥物流產胎兒,消化後製成單細胞懸液,體外培養3、5、7d後分彆觀察hENCP在不同生長因子作用下形成的剋隆毬數量、體積.MTT法觀察hENCP在1週內OD值變化麯線.熒光免疫組織化學法p75NTR(鑒定hENCP)、peripherin(鑒定腸神經元)、GFAP(鑒定膠質細胞)抗體染色.結果 能夠從胎兒腸壁分離齣少量細胞,經體外培養增殖形成剋隆毬.bFGF聯閤EGF培養下hENCP的剋隆毬數量、體積在各箇時間點均明顯大于單獨添加EGF (P<0.01)或bFGF培養的剋隆毬(P<0.01).bFGF+ EGF聯閤培養的hENCP OD值在各時間點均高于其他各組.剋隆毬中含有p75NTR免疫暘性細胞(hENCP),併在體外血清誘導下可分化為peripherin免疫暘性細胞(腸神經元)、GFAP免疫暘性細胞(神經膠質細胞).bFGF組分化為神經元的百分率明顯高于其他各組(P<0.01),EGF組分化為神經膠質細胞的百分率明顯高于其他各組(P<0.01).結論 人胚腸壁中存在具有自我更新能力的ENCP,其在體外可分化為神經元和神經膠質細胞.EGF+ bFGF對hENCP有明顯的促進增殖作用,bFGF、EGF對體外定嚮誘導hENCP分化細胞類型具有不同促進作用.
목적 관찰표피생장인자(EGF)、감성성섬유세포생장인자(bFGF)대인장신경척전체세포(hENCP)재체외증식화분화능력적영향,대인ENCP적체외분리배양、전대이급분화특점등기출연구진행탐색,위거결장환인자체세포이식치료제공실험의거.방법 수집태령>8주비약물유산태인,소화후제성단세포현액,체외배양3、5、7d후분별관찰hENCP재불동생장인자작용하형성적극륭구수량、체적.MTT법관찰hENCP재1주내OD치변화곡선.형광면역조직화학법p75NTR(감정hENCP)、peripherin(감정장신경원)、GFAP(감정효질세포)항체염색.결과 능구종태인장벽분리출소량세포,경체외배양증식형성극륭구.bFGF연합EGF배양하hENCP적극륭구수량、체적재각개시간점균명현대우단독첨가EGF (P<0.01)혹bFGF배양적극륭구(P<0.01).bFGF+ EGF연합배양적hENCP OD치재각시간점균고우기타각조.극륭구중함유p75NTR면역양성세포(hENCP),병재체외혈청유도하가분화위peripherin면역양성세포(장신경원)、GFAP면역양성세포(신경효질세포).bFGF조분화위신경원적백분솔명현고우기타각조(P<0.01),EGF조분화위신경효질세포적백분솔명현고우기타각조(P<0.01).결론 인배장벽중존재구유자아경신능력적ENCP,기재체외가분화위신경원화신경효질세포.EGF+ bFGF대hENCP유명현적촉진증식작용,bFGF、EGF대체외정향유도hENCP분화세포류형구유불동촉진작용.
Objective To isolate and culture human enteric neural crest progenitors (hENCP) from human enteric muscular layer in vitro and observe the effects of growth factors EGF and bFGF effect on the proliferation of HENCP so as to provide experimental rationales for therapy of Hirschsprung' s disease using autonomous cells.Methods The gut muscular layer in non drug aborted fetus was stripped from the muscular layer under microscope.After digestion,single cells were seeded into serum free medium with bFGF or bFGF + EGF to observe the size and amount of neurospheres at Days 3,5,7 and observe the curve of optic density (OD) value in 1 week by methyl thiazolyl tetrazolium (MTT).After an addition of 10% fetal bovine sera,neurospheres and differentiated cells were identified with immunofluorescent staining of p75NTR,peripherin and GFAP.Results Few cells could be separated from interstitial muscle in human embryo gut and formed neurospheres in simplified serum free medium.There were significant differences between proliferation and number of hENCP cultured with bFGF+ EGF and bFGF (P<0.01) or EGF (P<0.01).The staining of neurospheres and their derivatives indicated neurospheres could generate neurons,glial cells under serum induction in vitro.The percentage of differentiation into neuron in bFGF group was significantly higher than that in other groups (P<0.01).The percentage of differentiation into glial cells in EGF group was significantly higher than that in other groups (P<0.01).Conclusions With the capacities of self renew and proliferation,hENCP exists in human embryonic gut.After isolation and culturing in vitro,hENCP can differentiate into neurons and glial cells essential for enteric nerve system.EGF + bFGF may significantly promote the proliferation of hENCP.And EGF and bFGF may affect cell types differentiated from hENCP.
