解剖学杂志
解剖學雜誌
해부학잡지
CHINESE JOURNAL OF ANATOMY
2008年
4期
474-479
,共6页
陈永珍%张于娟%朱旻%张苏
陳永珍%張于娟%硃旻%張囌
진영진%장우연%주민%장소
人胚胎生殖干细胞%细胞移植%心肌梗死
人胚胎生殖榦細胞%細胞移植%心肌梗死
인배태생식간세포%세포이식%심기경사
human embryonic germ stem cell%cell transplantation%myocardial infarction
目的:探讨直接注射移植人胚胎生殖干细胞对大鼠心肌梗死的影响.方法:缝扎SD大鼠左冠状动脉前降支,建立心肌梗死模型.取5~10周人胚胎生殖腺嵴,组织块体外培养,生物学鉴定为人胚胎生殖干细胞(hEG).将其直接注射于大鼠急性心肌梗死边缘.于移植后1 d、1、2、4周处死大鼠,免疫组织化学方法观察心肌特异转录因子GATA-4和抗人细胞核抗体MAB1281在移植细胞的表达.结果:免疫组织化学显示移植组MAB1281检测阳性,GATA-4在移植细胞阳性表达.结论:hEG细胞直接注射移植大鼠心肌梗死处,细胞能存活并呈现向心肌细胞分化的表现,显示出正常心肌细胞的光镜结构.
目的:探討直接註射移植人胚胎生殖榦細胞對大鼠心肌梗死的影響.方法:縫扎SD大鼠左冠狀動脈前降支,建立心肌梗死模型.取5~10週人胚胎生殖腺嵴,組織塊體外培養,生物學鑒定為人胚胎生殖榦細胞(hEG).將其直接註射于大鼠急性心肌梗死邊緣.于移植後1 d、1、2、4週處死大鼠,免疫組織化學方法觀察心肌特異轉錄因子GATA-4和抗人細胞覈抗體MAB1281在移植細胞的錶達.結果:免疫組織化學顯示移植組MAB1281檢測暘性,GATA-4在移植細胞暘性錶達.結論:hEG細胞直接註射移植大鼠心肌梗死處,細胞能存活併呈現嚮心肌細胞分化的錶現,顯示齣正常心肌細胞的光鏡結構.
목적:탐토직접주사이식인배태생식간세포대대서심기경사적영향.방법:봉찰SD대서좌관상동맥전강지,건립심기경사모형.취5~10주인배태생식선척,조직괴체외배양,생물학감정위인배태생식간세포(hEG).장기직접주사우대서급성심기경사변연.우이식후1 d、1、2、4주처사대서,면역조직화학방법관찰심기특이전록인자GATA-4화항인세포핵항체MAB1281재이식세포적표체.결과:면역조직화학현시이식조MAB1281검측양성,GATA-4재이식세포양성표체.결론:hEG세포직접주사이식대서심기경사처,세포능존활병정현향심기세포분화적표현,현시출정상심기세포적광경결구.
Objective: To investigate the effect of transplantation of human embryonic germ stem cells (hEG) on the acute myocardial infarction (AMI) rats. Methods: 40 AMI SD rats were randomly divided into two groups: transplantation group and control group. An AMI model was established by occluding the left anterior descending branch of the coronary artery in SD rats. Human embryonic germ stem cells (hEG) were obtained by tissue culturing of embryonic genital ridges and mesen- teries from the embryos aged 5 to 10 weeks. The hEG were injected into myocardium. The hearts were collected at 1 day, 1 week, 2 weeks and 4 weeks after transplantation. A monoclonal antibody specific to human cellular nuclei (MAB1281) was used to identify bEG and to observe the survival, migration and distribution of transplanted cells,and the expression of GA-TA-4 was detected to check up the differentiation of transplanted cells. Results. Immunocytochemistry showed that the transplantation cells highly expressed GATA-4 and MAB1281. The natural structure of cardiac muscle were obtained by H-E stain. Conclusion: hEG transplanted into rats' myocardium can live and differentiate into cardiomyocytes.