中华消化外科杂志
中華消化外科雜誌
중화소화외과잡지
CHINESE JOURNAL OF DIGESTIVE SURGERY
2009年
3期
204-208
,共5页
张伟%陈孝平%项帅%张峰%董汉华%张磊%陈琳%张万广
張偉%陳孝平%項帥%張峰%董漢華%張磊%陳琳%張萬廣
장위%진효평%항수%장봉%동한화%장뢰%진림%장만엄
卵圆细胞%端粒酶%细胞分离%鉴定
卵圓細胞%耑粒酶%細胞分離%鑒定
란원세포%단립매%세포분리%감정
Oval cell%Telomerase%Cell separation%Identification
目的 检测大鼠肝卵圆细胞端粒酶活性,探讨端粒酶表达与卵圆细胞增殖分化的关系.方法 采用2-AAF/PH模型诱导大鼠卵圆细胞增殖,改良的胶原酶灌注结合密度梯度离心法分离,用细胞免疫荧光和电镜鉴定卵圆细胞.采用免疫组织化学、RT-PCR、荧光定量PCR等方法检测卵圆细胞端粒酶的表达,组间比较采用t检验分析其意义.结果 采用2-AAF/PH模型成功诱导大鼠卵圆细胞增殖.分离的卵圆细胞核大,卵圆形,胞质少,呈铺路石样生长.电镜发现细胞核质比大,胞质内细胞器少且发育不成熟.细胞免疫荧光结果表达OV-6、AFP、CK-19、albumin、c-kit.端粒酶逆转录酶(TERT)表达在门静脉周围增殖的卵圆细胞核内,随着卵圆细胞逐渐向肝细胞方向分化,TERT阳性细胞数逐渐减少.大鼠正常肝组织TERT mRNA表达水平最高,为LE-6卵圆细胞的2.27倍;分离的卵圆细胞TERT mRNA表达水平为LE.6卵圆细胞的1.26倍;采用2μg和4μg细胞提取物分析细胞的端粒酶活性,随着LE-6卵圆细胞传代次数的增加,由24代传至40代,端粒酶活性由△A=1.05、1.15降低到△A=0.25、0.45(t=17.74,12.38,P<0.05).结论 卵圆细胞具有端粒酶活性,端粒酶可能是卵圆细胞维持其增殖能力和多分化潜能的一个必要条件.
目的 檢測大鼠肝卵圓細胞耑粒酶活性,探討耑粒酶錶達與卵圓細胞增殖分化的關繫.方法 採用2-AAF/PH模型誘導大鼠卵圓細胞增殖,改良的膠原酶灌註結閤密度梯度離心法分離,用細胞免疫熒光和電鏡鑒定卵圓細胞.採用免疫組織化學、RT-PCR、熒光定量PCR等方法檢測卵圓細胞耑粒酶的錶達,組間比較採用t檢驗分析其意義.結果 採用2-AAF/PH模型成功誘導大鼠卵圓細胞增殖.分離的卵圓細胞覈大,卵圓形,胞質少,呈鋪路石樣生長.電鏡髮現細胞覈質比大,胞質內細胞器少且髮育不成熟.細胞免疫熒光結果錶達OV-6、AFP、CK-19、albumin、c-kit.耑粒酶逆轉錄酶(TERT)錶達在門靜脈週圍增殖的卵圓細胞覈內,隨著卵圓細胞逐漸嚮肝細胞方嚮分化,TERT暘性細胞數逐漸減少.大鼠正常肝組織TERT mRNA錶達水平最高,為LE-6卵圓細胞的2.27倍;分離的卵圓細胞TERT mRNA錶達水平為LE.6卵圓細胞的1.26倍;採用2μg和4μg細胞提取物分析細胞的耑粒酶活性,隨著LE-6卵圓細胞傳代次數的增加,由24代傳至40代,耑粒酶活性由△A=1.05、1.15降低到△A=0.25、0.45(t=17.74,12.38,P<0.05).結論 卵圓細胞具有耑粒酶活性,耑粒酶可能是卵圓細胞維持其增殖能力和多分化潛能的一箇必要條件.
목적 검측대서간란원세포단립매활성,탐토단립매표체여란원세포증식분화적관계.방법 채용2-AAF/PH모형유도대서란원세포증식,개량적효원매관주결합밀도제도리심법분리,용세포면역형광화전경감정란원세포.채용면역조직화학、RT-PCR、형광정량PCR등방법검측란원세포단립매적표체,조간비교채용t검험분석기의의.결과 채용2-AAF/PH모형성공유도대서란원세포증식.분리적란원세포핵대,란원형,포질소,정포로석양생장.전경발현세포핵질비대,포질내세포기소차발육불성숙.세포면역형광결과표체OV-6、AFP、CK-19、albumin、c-kit.단립매역전록매(TERT)표체재문정맥주위증식적란원세포핵내,수착란원세포축점향간세포방향분화,TERT양성세포수축점감소.대서정상간조직TERT mRNA표체수평최고,위LE-6란원세포적2.27배;분리적란원세포TERT mRNA표체수평위LE.6란원세포적1.26배;채용2μg화4μg세포제취물분석세포적단립매활성,수착LE-6란원세포전대차수적증가,유24대전지40대,단립매활성유△A=1.05、1.15강저도△A=0.25、0.45(t=17.74,12.38,P<0.05).결론 란원세포구유단립매활성,단립매가능시란원세포유지기증식능력화다분화잠능적일개필요조건.
Objcctive To detect the telomerase activity in rat hepatic oval cells, and to explore the relationship between telomerase expression and the proliferation and differentiation of oval cells. Methods The 2-acetamidofluorene/partial bepatectomy (2-AAF/PH) rat model was used to induce the proliferation of oval cells. Oval cells were isolated by modified collagenase perfusion and gradient centrifugation. Electron microscope exami-nation and immunofluorescence were adopted to identify oval cells. Immunohistochemistry, RT-PCR and fluores-cence quantitative PCR were used to detect the expression of telomerase in oval cells. All the data collected were analyzed by t test. Results The proliferatiun of oval cells was successfully induced by 2-AAF/PH rat model. Freshly isolated oval cells showed a large and ovoid nuclei, a small proportion of cytomplasm and a cobblestone appearance. When viewed by electron microscopy, there were few and immature organelles, and the nucleus/ cytoplasm ratio was high. Immunofluorescence staining showed that oval cells expressed OV-6, alpha-fetoprotein, cytokeratin-19, albumin and c-kit. Telomerase reverse transcriptase (TERT) was located in the nuclei of oval cells which were around the portal areas. As oval cells differentiated into small hepatocytes, the number of TERT-positive cells decreased significantly. The expression level of TERT mRNA in normal rat liver tissue was 2.27 times higher than that in LE-6 oval cells; the expression level of TERT mRNA in the isolated oval cells was 1.26 times higher than that in LE-6 oval cells. The telomerase activity decreased gradually (from △A=1.05, 1.15 to △A=0.25, 0.45) as the increase of oval cells passage (from passage 24 to passage 40) (t=17.74, 12.38, P<0.05). Conclusions Oval cells have telomerase activity. Telomerase may be indispensable for maintaining the proliferative and multi-directional differentiation abilities of oval cells.
