中国组织工程研究
中國組織工程研究
중국조직공정연구
Journal of Clinical Rehabilitative Tissue Engineering Research
2015年
14期
2261-2266
,共6页
饶利佳%李启梦%李金铃%徐琼
饒利佳%李啟夢%李金鈴%徐瓊
요리가%리계몽%리금령%서경
干细胞%牙髓%细胞分化%牙再矿化
榦細胞%牙髓%細胞分化%牙再礦化
간세포%아수%세포분화%아재광화
Stem Cel s%Dental Pulp%Cel Differentiation%Tooth Remineralization
背景:DNA甲基胞嘧啶双加氧酶TET家族可将甲基胞嘧啶氧化为羟甲基胞嘧啶,参与机体DNA去甲基化,调控细胞增殖与分化,但其在牙髓细胞中的表达模式仍不清楚。目的:检测TET家族在牙髓细胞成牙本质分化过程中的表达模式。方法:采用酶消化法分离培养人牙髓细胞,细胞免疫荧光法检测TET家族的表达及分布;Western Blot检测TET家族在牙髓细胞传代培养(P1-P7代)中的表达规律;对第3代牙髓细胞矿化诱导7,14 d,qRT-PCR法检测矿化诱导第0,7,14 d的TET家族mRNA水平,Western Blot法检测其蛋白量的表达变化。结果与结论:TET家族在人牙髓细胞的细胞质和细胞核中均有表达。在牙髓细胞体外传代培养过程中,TET1蛋白在P1-P6代随细胞传代呈上升趋势,TET2蛋白在P2和P3代细胞中表达增强(P<0.05),TET3表达量在不同细胞代数之间差异无显著性意义(P >0.05)。细胞经矿化诱导后,TET1,TET2和TET3的mRNA和蛋白表达量均升高(P<0.05)。以上结果提示TET家族可能参与调控牙髓细胞成牙本质分化进程。
揹景:DNA甲基胞嘧啶雙加氧酶TET傢族可將甲基胞嘧啶氧化為羥甲基胞嘧啶,參與機體DNA去甲基化,調控細胞增殖與分化,但其在牙髓細胞中的錶達模式仍不清楚。目的:檢測TET傢族在牙髓細胞成牙本質分化過程中的錶達模式。方法:採用酶消化法分離培養人牙髓細胞,細胞免疫熒光法檢測TET傢族的錶達及分佈;Western Blot檢測TET傢族在牙髓細胞傳代培養(P1-P7代)中的錶達規律;對第3代牙髓細胞礦化誘導7,14 d,qRT-PCR法檢測礦化誘導第0,7,14 d的TET傢族mRNA水平,Western Blot法檢測其蛋白量的錶達變化。結果與結論:TET傢族在人牙髓細胞的細胞質和細胞覈中均有錶達。在牙髓細胞體外傳代培養過程中,TET1蛋白在P1-P6代隨細胞傳代呈上升趨勢,TET2蛋白在P2和P3代細胞中錶達增彊(P<0.05),TET3錶達量在不同細胞代數之間差異無顯著性意義(P >0.05)。細胞經礦化誘導後,TET1,TET2和TET3的mRNA和蛋白錶達量均升高(P<0.05)。以上結果提示TET傢族可能參與調控牙髓細胞成牙本質分化進程。
배경:DNA갑기포밀정쌍가양매TET가족가장갑기포밀정양화위간갑기포밀정,삼여궤체DNA거갑기화,조공세포증식여분화,단기재아수세포중적표체모식잉불청초。목적:검측TET가족재아수세포성아본질분화과정중적표체모식。방법:채용매소화법분리배양인아수세포,세포면역형광법검측TET가족적표체급분포;Western Blot검측TET가족재아수세포전대배양(P1-P7대)중적표체규률;대제3대아수세포광화유도7,14 d,qRT-PCR법검측광화유도제0,7,14 d적TET가족mRNA수평,Western Blot법검측기단백량적표체변화。결과여결론:TET가족재인아수세포적세포질화세포핵중균유표체。재아수세포체외전대배양과정중,TET1단백재P1-P6대수세포전대정상승추세,TET2단백재P2화P3대세포중표체증강(P<0.05),TET3표체량재불동세포대수지간차이무현저성의의(P >0.05)。세포경광화유도후,TET1,TET2화TET3적mRNA화단백표체량균승고(P<0.05)。이상결과제시TET가족가능삼여조공아수세포성아본질분화진정。
BACKGROUND:Ten-eleven translocation (TET) family proteins are recently discovered DNA dioxygenases that convert methylcytosine to hydroxymethyl cytosine, which is essential for regulating cel proliferation and differentiation, but the expression pattern of TET family proteins in human dental pulp cel s is stil unclear. OBJECTIVE:To investigate the expression pattern of TET family proteins during the differentiation of human dental pulp cel s. METHODS:Cel ular distribution and expression of TET family proteins were determined by immunofluorescence in human dental pulp cel s that were cultured and isolated using digestion method. The protein levels of TETs during cel passage (P1-P7) were detected with western blot assay, and their potential changes during odontogenic induction (7 and 14 days) were confirmed using real-time quantitative PCR and western blot analyses at mRNA and protein levels, respectively. RESULTS AND CONCLUSION:Al TETs were expressed in the nucleus and the cytoplasm of human dental pulp cel s During serial cel passage, TET1 protein expression was increased until the 6th passage, TET2 significantly increased at the 2nd and 3rd passages and then decreased (P<0.05), and TET3 showed no statistical y significant change (P>0.05). Both mRNA and protein expression levels of al TETs were elevated during odontogenic induction (P<0.05). These results indicated that TETs may contribute to cel differentiation of human dental pulp cel s.
