中华实验外科杂志
中華實驗外科雜誌
중화실험외과잡지
CHINESE JOURNAL OF EXPERIMENTAL SURGERY
2015年
5期
948-953
,共6页
张巍%牛昀%刘珊%牛凤婷%申红红%王丽
張巍%牛昀%劉珊%牛鳳婷%申紅紅%王麗
장외%우윤%류산%우봉정%신홍홍%왕려
神经营养因子受体C%神经营养因子-3%乳腺癌%依赖性受体%增殖%凋亡
神經營養因子受體C%神經營養因子-3%乳腺癌%依賴性受體%增殖%凋亡
신경영양인자수체C%신경영양인자-3%유선암%의뢰성수체%증식%조망
Tropomyosin-related kinase C%Neurotrophin-3%Breast cancer%Dependence receptor%Proliferation%Apoptosis
目的 探讨神经营养因子受体C(TrkC)单纯转染及TrkC和神经营养因子-3(NT-3)联合作用对乳腺癌细胞T47D生物学特性的影响及其机制.方法 在乳腺癌细胞株中筛选出不表达TrkC的T47D;以重组腺病毒Ad-TrkC转染T47D,流式细胞术和免疫荧光化学染色分析和鉴定转染效果;噻唑蓝比色法(MTT法)、平板集落形成、流式细胞仪检测癌细胞增殖与存活能力;划痕实验检测癌细胞迁移能力;Transwell和Matrigel胶检测癌细胞侵袭能力;Western blot检测相关信号分子的表达.结果 感染复数(MOI)=20重组腺病毒可成功转染T47D,转染效率达到96.7%,并使T47D成功表达TrkC;单纯TrkC转染可明显降低T47D癌细胞存活数和平板集落形成率(12.0%比35.2%,P<0.05),诱导癌细胞发生G2/M期阻滞,机制与癌细胞发生早期凋亡(55.5%比2.2%)和促进含半胱氨酸的天冬氨酸蛋白水解酶-3(Caspase-3)表达有关.而TrkC和NT-3的联合作用则诱导完全不同的生物学效应:促进细胞存活和平板集落形成率(84.8%,P <0.05)、促进细胞进入S期和G2/M期,减少细胞早期凋亡(1.8%)和死亡(P<0.05);机制与激活磷脂酰肌醇3激酶/蛋白激酶B(PI3K/Akt)信号通路有关,同时还能促进T47D的迁移和侵袭能力.结论 TrkC可能以依赖性受体方式调控T47D乳腺癌细胞的增殖、存活和侵袭.
目的 探討神經營養因子受體C(TrkC)單純轉染及TrkC和神經營養因子-3(NT-3)聯閤作用對乳腺癌細胞T47D生物學特性的影響及其機製.方法 在乳腺癌細胞株中篩選齣不錶達TrkC的T47D;以重組腺病毒Ad-TrkC轉染T47D,流式細胞術和免疫熒光化學染色分析和鑒定轉染效果;噻唑藍比色法(MTT法)、平闆集落形成、流式細胞儀檢測癌細胞增殖與存活能力;劃痕實驗檢測癌細胞遷移能力;Transwell和Matrigel膠檢測癌細胞侵襲能力;Western blot檢測相關信號分子的錶達.結果 感染複數(MOI)=20重組腺病毒可成功轉染T47D,轉染效率達到96.7%,併使T47D成功錶達TrkC;單純TrkC轉染可明顯降低T47D癌細胞存活數和平闆集落形成率(12.0%比35.2%,P<0.05),誘導癌細胞髮生G2/M期阻滯,機製與癌細胞髮生早期凋亡(55.5%比2.2%)和促進含半胱氨痠的天鼕氨痠蛋白水解酶-3(Caspase-3)錶達有關.而TrkC和NT-3的聯閤作用則誘導完全不同的生物學效應:促進細胞存活和平闆集落形成率(84.8%,P <0.05)、促進細胞進入S期和G2/M期,減少細胞早期凋亡(1.8%)和死亡(P<0.05);機製與激活燐脂酰肌醇3激酶/蛋白激酶B(PI3K/Akt)信號通路有關,同時還能促進T47D的遷移和侵襲能力.結論 TrkC可能以依賴性受體方式調控T47D乳腺癌細胞的增殖、存活和侵襲.
목적 탐토신경영양인자수체C(TrkC)단순전염급TrkC화신경영양인자-3(NT-3)연합작용대유선암세포T47D생물학특성적영향급기궤제.방법 재유선암세포주중사선출불표체TrkC적T47D;이중조선병독Ad-TrkC전염T47D,류식세포술화면역형광화학염색분석화감정전염효과;새서람비색법(MTT법)、평판집락형성、류식세포의검측암세포증식여존활능력;화흔실험검측암세포천이능력;Transwell화Matrigel효검측암세포침습능력;Western blot검측상관신호분자적표체.결과 감염복수(MOI)=20중조선병독가성공전염T47D,전염효솔체도96.7%,병사T47D성공표체TrkC;단순TrkC전염가명현강저T47D암세포존활수화평판집락형성솔(12.0%비35.2%,P<0.05),유도암세포발생G2/M기조체,궤제여암세포발생조기조망(55.5%비2.2%)화촉진함반광안산적천동안산단백수해매-3(Caspase-3)표체유관.이TrkC화NT-3적연합작용칙유도완전불동적생물학효응:촉진세포존활화평판집락형성솔(84.8%,P <0.05)、촉진세포진입S기화G2/M기,감소세포조기조망(1.8%)화사망(P<0.05);궤제여격활린지선기순3격매/단백격매B(PI3K/Akt)신호통로유관,동시환능촉진T47D적천이화침습능력.결론 TrkC가능이의뢰성수체방식조공T47D유선암세포적증식、존활화침습.
Objective To investigate the effects of Tropomyosin-related kinase C (neurotrophin receptor C,TrkC) re-expression in T47D with or without neurotrophin-3 (NT-3) for the biological characteristics of the cancer cell and the possible mechanisms.Methods Reverse transcription polymerase chain reaction (RT-PCR) and Western blotting were used to screen the proper cell line T47D that not expressing TrkC among four breast cancer cell lines.By recombinant adenovirus vector Ad-TrkC transfection,flow cytometry and immunofluorescence were used to evaluate the transfected efficiency.The proliferation,survival,migration and invasion of Ad-TrkC transfected T47D with or without NT-3 were estimated by thiazolyl blue tetrazolium bromide (MTF) assay,conlony-forming test,flow cytometry,wounding healing assay and Matrigel invasion assay.The related signal pathways were detected by Western blotting.Results T47D was successfully transfected by 20 multiplicity of infection (MOI) recombinant adenvirus and the tranfection efficiency arrived at 96.7%.Ad-TrkC tranfected T47D successfully expressed TrkC.The survival and the colony formation rate (12.0% vs.35.2%) were obviously suppressed (P <0.05) after TrkC re-expression in T47D.And TrkC induced a G2/M phase arrest in T47D.The mechanisms might be related to the more early apoptosis rate (55.5% vs.2.2%) and increased Caspase-3 expression in Ad-TrkC transfected T47D.However,combination of Ad-TrkC transfection and NT-3 induced completely different effects:increased cell survival and colony formation rate (84.8%,P <0.05),more cells in S and G2/M phase and decreased cell apoptosis (1.8%) and death (P < 0.05).These effects might be associated with the activation of phosphatidylinositol 3 kinase/protein kinase B (PI3K/Akt)pathway.In addition,combination of TrkC and NT-3 also promoted the migration and invasion of T47D.Conclusion TrkC may regulate the proliferation,survival and invasion of breast cancer cell T47D as a dependence receptor.
