第二军医大学学报
第二軍醫大學學報
제이군의대학학보
ACADEMIC JOURNAL OF SECOND MILITARY MEDICAL UNIVERSITY
2001年
5期
409-411
,共3页
江键%宋诚荣%崔黎丽%王小平%方影%李莉%叶熙亭
江鍵%宋誠榮%崔黎麗%王小平%方影%李莉%葉熙亭
강건%송성영%최려려%왕소평%방영%리리%협희정
驻极体%成纤维细胞%细胞凋亡
駐極體%成纖維細胞%細胞凋亡
주겁체%성섬유세포%세포조망
目的:研究负电晕充电的聚四氟乙烯(PTFE)驻极体对成纤维细胞凋亡的影响及其调控机制。方法:选用-300、-500和-1 000 V PTFE驻极体作用于成纤维细胞24、48和72 h,利用流式细胞仪和透射电子显微镜研究负极性驻极体对成纤维细胞凋亡的影响。结果:-300、-500和-1 000 V驻极体作用成纤维细胞24、48和72 h以后,与对照组相比,成纤维细胞的凋亡量从0.5%增至10%(部分可达15%);驻极体作用成纤维细胞48~72 h,出现细胞凋亡特有的形态学特征,即:细胞异染色质边集,细胞裂解,可见凋亡小体。驻极体诱导成纤维细胞凋亡的效应与作用时间和场强呈正相关性(P<0.05)。结论:负极性驻极体有促进成纤维细胞凋亡的作用。
目的:研究負電暈充電的聚四氟乙烯(PTFE)駐極體對成纖維細胞凋亡的影響及其調控機製。方法:選用-300、-500和-1 000 V PTFE駐極體作用于成纖維細胞24、48和72 h,利用流式細胞儀和透射電子顯微鏡研究負極性駐極體對成纖維細胞凋亡的影響。結果:-300、-500和-1 000 V駐極體作用成纖維細胞24、48和72 h以後,與對照組相比,成纖維細胞的凋亡量從0.5%增至10%(部分可達15%);駐極體作用成纖維細胞48~72 h,齣現細胞凋亡特有的形態學特徵,即:細胞異染色質邊集,細胞裂解,可見凋亡小體。駐極體誘導成纖維細胞凋亡的效應與作用時間和場彊呈正相關性(P<0.05)。結論:負極性駐極體有促進成纖維細胞凋亡的作用。
목적:연구부전훈충전적취사불을희(PTFE)주겁체대성섬유세포조망적영향급기조공궤제。방법:선용-300、-500화-1 000 V PTFE주겁체작용우성섬유세포24、48화72 h,이용류식세포의화투사전자현미경연구부겁성주겁체대성섬유세포조망적영향。결과:-300、-500화-1 000 V주겁체작용성섬유세포24、48화72 h이후,여대조조상비,성섬유세포적조망량종0.5%증지10%(부분가체15%);주겁체작용성섬유세포48~72 h,출현세포조망특유적형태학특정,즉:세포이염색질변집,세포렬해,가견조망소체。주겁체유도성섬유세포조망적효응여작용시간화장강정정상관성(P<0.05)。결론:부겁성주겁체유촉진성섬유세포조망적작용。
Objective: To study the influence of negative electrets on apoptosis of fibroblast cells and to probe its mechanism. Methods: Fibroblast cell were treated with -300, -500 and -1 000V PTFE electrets for 24, 48 and 72 h, respectively, and the influence of negative electrets on cell apoptosis was studied by means of flow cytometry and transmission electron microscope. Results: Compared with control group, apoptosis cells increased from 0.5% to 10% (some even to 15%) after 24,48 and 72 h action of -300, -500 and -1 000 V electrets. After action of -500 V PTFE electrets for 48-72 h, fibroblast cells showed characteristic morphological features of apoptosis. These features included chromatin aggregation, nuclear and cytoplasmic condensation and partition of cytoplasm and nucleus into membrane bound-vesicles (apoptotic bodies). The effect of negative electrets on apoptosis was in proportion to the time and electric field intensity. Conclusion: Negative electrets can enhance apoptosis of fibroblast cells.
