中国组织工程研究
中國組織工程研究
중국조직공정연구
Journal of Clinical Rehabilitative Tissue Engineering Research
2012年
41期
7612-7616
,共5页
刘永琦%达瑞%窦娟娟%苏菊萍%颜春鲁
劉永琦%達瑞%竇娟娟%囌菊萍%顏春魯
류영기%체서%두연연%소국평%안춘로
骨髓间充质干细胞%氯化镉%微核率%染色体畸变率%干细胞
骨髓間充質榦細胞%氯化鎘%微覈率%染色體畸變率%榦細胞
골수간충질간세포%록화력%미핵솔%염색체기변솔%간세포
背景:氯化镉对骨髓间充质干细胞遗传方面影响的研究暂无报道.目的:观察化学毒性物质氯化镉对骨髓间充质干细胞微核率和染色体畸变率的影响.方法:贴壁培养小鼠骨髓间充质干细胞细胞株,显微镜下观察空白对照组及氯化镉诱导组骨髓间充质干细胞的形态学变化,微核实验检测两组微核率,染色体分析检测两组染色体畸变率.结果与结论:显微镜下观察,空白对照组细胞呈成纤维细胞样贴壁生长,胞体透亮,折光性强;氯化镉诱导组细胞呈凸起回缩,细胞变小、变圆,贴壁不牢,悬浮细胞增多.与空白对照组比较,氯化镉诱导组骨髓间充质干细胞微核发生率和染色体畸变率均显著增加(P<0.05).提示氯化镉可引起小鼠骨髓间充质干细胞遗传物质的损伤.
揹景:氯化鎘對骨髓間充質榦細胞遺傳方麵影響的研究暫無報道.目的:觀察化學毒性物質氯化鎘對骨髓間充質榦細胞微覈率和染色體畸變率的影響.方法:貼壁培養小鼠骨髓間充質榦細胞細胞株,顯微鏡下觀察空白對照組及氯化鎘誘導組骨髓間充質榦細胞的形態學變化,微覈實驗檢測兩組微覈率,染色體分析檢測兩組染色體畸變率.結果與結論:顯微鏡下觀察,空白對照組細胞呈成纖維細胞樣貼壁生長,胞體透亮,摺光性彊;氯化鎘誘導組細胞呈凸起迴縮,細胞變小、變圓,貼壁不牢,懸浮細胞增多.與空白對照組比較,氯化鎘誘導組骨髓間充質榦細胞微覈髮生率和染色體畸變率均顯著增加(P<0.05).提示氯化鎘可引起小鼠骨髓間充質榦細胞遺傳物質的損傷.
배경:록화력대골수간충질간세포유전방면영향적연구잠무보도.목적:관찰화학독성물질록화력대골수간충질간세포미핵솔화염색체기변솔적영향.방법:첩벽배양소서골수간충질간세포세포주,현미경하관찰공백대조조급록화력유도조골수간충질간세포적형태학변화,미핵실험검측량조미핵솔,염색체분석검측량조염색체기변솔.결과여결론:현미경하관찰,공백대조조세포정성섬유세포양첩벽생장,포체투량,절광성강;록화력유도조세포정철기회축,세포변소、변원,첩벽불뢰,현부세포증다.여공백대조조비교,록화력유도조골수간충질간세포미핵발생솔화염색체기변솔균현저증가(P<0.05).제시록화력가인기소서골수간충질간세포유전물질적손상.
BACKGROUND:There have been no reports describing the effects of cadmium chloride on heredity of bone marrow mesenchymal stem cel s (BMSCs) OBJECTIVE:To investigate the effects of cadmium chloride on micronucleus rate and chromosome aberration rate in mouse BMSCs. METHODS:Mouse BMSCs were cultured by adherence method. Morphology of BMSCs was observed in the blank control group and cadmium chloride-induced group. The micronucleus rate and chromosome aberration rate in mouse BMSCs were determined. RESULTS AND CONCLUSION:Under the microscope, cel s in the blank control group grew adherently like fibroblasts, with transparent soma and strong refraction;in the cadmium chloride-induced group, cel s were retracted, somas became smal and round, and were weakly adherent, and suspension cel s increased. The micronucleus rate and chromosome aberration rate in mouse BMSCs were significantly increased in the cadmium chloride-induced group than in the blank control group (P<0.05). These findings suggest that cadmium chloride can cause damage to BMSC genetic material.
