生命科学研究
生命科學研究
생명과학연구
LIFE SCIENCE RESEARCH
2009年
5期
382-387
,共6页
骞爱荣%胡丽芳%狄升蒙%张维%高翔%商澎
鶱愛榮%鬍麗芳%狄升矇%張維%高翔%商澎
건애영%호려방%적승몽%장유%고상%상팽
微管微丝交联因子1%微丝%微管%黏着斑%成骨细胞
微管微絲交聯因子1%微絲%微管%黏著斑%成骨細胞
미관미사교련인자1%미사%미관%점착반%성골세포
microtubule actin crosslinking factor 1%actin filaments%microtubule%focal adhesion%osteoblast
采用激光共聚焦显微术研究微管微丝交联因子(MACF1)与成骨样细胞(MG-63及MC3T3)微丝/微管骨架、黏看斑之间的相互关系.结果表明,MACF1不连续地分布于微管纤维上,与微丝骨架部分共定位于胞质中,在很多的成骨细胞中可见MACF1分布于骨架相关的粘着斑处;细胞松弛素B影响了MACF1在成骨细胞中的分布,并有使其向细胞核周围及核内转位的趋势,秋水仙素对MACF1的分布无明显的影响.转染了siRNA-MACF1的MG-63细胞微丝骨架纤维分布不连续、微管骨架纤维分布紊乱.这些结果提示MACF1不仅起交联微丝及微管细胞骨架的作用,而且还可稳定细胞骨架;成骨细胞MACF1的分布更依赖于微丝骨架的完整性.
採用激光共聚焦顯微術研究微管微絲交聯因子(MACF1)與成骨樣細胞(MG-63及MC3T3)微絲/微管骨架、黏看斑之間的相互關繫.結果錶明,MACF1不連續地分佈于微管纖維上,與微絲骨架部分共定位于胞質中,在很多的成骨細胞中可見MACF1分佈于骨架相關的粘著斑處;細胞鬆弛素B影響瞭MACF1在成骨細胞中的分佈,併有使其嚮細胞覈週圍及覈內轉位的趨勢,鞦水仙素對MACF1的分佈無明顯的影響.轉染瞭siRNA-MACF1的MG-63細胞微絲骨架纖維分佈不連續、微管骨架纖維分佈紊亂.這些結果提示MACF1不僅起交聯微絲及微管細胞骨架的作用,而且還可穩定細胞骨架;成骨細胞MACF1的分佈更依賴于微絲骨架的完整性.
채용격광공취초현미술연구미관미사교련인자(MACF1)여성골양세포(MG-63급MC3T3)미사/미관골가、점간반지간적상호관계.결과표명,MACF1불련속지분포우미관섬유상,여미사골가부분공정위우포질중,재흔다적성골세포중가견MACF1분포우골가상관적점착반처;세포송이소B영향료MACF1재성골세포중적분포,병유사기향세포핵주위급핵내전위적추세,추수선소대MACF1적분포무명현적영향.전염료siRNA-MACF1적MG-63세포미사골가섬유분포불련속、미관골가섬유분포문란.저사결과제시MACF1불부기교련미사급미관세포골가적작용,이차환가은정세포골가;성골세포MACF1적분포경의뢰우미사골가적완정성.
The association of microtubule actin crosslinking factor 1 (MACF1) with actin filaments (Afs), microtubule (MT) and focal adhesion were examined using laser scanning confocal microscopy (LSCM). Results showed that MACF1 aligned along MT filaments and partly co-localized with the Afs and MT in the Cytoplasm. In many osteoblast, anti-MACFl labeling could be found in regions of focal adhesions, cytochalasin B caused translocation of MACF1 to the perinuclear region or nucleus, in contrast, colchicines had no obvious effects on the association of MACF1 with cytoskeleton. Afs were discrete and disrupted, and MTs were disorganized in MG-63 cells tranfected with siRNA-MACFl compared with that in control cells. These results indicate that MACF1 plays an important role not only in linking cytoskeleton proteins but in stabilizing the cytoskeleton structure. The association of MACF1 with cytoskeleton primarily depends on the integrity of the actin network.
