標題: 人類Ste20蛋白質激酵素,Mst3,在細胞凋亡與OXPHOS系統調控機轉之研究
Molecular mechanism studies of Mammalian sterile20-like protein kinase 3 in apoptosis and oxidative phosphorylation
作者: 林佳穎
Lin, Chia-Ying
袁俊傑
Yuan, Chiun-Jye
分子醫學與生物工程研究所
關鍵字: Mst3;細胞淍亡;粒腺體;OXPHOS;Mst3;apoptosis;mitochondria;oxidative phosphorylation
公開日期: 2009
摘要: Mst3在細胞淍亡及正常生理調控上扮演舉足輕重的角色。在之前的研究中發現,雖然caspase參與了與Mst3相關之細胞淍亡,但caspase的inhibitor,z-DEVD-fmk,卻只能輕微地抑制staurosporine引起的細胞淍亡。由此可知,Mst3不只參與了caspase-dependent 的細胞淍亡途徑,也參與了caspase-independent的途徑。在我們的研究中發現,Mst3藉由調節粒腺體的Bax使得粒腺體的細胞淍亡前趨蛋白AIF及Endo G從粒腺體轉移到細胞核,之後,Endo G的nuclease活性使得DNA斷裂。也因此,Mst3被懷疑可能存在於與AIF與Endo G同樣的位置,即粒腺體的intermembrane space。隨後,我們也證明了Mst3的確在粒腺體的intermembrane space。而位於粒腺體的Mst3調節了電子傳遞鏈的complexes I及III,並影響了與葡萄糖有關之ATP生成。所以本研究的結論是Mst3不只在caspase- dependent及caspase-independent的細胞淍亡扮演了重要角色,也參與粒腺體OXPHOS系統之調控。
Mammalian sterile-20 protein kinase 3 (Mst3) plays an essential role in the apoptotic and non-apoptotic pathway. Caspases are shown to be involved in the Mst3-mediated apoptosis, but the staurosporine-induced apoptosis is slightly suppressed by the caspase inhibitor, z-DEVD-fmk. Mst3 is though that Mst3 is not only involves in caspase-dependent but also in caspase-independent apoptotic pathway. The study demonstrates that Mst3 controls the mitochondrial integrity through the regulation of Bax and subsequently promote the nuclear translocation of caspase-independent proapoptotic members, apoptosis-inducing factor and endonuclease G from mitochondria in HeLa cells. Following, the nuclease activity associated with endonuclease G is modulated. Thus, Mst3 is inferred that the participation in staurosporine-induced apoptosis mediated its cellular localization of the intermembrane space of mitochondria. The bold is confirmed by co-immunofluorescent staining, transmission electron microscopic imaging and immuno-blotting after subcellular fractionation. Similar results are also observed in human trophoblast cell line 3A-sub-E cells, suggesting that the mitochondrial localization of Mst3 is a general phenomenon. The mitochondrial targeting segment of Mst3 is between residues 314-431. The intermembrane space-Mst3 regulate the respiratory transport chain complexes I and III and the dependence of glucose for ATP synthesis. The results indicate that Mst3 plays an important role not only in caspase dependent and independent- apoptotic pathway but also in oxidative phosphorylation.
URI: http://140.113.39.130/cdrfb3/record/nctu/#GT009329801
http://hdl.handle.net/11536/79367
Appears in Collections:Thesis