跨高尔基隔室钙离子内稳态的独特特征。
Unique characteristics of Ca2+ homeostasis of the trans-Golgi compartment.
机构信息
Department of Biomedical Sciences, University of Padua, 35121 Padua, Italy.
出版信息
Proc Natl Acad Sci U S A. 2010 May 18;107(20):9198-203. doi: 10.1073/pnas.1004702107. Epub 2010 May 3.
Abstract
Taking advantage of a fluorescent Ca(2+) indicator selectively targeted to the trans-Golgi lumen, we here demonstrate that its Ca(2+) homeostatic mechanisms are distinct from those of the other Golgi subcompartments: (i) Ca(2+) uptake depends exclusively on the activity of the secretory pathway Ca(2+) ATPase1 (SPCA1), whereas the sarco-endoplasmic reticulum Ca(2+) ATPase (SERCA) is excluded; (ii) IP(3) generated by receptor stimulation causes Ca(2+) uptake rather than release; (iii) Ca(2+) release can be triggered by activation of ryanodine receptors in cells endowed with robust expression of the latter channels (e.g., in neonatal cardiac myocyte). Finally, we show that, knocking down the SPCA1, and thus altering the trans-Golgi Ca(2+) content, specific functions associated with this subcompartment, such as sorting of proteins to the plasma membrane through the secretory pathway, and the structure of the entire Golgi apparatus are dramatically altered.
摘要
利用一种荧光 Ca(2+)指示剂选择性地靶向反式高尔基体腔,我们在此证明其 Ca(2+)稳态机制与其他高尔基体亚区不同:(i) Ca(2+)摄取完全依赖于分泌途径 Ca(2+)ATP 酶 1(SPCA1)的活性,而肌浆内质网 Ca(2+)ATP 酶(SERCA)则被排除在外;(ii) 受刺激的受体产生的 IP(3) 引起 Ca(2+)摄取而不是释放;(iii) Ca(2+)释放可以通过激活富含后者通道的细胞中的 Ryanodine 受体来触发(例如,在具有强大表达后者通道的新生心肌细胞中)。最后,我们表明,敲低 SPCA1,从而改变反式高尔基体 Ca(2+)含量,会显著改变与该亚区相关的特定功能,例如通过分泌途径将蛋白质分拣到质膜,以及整个高尔基体装置的结构。
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