Amaya Maria Jimena, Oliveira André G, Schroeder Lena K, Allgeyer Edward S, Bewersdorf Joerg, Nathanson Michael H
Section of Digestive Diseases, Department of Internal Medicine, Yale University, New Haven, Connecticut, United States of America.
Department of Cell Biology, Yale University, New Haven, Connecticut, United States of America.
PLoS One. 2014 Dec 1;9(12):e114043. doi: 10.1371/journal.pone.0114043. eCollection 2014.
Extended synaptotagmins (E-Syts) are a recently identified family of proteins that tether the endoplasmic reticulum (ER) to the plasma membrane (PM) in part by conferring regulation of cytosolic calcium (Ca2+) at these contact sites (Cell, 2013). However, the mechanism by which E-Syts link this tethering to Ca2+ signaling is unknown. Ca2+ waves in polarized epithelia are initiated by inositol 1,4,5-trisphosphate receptors (InsP3Rs), and these waves begin in the apical region because InsP3Rs are targeted to the ER adjacent to the apical membrane. In this study we investigated whether E-Syts are responsible for this targeting. Primary rat hepatocytes were used as a model system, because a single InsP3R isoform (InsP3R-II) is tethered to the peri-apical ER in these cells. Additionally, it has been established in hepatocytes that the apical localization of InsP3Rs is responsible for Ca2+ waves and secretion and is disrupted in disease states in which secretion is impaired. We found that rat hepatocytes express two of the three identified E-Syts (E-Syt1 and E-Syt2). Individual or simultaneous siRNA knockdown of these proteins did not alter InsP3R-II expression levels, apical localization or average InsP3R-II cluster size. Moreover, apical secretion of the organic anion 5-chloromethylfluorescein diacetate (CMFDA) was not changed in cells lacking E-Syts but was reduced in cells in which cytosolic Ca2+ was buffered. These data provide evidence that E-Syts do not participate in the targeting of InsP3Rs to the apical region. Identifying tethers that bring InsP3Rs to the apical region remains an important question, since mis-targeting of InsP3Rs leads to impaired secretory activity.
延长突触结合蛋白(E-Syts)是最近发现的一类蛋白质,它们通过在这些接触位点调节胞质钙(Ca2+),部分地将内质网(ER)与质膜(PM)相连(《细胞》,2013年)。然而,E-Syts将这种连接与Ca2+信号传导联系起来的机制尚不清楚。极化上皮细胞中的Ca2+波由肌醇1,4,5-三磷酸受体(InsP3Rs)引发,这些波始于顶端区域,因为InsP3Rs定位于顶端膜附近的内质网。在本研究中,我们调查了E-Syts是否负责这种定位。原代大鼠肝细胞被用作模型系统,因为在这些细胞中单个InsP3R亚型(InsP3R-II)定位于顶端周围的内质网。此外,在肝细胞中已经确定,InsP3Rs的顶端定位负责Ca2+波和分泌,并且在分泌受损的疾病状态下会被破坏。我们发现大鼠肝细胞表达已鉴定的三种E-Syts中的两种(E-Syt1和E-Syt2)。这些蛋白质的单独或同时RNA干扰敲低并未改变InsP3R-II的表达水平、顶端定位或平均InsP3R-II簇大小。此外,缺乏E-Syts的细胞中有机阴离子5-氯甲基荧光素二乙酸酯(CMFDA)的顶端分泌没有变化,但在胞质Ca2+被缓冲的细胞中减少。这些数据提供了证据表明E-Syts不参与InsP3Rs向顶端区域的定位。确定将InsP3Rs带到顶端区域的连接蛋白仍然是一个重要问题,因为InsP3Rs的定位错误会导致分泌活性受损。
