Jones S M, Crosby J R, Salamero J, Howell K E
Department of Cellular and Structural Biology, University of Colorado School of Medicine, Denver 80262.
J Cell Biol. 1993 Aug;122(4):775-88. doi: 10.1083/jcb.122.4.775.
TGN38/41, an integral membrane protein predominantly localized to the trans-Golgi network, has been shown to cycle to the plasma membrane and return to the TGN within 30 min. (Ladinsky, M. S., and K. E. Howell. 1992. Eur. J. Cell Biol. 59:92-105). In characterizing the proteins which associate with TGN38/41, a peripheral 62-kD protein, two forms of rab6 and two other small GTP-binding proteins were identified by coimmunoprecipitation. However, approximately 90% of the 62-kD protein is cytosolic and is associated with the same subset of small GTP-binding proteins. Both the membrane and cytoplasmic complexes were characterized by sizing column fractionation and velocity sedimentation. The membrane complex was approximately 250 kD (11.6 S) consisting of the cytosolic complex and a heterodimer of TGN38/41 (160 kD). The cytosolic complex was approximately 86 kD (6.1 S) consisting of p62 and one small GTP-binding protein. Preliminary evidence indicates that phosphorylation of the p62 molecule regulates the dissociation of the cytosolic complex from TGN38/41. Functionally the cytosolic p62 complex must bind to TGN38/41 for the budding of exocytic transport vesicles from the TGN as assayed in a cell-free system (Salamero, J., E. S. Sztul, and K. E. Howell. 1990. Proc. Natl. Acad. Sci. USA. 87:7717-7721). Interference with p62, rab6 or TGN38, and TGN41 cytoplasmic domains by immunodepletion or competing peptides completely inhibited the budding of exocytic transport vesicles. These results support an essential role for interaction of the cytosolic p62/rab6 complex with TGN38/41 in budding of exocytic vesicles from the TGN.
TGN38/41是一种主要定位于反式高尔基体网络的整合膜蛋白,已被证明能循环至质膜,并在30分钟内返回反式高尔基体网络(Ladinsky, M. S., and K. E. Howell. 1992. Eur. J. Cell Biol. 59:92 - 105)。在对与TGN38/41相关的蛋白质进行表征时,通过共免疫沉淀鉴定出一种62-kD的外周蛋白、两种形式的rab6和另外两种小GTP结合蛋白。然而,约90%的62-kD蛋白存在于胞质中,并与同一小GTP结合蛋白亚群相关。膜复合物和胞质复合物均通过尺寸排阻柱分级分离和速度沉降进行表征。膜复合物约为250 kD(11.6 S),由胞质复合物和TGN38/41异二聚体(160 kD)组成。胞质复合物约为86 kD(6.1 S),由p62和一种小GTP结合蛋白组成。初步证据表明,p62分子的磷酸化调节胞质复合物与TGN38/41的解离。在无细胞系统中检测发现,从功能上讲,胞质p62复合物必须与TGN38/41结合,才能使来自反式高尔基体网络的分泌性运输小泡出芽(Salamero, J., E. S. Sztul, and K. E. Howell. 1990. Proc. Natl. Acad. Sci. USA. 87:7717 - 7721)。通过免疫耗竭或竞争肽干扰p62、rab6或TGN38以及TGN41的胞质结构域,可完全抑制分泌性运输小泡的出芽。这些结果支持了胞质p62/rab6复合物与TGN38/41的相互作用在反式高尔基体网络分泌性小泡出芽过程中起关键作用。