Wilde A, Brodsky F M
G.W. Hooper Foundation, Department of Immunology and Microbiology, University of California, San Francisco 94143-0552, USA.
J Cell Biol. 1996 Nov;135(3):635-45. doi: 10.1083/jcb.135.3.635.
The coat proteins of clathrin-coated vesicles (CCV) spontaneously self-assemble in vitro, but, in vivo, their self-assembly must be regulated. To determine whether phosphorylation might influence coat formation in the cell, the in vivo phosphorylation state of CCV coat proteins was analyzed. Individual components of the CCV coat were isolated by immunoprecipitation from Madin-Darby bovine kidney cells, labeled with [32P]orthophosphate under normal culture conditions. The predominant phosphoproteins identified were subunits of the AP1 and AP2 adaptors. These included three of the four 100-kD adaptor subunits, alpha and beta 2 of AP2 and beta 1 of AP1, but not the gamma subunit of AP1. In addition, the mu 1 and mu 2 subunits of AP1 and AP2 were phosphorylated under these conditions. Lower levels of in vivo phosphorylation were detected for the clathrin heavy and light chains. Analysis of phosphorylation sites of the 100-kD adaptor subunits indicated they were phosphorylated on serines in their hinge regions, domains that have been implicated in clathrin binding. In vitro clathrin-binding assays revealed that, upon phosphorylation, adaptors no longer bind to clathrin. In vivo analysis further revealed that adaptors with phosphorylated 100-kD subunits predominated in the cytosol, in comparison with adaptors associated with cellular membranes, and that phosphorylated beta 2 subunits of AP2 were exclusively cytosolic. Kinase activity, which converts adaptors to a phosphorylated state in which they no longer bind clathrin, was found associated with the CCV coat. These results suggest that adaptor phosphorylation influences adaptor-clathrin interactions in vivo and could have a role in controlling coat disassembly and reassembly.
网格蛋白包被小泡(CCV)的包被蛋白在体外可自发自我组装,但在体内,其自我组装必须受到调控。为了确定磷酸化是否会影响细胞中的包被形成,对CCV包被蛋白的体内磷酸化状态进行了分析。通过免疫沉淀从马-达二氏牛肾细胞中分离出CCV包被的各个组分,在正常培养条件下用[32P]正磷酸盐进行标记。鉴定出的主要磷蛋白是AP1和AP2衔接蛋白的亚基。其中包括四个100-kD衔接蛋白亚基中的三个,即AP2的α和β2以及AP1的β1,但不包括AP1的γ亚基。此外,在这些条件下,AP1和AP2的μ1和μ2亚基也被磷酸化。网格蛋白重链和轻链的体内磷酸化水平较低。对100-kD衔接蛋白亚基的磷酸化位点分析表明,它们在其铰链区的丝氨酸上被磷酸化,该区域与网格蛋白结合有关。体外网格蛋白结合试验表明,磷酸化后,衔接蛋白不再与网格蛋白结合。体内分析进一步表明,与细胞膜相关的衔接蛋白相比,具有磷酸化100-kD亚基的衔接蛋白在细胞质中占主导地位,并且AP2的磷酸化β2亚基仅存在于细胞质中。发现与CCV包被相关的激酶活性可将衔接蛋白转化为不再结合网格蛋白的磷酸化状态。这些结果表明,衔接蛋白磷酸化在体内影响衔接蛋白与网格蛋白的相互作用,并可能在控制包被的拆卸和重新组装中发挥作用。