Garcia Angelo L, Han Shan-Kuo, Janssen William G, Khaing Zin Z, Ito Timothy, Glucksman Marc J, Benson Deanna L, Salton Stephen R J
Fishberg Department of Neuroscience, Mount Sinai School of Medicine, New York, New York 10029, USA.
J Biol Chem. 2005 Dec 16;280(50):41595-608. doi: 10.1074/jbc.M509122200. Epub 2005 Oct 12.
Distinct intracellular pathways are involved in regulated and constitutive protein secretion from neuronal and endocrine cells, yet the peptide signals and molecular mechanisms responsible for targeting and retention of soluble proteins in secretory granules are incompletely understood. By using confocal microscopy and subcellular fractionation, we examined trafficking of the neuronal and endocrine peptide precursor VGF that is stored in large dense core vesicles and undergoes regulated secretion. VGF cofractionated with secretory vesicle membranes but was not detected in detergent-resistant lipid rafts. Deletional analysis using epitope-tagged VGF suggested that the C-terminal 73-amino acid fragment of VGF, containing two predicted alpha-helical loops and four potential prohormone convertase (PC) cleavage sites, was necessary and sufficient with an N-terminal signal peptide-containing domain, for large dense core vesicle sorting and regulated secretion from PC12 and INS-1 cells. Further transfection analysis identified the sorting sequence as a compact C-terminal alpha-helix and embedded 564RRR566 PC cleavage site; mutation of the 564RRR566 PC site in VGF-(1-65): GFP:VGF-(545-617) blocked regulated secretion, whereas disruption of the alpha-helix had no effect. Mutation of the adjacent 567HFHH570 motif, a charged region that might enhance PC cleavage in acidic environments, also blocked regulated release. Finally, inhibition of PC cleavage in PC12 cells using the membrane-permeable synthetic peptide chloromethyl ketone (decanoyl-RVKR-CMK) blocked regulated secretion of VGF. Our studies define a critical RRR-containing C-terminal domain that targets VGF into the regulated pathway in neuronal PC12 and endocrine INS-1 cells, providing additional support for the proposed role that PCs and their cleavage sites play in regulated peptide secretion.
不同的细胞内途径参与神经元和内分泌细胞中受调控的和组成性的蛋白质分泌,然而,负责可溶性蛋白质在分泌颗粒中的靶向和保留的肽信号和分子机制尚未完全了解。通过共聚焦显微镜和亚细胞分级分离,我们研究了储存在大的致密核心囊泡中并经历受调控分泌的神经元和内分泌肽前体VGF的运输。VGF与分泌囊泡膜共分级,但在抗去污剂脂质筏中未检测到。使用表位标记的VGF进行的缺失分析表明,VGF的C末端73个氨基酸片段,包含两个预测的α-螺旋环和四个潜在的激素原转化酶(PC)切割位点,与含N末端信号肽的结构域一起,对于大的致密核心囊泡分选和从PC12和INS-1细胞的受调控分泌是必要且充分的。进一步的转染分析确定分选序列为紧凑的C末端α-螺旋并嵌入564RRR566 PC切割位点;VGF-(1-65):GFP:VGF-(545-617)中564RRR566 PC位点的突变阻断了受调控的分泌,而α-螺旋破坏则没有影响。相邻的567HFHH570基序(一个可能在酸性环境中增强PC切割的带电荷区域)的突变也阻断了受调控的释放。最后,使用膜通透性合成肽氯甲基酮(癸酰-RVKR-CMK)抑制PC12细胞中的PC切割阻断了VGF的受调控分泌。我们的研究定义了一个关键的含RRR的C末端结构域,该结构域将VGF靶向到神经元PC12和内分泌INS-1细胞中的受调控途径,为PC及其切割位点在受调控肽分泌中所起的作用提供了额外支持。
