Puri Pawan, Myers Kimberley, Kline Douglas, Vijayaraghavan Srinivasan
Department of Biological Sciences, Kent State University, Kent, Ohio 44242, USA.
Biol Reprod. 2008 Dec;79(6):1183-91. doi: 10.1095/biolreprod.108.068734. Epub 2008 Aug 27.
Posttranslational modification of proteins by phosphorylation is involved in regulation of sperm function. Protein phosphatase 1 gamma isoform 2 (PPP1CC_v2) and protein YWHA (also known as 14-3-3) are likely to be key molecules in pathways involving sperm protein phosphorylation. We have shown that phosphorylated PPP1CC_v2 is bound to protein YWHAZ in spermatozoa. In somatic cells, protein YWHA is known to bind a number of phosphoproteins involved in signaling and energy metabolism. Thus, in addition to PPP1CC_v2, it is likely that sperm contain other YWHA-binding proteins. A goal of the present study was to identify these sperm YWHA-binding proteins. The binding proteins were isolated by affinity chromatography with GST-YWHAZ followed by elution with a peptide, R-11, which is known to disrupt YWHA complexes. The YWHA-binding proteins in sperm can be classified as those involved in fertilization, acrosome reaction, energy metabolism, protein folding, and ubiquitin-mediated proteolysis. A subset of these putative YWHA-binding proteins contain known amino acid consensus motifs, not only for YWHA binding but also for PPP1C binding. Identification of sperm PPP1CC_v2-binding proteins by microcystin-agarose chromatography confirmed that PPP1CC_v2 and YWHA interactomes contain several common proteins. These are metabolic enzymes phosphoglycerate kinase 2, hexokinase 1, and glucose phosphate isomerase; proteins involved in sperm-egg fusion; angiotensin-converting enzyme, sperm adhesion molecule, and chaperones; heat shock 70-kDa protein 5 (glucose-regulated protein 78 kDa; and heat shock 70-kDa protein 1-like. These proteins are likely to be phosphoproteins and potential PPP1CC_v2 substrates. Our data suggest that in addition to potential regulation of a number of important sperm functions, YWHA may act as an adaptor molecule for a subset of PPP1CC_v2 substrates.
蛋白质磷酸化的翻译后修饰参与精子功能的调节。蛋白磷酸酶1γ亚型2(PPP1CC_v2)和14-3-3蛋白(也称为YWHA)可能是涉及精子蛋白磷酸化途径中的关键分子。我们已经表明,磷酸化的PPP1CC_v2在精子中与YWHAZ蛋白结合。在体细胞中,已知YWHA蛋白可结合许多参与信号传导和能量代谢的磷蛋白。因此,除了PPP1CC_v2外,精子可能还含有其他YWHA结合蛋白。本研究的一个目标是鉴定这些精子YWHA结合蛋白。通过用GST-YWHAZ进行亲和层析,然后用已知可破坏YWHA复合物的肽R-11洗脱,分离出结合蛋白。精子中的YWHA结合蛋白可分为参与受精、顶体反应、能量代谢、蛋白质折叠和泛素介导的蛋白水解的蛋白。这些假定的YWHA结合蛋白的一个子集不仅含有已知的YWHA结合氨基酸共有基序,还含有PPP1C结合基序。通过微囊藻毒素-琼脂糖层析鉴定精子PPP1CC_v2结合蛋白,证实PPP1CC_v2和YWHA相互作用组包含几种共同蛋白。这些蛋白包括代谢酶磷酸甘油酸激酶2、己糖激酶1和葡萄糖磷酸异构酶;参与精卵融合的蛋白;血管紧张素转换酶、精子粘附分子和伴侣蛋白;热休克70 kDa蛋白5(葡萄糖调节蛋白78 kDa)和热休克70 kDa蛋白1样蛋白。这些蛋白可能是磷蛋白和潜在的PPP1CC_v2底物。我们的数据表明,除了对许多重要精子功能的潜在调节外,YWHA可能作为PPP1CC_v2底物子集的衔接分子。