通过亲和纯化-质谱法对人尿液中的肝素结合蛋白进行表征,并将“L-x(2,3)-A-x(0,1)-L”定义为一种新型肝素结合基序。
Characterizations of heparin-binding proteins in human urine by affinity purification-mass spectrometry and defining "L-x(2,3)-A-x(0,1)-L" as a novel heparin-binding motif.
作者信息
Manissorn Juthatip, Thongboonkerd Visith
机构信息
Medical Proteomics Unit, Office for Research and Development, Faculty of Medicine Siriraj Hospital; and Center for Research in Complex Systems Science, Mahidol University, Bangkok, Thailand.
Medical Proteomics Unit, Office for Research and Development, Faculty of Medicine Siriraj Hospital; and Center for Research in Complex Systems Science, Mahidol University, Bangkok, Thailand.
出版信息
J Proteomics. 2016 Jun 16;142:53-61. doi: 10.1016/j.jprot.2016.04.043. Epub 2016 Apr 30.
UNLABELLED
Heparin-binding proteins (HBPs) are considered as potential modulators of kidney stone formation. However, HBPs had not been characterized in the urine previously. In this study, we applied affinity purification-mass spectrometry (AP-MS) using cellufine sulfate column chromatography and liquid chromatography-quadrupole time-of-flight tandem mass spectrometry (LC-Q-TOF MS/MS) to identify HBPs in normal human urine. Using this approach, 83 HBPs were identified, including those involved in metabolic process, cellular process, immune system, developmental process, response to stimuli, cell communication, transport, cell adhesion and others. The AP-MS data were confirmed by Western blot analysis and chemico-protein interactions analysis using STITCH tool. In addition, 59, 55 and 51 identified HBPs had the known heparin-binding motifs "XBBXnBX", "XBXnBBX" and "XBBBnX", respectively. Moreover, a novel heparin-binding motif "L-x(2,3)-A-x(0,1)-L" was found in 58 identified HBPs using PRATT tool. The sensitivity and specificity of this novel motif were 85% and 100%, respectively, by validation using 20 known HBPs and 11 non-HBPs. We report herein for the first time a large number of HBPs in normal human urine and defined "L-x(2,3)-A-x(0,1)-L" as a novel heparin-binding motif. These findings will be useful to further understand the renal physiology and may also lead to identification of novel modulators of kidney stone formation.
BIOLOGICAL SIGNIFICANCE
Heparin-binding proteins (HBPs) have several important roles in various biological processes, including kidney stone formation. However, HBPs had not been characterized in the urine. Our present work using affinity purification coupled to mass spectrometry (AP-MS) is the first large-scale study on HBPs in human urine. In addition to the three known heparin-binding motifs, "XBBXnBX", "XBXnBBX", and "XBBBnX", we successfully defined the amino acid pattern "L-x(2,3)-A-x(0,1)-L" as a novel heparin-binding motif. These findings will be useful to further understand the renal physiology and may also lead to identification of novel modulators of kidney stone formation.
未标注
肝素结合蛋白(HBPs)被认为是肾结石形成的潜在调节因子。然而,此前尚未对尿液中的HBPs进行表征。在本研究中,我们应用硫酸纤维素柱色谱亲和纯化-质谱联用(AP-MS)以及液相色谱-四极杆飞行时间串联质谱(LC-Q-TOF MS/MS)来鉴定正常人尿液中的HBPs。通过这种方法,鉴定出了83种HBPs,包括参与代谢过程、细胞过程、免疫系统、发育过程、刺激反应、细胞通讯、运输、细胞黏附等过程的蛋白。AP-MS数据通过蛋白质印迹分析以及使用STITCH工具的化学-蛋白质相互作用分析得到了证实。此外,鉴定出的59种、55种和51种HBPs分别具有已知的肝素结合基序“XBBXnBX”、“XBXnBBX”和“XBBBnX”。此外,使用PRATT工具在58种鉴定出的HBPs中发现了一种新的肝素结合基序“L-x(2,3)-A-x(0,1)-L”。通过使用20种已知HBPs和11种非HBPs进行验证,这种新基序的敏感性和特异性分别为85%和100%。我们首次在此报告了正常人尿液中大量的HBPs,并将“L-x(2,3)-A-x(0,1)-L”定义为一种新的肝素结合基序。这些发现将有助于进一步了解肾脏生理学,也可能有助于鉴定肾结石形成的新型调节因子。
生物学意义
肝素结合蛋白(HBPs)在包括肾结石形成在内的各种生物学过程中具有多种重要作用。然而,此前尚未对尿液中的HBPs进行表征。我们目前使用亲和纯化与质谱联用(AP-MS)的工作是对人尿液中HBPs的首次大规模研究。除了三种已知的肝素结合基序“XBBXnBX”、“XBXnBBX”和“XBBBnX”外,我们成功地将氨基酸模式“L-x(2,3)-A-x(0,1)-L”定义为一种新的肝素结合基序。这些发现将有助于进一步了解肾脏生理学,也可能有助于鉴定肾结石形成的新型调节因子。
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