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人源前弹性蛋白酶与羧肽酶原A1和A2的复合物形成

Complex Formation of Human Proelastases with Procarboxypeptidases A1 and A2.

作者信息

Szabó András, Pilsak Claudia, Bence Melinda, Witt Heiko, Sahin-Tóth Miklós

机构信息

From the Department of Molecular and Cell Biology and.

From the Department of Molecular and Cell Biology and the Paediatric Nutritional Medicine, Klinikum rechts der Isar (MRI), Else Kröner-Fresenius-Zentrum für Ernährungsmedizin (EKFZ), Technische Universität München (TUM), 85354 Freising, Germany, and.

出版信息

J Biol Chem. 2016 Aug 19;291(34):17706-16. doi: 10.1074/jbc.M116.743237. Epub 2016 Jun 29.

DOI:10.1074/jbc.M116.743237
PMID:27358403
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5016165/
Abstract

The pancreas secretes digestive proenzymes typically in their monomeric form. A notable exception is the ternary complex formed by proproteinase E, chymotrypsinogen C, and procarboxypeptidase A (proCPA) in cattle and other ruminants. In the human and pig pancreas binary complexes of proCPA with proelastases were found. To characterize complex formation among human pancreatic protease zymogens in a systematic manner, we performed binding experiments using recombinant proelastases CELA2A, CELA3A, and CELA3B; chymotrypsinogens CTRB1, CTRB2, CTRC, and CTRL1; and procarboxypeptidases CPA1, CPA2, and CPB1. We found that proCELA3B bound not only to proCPA1 (KD 43 nm) but even more tightly to proCPA2 (KD 18 nm), whereas proCELA2A bound weakly to proCPA1 only (KD 152 nm). Surprisingly, proCELA3A, which shares 92% identity with proCELA3B, did not form stable complexes due to the evolutionary replacement of Ala(241) with Gly. The polymorphic nature of position 241 in both CELA3A (∼4% Ala(241) alleles) and CELA3B (∼2% Gly(241) alleles) points to individual variations in complex formation. The functional effect of complex formation was delayed procarboxypeptidase activation due to increased affinity of the inhibitory activation peptide, whereas proelastase activation was unchanged. We conclude that complex formation among human pancreatic protease zymogens is limited to a subset of proelastases and procarboxypeptidases. Complex formation stabilizes the inhibitory activation peptide of procarboxypeptidases and thereby increases zymogen stability and controls activation.

摘要

胰腺通常以单体形式分泌消化酶原。一个显著的例外是牛和其他反刍动物中由蛋白酶原E、胰凝乳蛋白酶原C和羧肽酶原A(proCPA)形成的三元复合物。在人和猪的胰腺中发现了proCPA与弹性蛋白酶原的二元复合物。为了系统地表征人胰腺蛋白酶原之间的复合物形成,我们使用重组弹性蛋白酶原CELA2A、CELA3A和CELA3B;胰凝乳蛋白酶原CTRB1、CTRB2、CTRC和CTRL1;以及羧肽酶原CPA1、CPA2和CPB1进行了结合实验。我们发现proCELA3B不仅与proCPA1结合(解离常数KD为43纳米),而且与proCPA2结合更紧密(KD为18纳米),而proCELA2A仅与proCPA1弱结合(KD为152纳米)。令人惊讶的是,与proCELA3B有92%同源性的proCELA3A由于Ala(241)被Gly进化取代而没有形成稳定的复合物。CELA3A(约4%的Ala(241)等位基因)和CELA3B(约2%的Gly(241)等位基因)中241位的多态性表明复合物形成存在个体差异。复合物形成的功能效应是由于抑制性激活肽的亲和力增加导致羧肽酶原激活延迟,而弹性蛋白酶原激活未改变。我们得出结论,人胰腺蛋白酶原之间的复合物形成仅限于弹性蛋白酶原和羧肽酶原的一个子集。复合物形成稳定了羧肽酶原的抑制性激活肽,从而增加了酶原稳定性并控制激活。

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Chymotrypsin C is a co-activator of human pancreatic procarboxypeptidases A1 and A2.糜蛋白酶 C 是人胰腺 procarboxypeptidase A1 和 A2 的共激活剂。
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