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人心力衰竭中 B 型利钠肽前体 1-108 的加工和降解。

Pro-B-type natriuretic peptide-1-108 processing and degradation in human heart failure.

机构信息

From the Cardiorenal Research Laboratory, Division of Cardiovascular Disease, Mayo Clinic, Rochester, MN.

出版信息

Circ Heart Fail. 2015 Jan;8(1):89-97. doi: 10.1161/CIRCHEARTFAILURE.114.001174. Epub 2014 Oct 22.

DOI:10.1161/CIRCHEARTFAILURE.114.001174
PMID:25339504
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4303547/
Abstract

BACKGROUND

We have reported that pro-B-type natriuretic peptide (BNP)-1-108 circulates and is processed to mature BNP1-32 in human blood. Building on these findings, we sought to determine whether proBNP1-108 processed forms in normal circulation are biologically active and stimulate cGMP, and whether proBNP1-108 processing and activity are altered in human heart failure (HF) compared with normal. Because BNP1-32 is deficient whereas proBNP1-108 is abundant in HF, we hypothesize that proBNP1-108 processing and degradation are impaired in HF patients ex vivo.

METHODS AND RESULTS

We measured circulating molecular forms, including BNP1-32, proBNP1-108, and N-terminal-proBNP, and all were significantly higher in patients with HF when compared with that in normals. Fresh serum samples from normals or patients with HF were incubated with or without exogenous nonglycosylated proBNP1-108 tagged with 6 C-terminal Histidines to facilitate peptide isolation. His-tag proBNP1-108 was efficiently processed into BNP1-32/3-32 at 5 minutes in normal serum, persisted for 15 minutes, then disappeared. Delayed processing of proBNP1-108 was observed in HF samples, and the degradation pattern differed depending on left ventricular function. The 5-minute processed forms from both normal and HF serums were active and generated cGMP via guanylyl cyclase-A receptors; however, the 180-minute samples were not active. The proBNP1-108 processing enzyme corin and BNP-degrading enzyme dipeptidyl peptidase-4 were reduced in HF versus normal, perhaps contributing to differential BNP metabolism in HF.

CONCLUSIONS

Exogenous proBNP1-108 is processed into active BNP1-32 and ultimately degraded in normal circulation. The processing and degradation of BNP molecular forms were altered but complete in HF, which may contribute to the pathophysiology of HF.

摘要

背景

我们曾报道过,B 型利钠肽前体(pro-BNP)1-108 在人血液中循环并被加工为成熟的 BNP1-32。在此基础上,我们试图确定在正常循环中,proBNP1-108 的加工形式是否具有生物活性并刺激 cGMP,以及与正常情况相比,proBNP1-108 的加工和活性是否在人类心力衰竭(HF)中发生改变。由于 BNP1-32 缺乏而 proBNP1-108 在 HF 中丰富,因此我们假设 HF 患者体外的 proBNP1-108 加工和降解受损。

方法和结果

我们测量了循环中的分子形式,包括 BNP1-32、proBNP1-108 和 N 端-proBNP,与正常相比,HF 患者的所有这些分子形式都显著升高。正常或 HF 患者的新鲜血清样本在存在或不存在外源性非糖基化 proBNP1-108 的情况下孵育,proBNP1-108 用 6 个 C 末端组氨酸标记以方便肽分离。在正常血清中,His 标记的 proBNP1-108 在 5 分钟内被有效加工成 BNP1-32/3-32,持续 15 分钟,然后消失。在 HF 样本中观察到 proBNP1-108 的处理延迟,并且降解模式取决于左心室功能而有所不同。来自正常和 HF 血清的 5 分钟处理形式均为活性形式,并通过鸟苷酸环化酶-A 受体生成 cGMP;然而,180 分钟的样本则没有活性。与正常相比,HF 中的 proBNP1-108 加工酶 corin 和 BNP 降解酶二肽基肽酶-4 减少,这可能导致 HF 中 BNP 代谢的差异。

结论

外源性 proBNP1-108 被加工成活性 BNP1-32,最终在正常循环中降解。HF 中的 BNP 分子形式的加工和降解发生改变但不完全,这可能导致 HF 的病理生理学发生改变。

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Secretion of prohormone of B-type natriuretic peptide, proBNP1-108, is increased in heart failure.B型利钠肽原激素(proBNP1-108)的分泌在心力衰竭时会增加。
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BNP molecular forms and processing by the cardiac serine protease corin.脑钠肽分子形式及其在心氨酸蛋白酶 corin 作用下的加工。
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