Literature DB >> 10631104

The dominant role of the prosegment of prorenin in determining the rate of activation by acid or trypsin: studies with molecular chimeras.

F Suzuki1, T Nakagawa, H Kakidachi, K Murakami, T Inagami, Y Nakamura.   

Abstract

Human prorenin activation by acid or trypsin is faster than rat prorenin by two orders of magnitude. No plausible mechanism exists to explain the difference. Two chimeric mutant prorenins were produced in CHO cells. A chimera, hPro/rRen, composed of human prorenin prosegment and rat active renin segment, was activated as fast as wild-type human prorenin at pH 3.3 and 25 degrees C or by trypsin (1 microg/ml). The other chimera, rPro/hRen, composed of rat prorenin prosegment and human active renin segment, was activated as slowly as wild-type rat prorenin at pH 3.3 and 25 degrees C or by trypsin (50 microg/ml). These results indicate that the rate of activation of prorenin is predominantly determined by the N-terminal pro-sequence. Plausible mechanisms are discussed. Copyright 2000 Academic Press.

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Year:  2000        PMID: 10631104     DOI: 10.1006/bbrc.1999.1997

Source DB:  PubMed          Journal:  Biochem Biophys Res Commun        ISSN: 0006-291X            Impact factor:   3.575


  9 in total

1.  Prostaglandin E-prostanoid4 receptor mediates angiotensin II-induced (pro)renin receptor expression in the rat renal medulla.

Authors:  Fei Wang; Xiaohan Lu; Kexin Peng; Yaomin Du; Shu-Feng Zhou; Aihua Zhang; Tianxin Yang
Journal:  Hypertension       Date:  2014-05-27       Impact factor: 10.190

2.  (Pro)Renin receptor regulates potassium homeostasis through a local mechanism.

Authors:  Chuanming Xu; Aihua Lu; Hong Wang; Hui Fang; Li Zhou; Peng Sun; Tianxin Yang
Journal:  Am J Physiol Renal Physiol       Date:  2016-07-20

3.  COX-2 mediates angiotensin II-induced (pro)renin receptor expression in the rat renal medulla.

Authors:  Fei Wang; Xiaohan Lu; Kexin Peng; Li Zhou; Chunling Li; Weidong Wang; Xueqing Yu; Donald E Kohan; Shu-Feng Zhu; Tianxin Yang
Journal:  Am J Physiol Renal Physiol       Date:  2014-04-16

4.  Succinate receptor GPR91 provides a direct link between high glucose levels and renin release in murine and rabbit kidney.

Authors:  Ildikó Toma; Jung Julie Kang; Arnold Sipos; Sarah Vargas; Eric Bansal; Fiona Hanner; Elliott Meer; János Peti-Peterdi
Journal:  J Clin Invest       Date:  2008-07       Impact factor: 14.808

5.  The collecting duct is the major source of prorenin in diabetes.

Authors:  Jung J Kang; Ildikó Toma; Arnold Sipos; Elliott J Meer; Sarah L Vargas; János Peti-Peterdi
Journal:  Hypertension       Date:  2008-04-14       Impact factor: 10.190

6.  Mutagenesis of the Cleavage Site of Pro Renin Receptor Abrogates Angiotensin II-Induced Hypertension in Mice.

Authors:  Fei Wang; Yanting Chen; Chang-Jiang Zou; Renfei Luo; Tianxin Yang
Journal:  Hypertension       Date:  2021-05-24       Impact factor: 9.897

7.  Escherichia coli-based production of recombinant ovine angiotensinogen and its characterization as a renin substrate.

Authors:  Shinji Yamashita; Naoya Shibata; Akiyoshi Boku-Ikeda; Erika Abe; Ayumi Inayama; Takashi Yamaguchi; Ayano Higuma; Kaoru Inagaki; Tomoyo Tsuyuzaki; Satoshi Iwamoto; Satoshi Ohno; Takashi Yokogawa; Kazuya Nishikawa; Kazal Boron Biswas; A H M Nurun Nabi; Tsutomu Nakagawa; Fumiaki Suzuki; Akio Ebihara
Journal:  BMC Biotechnol       Date:  2016-04-07       Impact factor: 2.563

8.  Establishing a novel assay system for measuring renin concentration using cost effective recombinant ovine angiotensinogen.

Authors:  Jobaida Akther; A H M Nurun Nabi; Satoshi Ohno; Takashi Yokogawa; Tsutomu Nakagawa; Fumiaki Suzuki; Akio Ebihara
Journal:  Heliyon       Date:  2019-04-04

9.  Site-1 Protease-Derived Soluble (Pro)Renin Receptor Contributes to Angiotensin II-Induced Hypertension in Mice.

Authors:  Ye Feng; Kexin Peng; Renfei Luo; Fei Wang; Tianxin Yang
Journal:  Hypertension       Date:  2020-12-07       Impact factor: 9.897
  9 in total

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