Literature DB >> 16633356

Enzymatic pathways involved in the generation of endothelin-1(1-31) from exogenous big endothelin-1 in the rabbit aorta.

Carlos R Tirapelli1, Marie-Helene Fecteau, Jean-Claude Honore, Eurode Legros, Fernand Gobeil, Pedro D'Orleans-Juste.   

Abstract

We investigated whether blood vessels contribute to the production of ET-1(1-31) from exogenous big endothelin-1 (BigET-1) in the rabbit and assessed which enzymes are involved in this process. Vascular reactivity experiments, using standard muscle bath procedures, showed that BigET-1 induces contraction in endothelium-intact rabbit aortic rings. Preincubation of the rings with phosphoramidon, CGS35066 or thiorphan reduced BigET-1-induced contraction. Conversely, chymostatin did not affect BigET-1-induced contraction. Thiorphan and phosphoramidon, but not CGS35066 or chymostatin, reduced ET-1(1-31)-induced contraction. None of the enzymatic inhibitors affected the contraction afforded by ET-1.BQ123-, but not BQ788-, selective antagonists for ET(A) and ET(B) receptors, respectively, produced concentration-dependent rightward displacements of the ET-1(1-31) and ET-1 concentration-response curves. By the use of enzymatic assays, we found that the aorta, as well as the heart, lung, kidney and liver, possess a chymase-like activity. Enzyme immunoassays detected significant levels of Ir-ET-1(1-31) in bathing medium of aortas after the addition of BigET-1 (30 nM). Neither thiorphan nor chymostatin altered the levels of Ir-ET-1(1-31). Conversely, the levels of Ir-ET-1(1-31) were increased in the presence of phosphoramidon. This marked increase of the 31-amino-acid peptide was abolished when phosphoramidon and chymostatin were added simultaneously. The major new finding of the present work is that the rabbit aorta generates ET-1(1-31) from exogenously administered BigET-1. Additionally, by measuring the production of ET-1(1-31), we showed that a chymase-like enzyme is involved in this process when ECE and NEP are inhibited by phosphoramidon. Our results also suggest that ET-1(1-31) is an alternate intermediate in the production of ET-1 following BigET-1 administration. Finally, we showed that NEP is the predominant enzymatic pathway involved in the cleavage of ET-1(1-31) to a bioactive metabolite that will act on ET(A) receptors to induce contraction in the rabbit aorta.

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Year:  2006        PMID: 16633356      PMCID: PMC1751794          DOI: 10.1038/sj.bjp.0706735

Source DB:  PubMed          Journal:  Br J Pharmacol        ISSN: 0007-1188            Impact factor:   8.739


  31 in total

1.  Endothelin-1[1-31], acting as an ETA-receptor selective agonist, stimulates proliferation of cultured rat zona glomerulosa cells.

Authors:  G Mazzocchi; G P Rossi; L K Malendowicz; H C Champion; G G Nussdorfer
Journal:  FEBS Lett       Date:  2000-12-29       Impact factor: 4.124

2.  Possible roles of angiotensin II-forming enzymes, angiotensin converting enzyme and chymase-like enzyme, in the human aneurysmal aorta.

Authors:  Koutaro Tsunemi; Shinji Takai; Masayoshi Nishimoto; Atsushi Yuda; Shigeto Hasegawa; Yoshihide Sawada; Hitoshi Fukumoto; Shinjiro Sasaki; Mizuo Miyazaki
Journal:  Hypertens Res       Date:  2002-11       Impact factor: 3.872

3.  Development of an efficient strategy for the synthesis of the ETB receptor antagonist BQ-788 and some related analogues.

Authors:  Jean-Philippe Brosseau; Pedro D'Orléans-Juste; Witold A Neugebauer
Journal:  Peptides       Date:  2005-04-25       Impact factor: 3.750

4.  Effect of endothelin-converting enzyme inhibitors on big endothelin-1 induced contraction in isolated rat basilar artery.

Authors:  M Zimmermann; C S Jung; H Vatter; A Raabe; V Seifert
Journal:  Acta Neurochir (Wien)       Date:  2002-11       Impact factor: 2.216

5.  ET(B) receptor blockade potentiates the pressor response to big endothelin-1 but not big endothelin-2 in the anesthetized rabbit.

Authors:  J P Gratton; G A Rae; G Bkaily; P D'Orléans-Juste
Journal:  Hypertension       Date:  2000-03       Impact factor: 10.190

6.  Endothelin-1[1-31] acts as a selective ETA-receptor agonist in the rat adrenal cortex.

Authors:  P Rebuffat; L K Malendowicz; G Neri; G G Nussdorfer
Journal:  Histol Histopathol       Date:  2001-04       Impact factor: 2.303

7.  Increased local angiotensin II formation in aneurysmal aorta.

Authors:  Masayoshi Nishimoto; Shinji Takai; Hitoshi Fukumoto; Koutaro Tsunemi; Atsushi Yuda; Yoshihide Sawada; Mayumi Yamada; Denan Jin; Masato Sakaguchi; Yasuhisa Nishimoto; Shinjiro Sasaki; Mizuo Miyazaki
Journal:  Life Sci       Date:  2002-09-20       Impact factor: 5.037

8.  Pressor and pulmonary responses to ET-1(1-31) in guinea-pigs.

Authors:  Jean-Claude Honoré; Mirco Plante; Ghassan Bkaily; Giles A Rae; Pedro D'Orléans-Juste
Journal:  Br J Pharmacol       Date:  2002-07       Impact factor: 8.739

9.  Role of endothelin-converting enzyme, chymase and neutral endopeptidase in the processing of big ET-1, ET-1(1-21) and ET-1(1-31) in the trachea of allergic mice.

Authors:  Benjamin A De Campo; Roy G Goldie; Arco Y Jeng; Peter J Henry
Journal:  Clin Sci (Lond)       Date:  2002-08       Impact factor: 6.124

10.  Endothelin-1 (1-31) induces a thiorphan-sensitive release of eicosanoids via ET(B) receptors in the guinea pig perfused lung.

Authors:  Mirco Plante; Jean-Claude Honoré; Witold Neugebauer; Pedro D'Orléans-Juste
Journal:  Clin Sci (Lond)       Date:  2002-08       Impact factor: 6.124
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  1 in total

1.  The peptidase inhibitor CGS-26303 increases endothelin converting enzyme-1 expression in endothelial cells through accumulation of big endothelin-1.

Authors:  V Raoch; P Martinez-Miguel; I Arribas-Gomez; M Rodriguez-Puyol; D Rodriguez-Puyol; S Lopez-Ongil
Journal:  Br J Pharmacol       Date:  2007-07-23       Impact factor: 8.739
  1 in total

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