Distinct Multisite Synergistic Interactions Determine Substrate Specificities of Human Chymase and Rat Chymase-1 for Angiotensin II Formation and Degradation

Sanker, Subramaniam; Chandrasekharan, Unnikrishnan M.; Wilk, Dennis; Glynias, Manuel J.; Karnik, Sadashiva S.; Husain, Ahsan

doi:10.1074/jbc.272.5.2963

Cited by 73 publications

(52 citation statements)

References 20 publications

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“…r-c-myc-tagged mouse chymases cleave these substrates at a single site (indicated by the arrow). Conversion of Ang I-(5-10) to Ang II-(5-8) is expected to reflect the potential of the chymases to convert Ang I to Ang II, because the P 4 to P 1 and P 1 ′ to P 2 ′ residues of the substrate are known to be crucial in determining catalytic specificity (15,16). In Ang I-(5-10) and Ang I, the substrate P 4 to P 1 residues (i.e., IHPF) and P 1 ′ to P 2 ′ residues (i.e., HL) are identical.…”

Section: Introductionmentioning

confidence: 99%

Involvement of chymase-mediated angiotensin II generation in blood pressure regulation

Liu²,

Michalicek³

et al. 2004

J. Clin. Invest.

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Section: Introductionmentioning

confidence: 99%

Involvement of chymase-mediated angiotensin II generation in blood pressure regulation

Liu²,

Michalicek³

et al. 2004

J. Clin. Invest.

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“…It also should be emphasized that any non-additive interactions, favorable or unfavorable, between substrate residues occupying different subsite positions will tend to make an individual substrate appear more or less acceptable in comparison to the suitability predicted from mixtures of peptides, as in our study. The possibility of such interactions between subsites is suggested by a study of a library of non-cleavable, peptidic inhibitors of chymase (40) as well as by studies of chymase-mediated hydrolysis of angiotensin analogs (27). The observed effect of The adjacent lane contains HSA incubated in buffer alone.…”

Section: P1 Subsite Preferences Predicted By the Combinatorial Substrmentioning

confidence: 99%

“…This side chain is aromatic for chymases and other chymotryptic enzymes. In the case of chymase-mediated hydrolysis of angiotensin I, interactions involving P1, P1Ј, and P2Ј are particularly important (24,25,27,28). However, for many serine peptidases (including chymase and cathepsin G hydrolyzing other peptide substrates), interactions on the other side of P1 (involving P4, P3, and P2) critically influence substrate binding and hydrolysis (29,30).…”

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confidence: 99%

Albumin Is a Substrate of Human Chymase

Raymond

Ruggles

Craik

et al. 2003

Journal of Biological Chemistry

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Human chymase is a chymotryptic serine peptidase stored and secreted by mast cells. Compared with other chymotryptic enzymes, such as cathepsin G and chymotrypsin, it is much more slowly inhibited by serum serpins. Although chymase hydrolyzes several peptides and proteins in vitro, its target repertoire is limited compared with chymotrypsin because of selective interactions in an extended substrate-binding site. The bestknown natural substrate, angiotensin I, is cleaved to generate vasoactive angiotensin II. Selectivity of angiotensin cleavage depends in major part on interactions involving substrate residues on the carboxyl-terminal (P1-P2) side of the cleaved bond. To identify new targets based on interactions with residues on the aminoterminal (P4 -P1) side of the site of hydrolysis, we profiled substrate preferences of recombinant human chymase using a combinatorial, fluorogenic peptide substrate library. Data base queries using the peptide (Arg-Glu-Thr-Tyr-X) generated from the most preferred amino acid at each subsite identify albumin as the sole, soluble, human extracellular protein containing this sequence. We validate the prediction that this site is chymase-susceptible by showing that chymase hydrolyzes albumin uniquely at the predicted location, with the resulting fragments remaining disulfide-linked. The site of hydrolysis is highly conserved in vertebrate albumins and is near predicted sites of metal cation binding, but nicking by chymase does not alter binding of Cu 2؉ or Zn 2؉ . A synthetic peptidic inhibitor, diphenyl N ␣ -benzoxycarbonyl-L-Arg-Glu-Thr-Phe P -phosphonate, was designed from the preferred P4 -P1 substrate sequence. This inhibitor is highly potent (IC 50 3.8 nM) and 2,700-and 1,300-fold selective for chymase over cathepsin G and chymotrypsin, respectively. In summary, these findings reveal albumin to be a substrate for chymase and identify a potentially useful new chymase inhibitor.

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“…Differences between rats and dogs can be caused by the cardiac Ang II-forming mechanism and the effect of cardiac chymase. In the rat heart, Ang II is mainly produced by cardiac ACE, not by cardiac chymase, and is degraded by cardiac chymase [16].Because of the difference in cardiac Ang II-forming pathways by species, hamsters were used in this study to examine the effect of AT1 receptor blockers on cardiac fibrosis in dogs. After 4 weeks of administration of an AT1 receptor blocker to the hamsters, echocardiography, assessment of cardiac Ang II-forming enzymes, and histological examination of the heart were conducted to investigate the relationships between cardiac RAS and cardiac function/ remodeling.…”

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confidence: 99%

mentioning

confidence: 99%

Effect of Angiotensin II Type 1 Receptor Blocker on Cardiac Angiotensin-Converting Enzyme and Chymase-Like Activities, and Cardiac Fibrosis in Cardiomyopathic Hamsters

Shimizu

Tanaka

Uchida

et al. 2006

The Journal of Veterinary Medical Science

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ABSTRACT. It has been reported that cardiac chymase has an effect on cardiac fibrosis through the Angiotensin (Ang) II formation and an Ang II-independent mechanism. In the present study, Ang II type 1 (AT1) receptor blocker (candesartan cilexetil) was administered to dilated cardiomyopathic (DCM; Bio TO2) hamsters for 4 weeks to study the effect of AT1 receptor blocker on cardiac chymase-like activity and cardiac fibrosis. Echocardiography, histological examination, and assessment of cardiac angiotensin-converting enzyme (ACE)/chymase-like activities were conducted. Hamsters showed cardiac dysfunction due to increased left ventricular dimensions and decreased ventricular wall thickness, significant increase in cardiac chymase-like activity, and fibrosis. This result indicates that the cardiac chymase-like activity is responsible for cardiac fibrosis. When candesartan cilexetil was administered to Bio TO2 hamsters, cardiac chymase-like activity increased significantly, whereas cardiac fibrosis decreased significantly. Cardiac ACE and chymase-like activities were unchanged in non-DCM hamsters with candesartan cilexetil. This suggests that the cardiac Ang II formation mechanism was stimulated by suppressing the effect of cardiac Ang II, and cardiac chymase-like activity could be increased. Moreover, this mechanism may be more highly activated if cardiac Ang II is activated in the heart. In conclusion, we demonstrated that AT1 receptor blocker reduced cardiac fibrosis, although cardiac chymase-like activity increased. Because the Ang II-forming pathway and the effect of chymase in hamsters is similar to that in dogs, the results of the present study may supplement the available information for dogs. KEY WORDS: angiotensin-converting enzyme, chymase, heart failure, remodeling, renin-angiotensin system. J. Vet. Med. Sci. 68(3): 227-233, 2006 The renin-angiotensin system (RAS) is an adaptive mechanism of the body that maintains circulatory homeostasis and cardiac function in the presence of excessive hemodynamic overload. Although it has been thought that RAS exists only in the circulatory system (circulating RAS), RAS also has been found to exist in the heart (cardiac RAS) [14,24]. Angiotensin (Ang) II, one of the effector peptides of RAS, is known as a causative agent of cardiac remodeling [15]. The Ang II-forming mechanism in the dog's heart is the same as that in humans. In both dogs and humans, cardiac Ang II is produced not only by the cardiac angiotensinconverting enzyme (ACE)-dependent pathway, but also by the cardiac chymase-dependent pathway [1,2,23]. The presence of this alternative pathway indicates that ACE inhibitors cannot completely inhibit the cardiac Ang II. A study in rats revealed that Ang II type 1 (AT1) receptor blockers reduced the hemodynamic load and cardiac remodeling by inhibiting the effect of Ang II at the receptor level, and consequently improved cardiac function [20]. Due to this difference in the effector site, AT1 receptor blockers are expected to be more superior to ACE inhibitors....

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Distinct Multisite Synergistic Interactions Determine Substrate Specificities of Human Chymase and Rat Chymase-1 for Angiotensin II Formation and Degradation

Cited by 73 publications

References 20 publications

Involvement of chymase-mediated angiotensin II generation in blood pressure regulation

Involvement of chymase-mediated angiotensin II generation in blood pressure regulation

Albumin Is a Substrate of Human Chymase

Effect of Angiotensin II Type 1 Receptor Blocker on Cardiac Angiotensin-Converting Enzyme and Chymase-Like Activities, and Cardiac Fibrosis in Cardiomyopathic Hamsters

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