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Drug
Enzyme
Compound
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Query: UNIPROT:P15088 (
mast cell
)
14,925
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Chymase is a chymotrypsin-like serine protease secreted from mast cells. Mammalian chymases are classified into two subgroups (alpha and beta) according to structure and substrate specificity; human chymase is an alpha-chymase. An important action of chymase is the ACE-independent conversion of
Ang I
to
Ang II
, but chymase also degrades the extracellular matrix, activates TGF-beta1 and IL-1beta, forms 31-amino acid endothelins and is involved in lipid metabolism. Under physiological conditions, the role of chymase in blood vessels is uncertain. In pathological situations, however, chymase may be important. In animal models of hypertension and atherosclerosis, chymase may be involved in lipid deposition and intimal and smooth muscle hyperplasia, at least in some vessels. In addition, chymase has pro-angiogenic properties. In human diseased blood vessels (e.g. atherosclerotic and aneurysmal aorta; remodeled pulmonary blood vessels), there are increases in chymase-containing mast cells and/or in chymase-dependent conversion of
Ang I
to
Ang II
. These findings have raised the possibility that inhibition of chymase may have a role in the therapy of vascular disease. The effects of chymase can theoretically be attenuated either by reducing availability of the enzyme, with a
mast cell
stabiliser, or alternatively with specific chymase inhibitors. The
mast cell
stabiliser, tranilast, was shown to be beneficial in animal models of atherosclerosis, where a prevention protocol was used, but was not effective in clinical trials where it was administered after angioplasty. Chymase inhibitors could have the advantage of being effective even if used after injury. Several orally active inhibitors, including SUN-C8257, BCEAB, NK3201 and TEI-E548, are now available. These have yet to be tested in humans, but promising results have been obtained in animal models of atherosclerosis and angiogenesis. It is concluded that orally active inhibitors of chymase may have a place in the treatment of vascular diseases where injury-induced
mast cell
degranulation contributes to the pathology.
...
PMID:Vascular chymase: pathophysiological role and therapeutic potential of inhibition. 1498 62
The octapeptide angiotensin II (
Ang II
) exerts a wide range of effects on the cardiovascular system but has also been implicated in the regulation of cell proliferation, fibrosis, and apoptosis.
Ang II
is formed by cleavage of
Ang I
by angiotensin-converting enzyme, but there is also evidence for non-angiotensin-converting enzyme-dependent conversion of
Ang I
to
Ang II
. Here we address the role of
mast cell
proteases in
Ang II
production by using two different mouse strains lacking
mast cell
heparin or mouse mast cell protease 4 (mMCP-4), the chymase that may be the functional homologue to human chymase.
Ang I
was added to ex vivo cultures of peritoneal cells, and the generation of
Ang II
and other metabolites was analyzed. Activation of mast cells resulted in marked increases in both the formation and subsequent degradation of
Ang II
, and both of these processes were strongly reduced in heparin-deficient peritoneal cells. In the mMCP-4(-/-) cell cultures no reduction in the rate of
Ang II
generation was seen, but the formation of Ang-(5-10) was completely abrogated. Addition of a
carboxypeptidase A
(
CPA
) inhibitor to wild type cells caused complete inhibition of the formation of Ang-(1-9) and Ang-(1-7) but did not inhibit
Ang II
formation. However, when the
CPA
inhibitor was added to the mMCP-4(-/-) cultures, essentially complete inhibition of
Ang II
formation was obtained. Taken together, the results of this study indicate that mast cell chymase and
CPA
have key roles in both the generation and degradation of
Ang II
.
...
PMID:Cooperation between mast cell carboxypeptidase A and the chymase mouse mast cell protease 4 in the formation and degradation of angiotensin II. 1517 64
Angiotensin I-converting enzyme (ACE) inhibitors are thought to lower blood pressure in hypertensive patients, mainly by decreasing angiotensin II (
Ang II
) formation. Chymase, a human mast cell protease, has recently been proposed to play a role in blood pressure regulation because of its
Ang II
-forming activity. Here we show that the predominant chymase mRNA species in the mouse aorta are those for types 4 and 5 isoforms, and that both are efficient
Ang II
-forming enzymes. Evaluation of ACE-dependent and ACE-independent
Ang II
-forming pathways in
mast cell
-deficient (Kit(w)/Kit(w-v)) mice and their
mast cell
-sufficient littermate (MC(+/+)) controls revealed that, in contrast to the latter, Kit(w)/Kit(w-v) mice fail to express chymase mRNAs in the vasculature and have almost no ACE-independent
Ang II
-forming activity in either isolated blood vessels or homogenates. Moreover, in MC(+/+) but not in Kit(w)/Kit(w-v) mice, a contribution of ACE-independent
Ang II
generation to blood pressure regulation was evident by a 1.6-fold greater maximal reduction in mean arterial pressure with acute ACE inhibition plus AT(1) receptor blockade than with ACE inhibition alone. Thus, mast cells are the source of the vascular ACE-independent pathway, and the antihypertensive benefit of combining ACE inhibitor therapy with AT(1) receptor antagonist therapy is most likely due to negation of chymase-catalyzed
Ang II
generation.
...
PMID:Involvement of chymase-mediated angiotensin II generation in blood pressure regulation. 1523 18
The renin-angiotensin system is a key target for drugs combating cardiovascular disease. Angiotensin-converting enzyme (ACE) inhibitors and angiotensin receptor type-1 (AT1 receptor) blockers are well known. However, angiotensin peptides can be generated through a number of pathways besides the classic system. This review outlines some of these pathways, their relation to the classic system and the likely effect of inhibiting them. Renin is still the key enzyme in angiotensin peptide generation and seems to be the only route to
angiotensin I
formation in vivo. Renin inhibitors may have some advantages in terms of specificity. Also, by blocking
angiotensin I
generation, the production of downstream bioactive
angiotensin I
metabolites should also be blocked. Chymase, a
mast cell
serine protease, cleaves
angiotensin I
to produce angiotensin II and may be important at sites of inflammation such as atherosclerotic plaque. Angiotensin-converting enzyme 2 (ACE2), a carboxypeptidase structurally related to ACE but resistant to ACE inhibitors, has a protective effect on cardiac function. Neutral endopeptidase 24.11 breaks down both atrial natriuretic peptide and angiotensin II. Inhibiting it potentiates the action of endogenous atrial peptide but only affects circulating angiotensin II when basal levels are above normal. Dual inhibitors of ACE and endopeptidase 24.11 may be of value where there is both sodium retention and increased angiotensin II. Targeting the renin-angiotensin system by gene therapy or antibody treatment may provide a longer-term treatment for hypertension.
...
PMID:Targeting the renin-angiotensin system: what's new? 1563 41
The renin-angiotensin system (RAS) acts to regulate blood volume and arterial pressure, and has direct effects on the heart. Renin, released by the kidney, circulates and acts-in the rate-limiting step of angiotensin II (
Ang II
) production-to convert angiotensinogen to inactive
angiotensin I
(
Ang I
).
Ang II
constricts vessels, leading to increased arterial pressure, among other effects. Components of the RAS have been found in a number of extra-renal tissues. Recent research indicates that mast cells in the heart may produce renin, creating a cardiac-specific RAS that acts locally to produce
Ang II
. These results, however, are not without controversy. Others have searched for sites of renin production and have found no other significant source that was physiologically important or that could not be completely ruled out as a possible contaminant. How important is
mast cell
-synthesized renin for direct cardiac-related effects?
...
PMID:Mast cells: the missing source of cardiac renin? 1573
It was hypothesized that chymase may participate in hemodialysis vascular access dysfunction, as chymase has been known to be an effective enzyme in the conversion of
angiotensin I
(
Ang I
) to
Ang II
and in the latent TGF-beta1 to the active form. An arteriovenous (AV) fistula was created between the brachial artery and vein in dogs. In the AV anastomosis, when the walls of the venous and arterial sides were compared, the eccentric neointimal formation was most evident in the venous wall. Compared with the venous side downstream of the AV anastomosis, a severe neointimal hyperplasia was found in the venous side upstream of the AV anastomosis (intima/media, 153 +/- 25%). The chymase- and TGF-beta-positive mast cells were markedly accumulated in the proliferous neointima and media. In association with the reduction of chymase expression, a marked decrease in
Ang II
-, AT(1) receptor-, and TGF-beta-positive areas was achieved by NK3201 (a chymase inhibitor) treatment, and the neointima formation (intima/media: region A, 53 +/- 9%, P < 0.001; region B, 54 +/- 14%, P < 0.001) was also significantly suppressed in this group. Although lisinopril treatment also provided some beneficial effects with regard to the prevention of neointimal formation, the degree was less than that seen with chymase inhibition. These findings indicate that
mast cell
-derived chymase plays an essential role in the pathogenesis of the AV fistula access failure and that chymase inhibition may be a therapeutic target for the treatment of hemodialysis vascular access dysfunction in clinic settings.
...
PMID:Effect of chymase inhibition on the arteriovenous fistula stenosis in dogs. 1574 2
Chymase degrades
angiotensin I
(AI) to form angiotensin II (AII), probably constituting a bypass of the renin-angiotensin cascade. Chymase activity increases in some vascular diseases. In the kidney, an increase in chymase activity was reported in an animal model of ischemic kidney of renovascular hypertension (RVH); however, no such evidence has been provided in humans. We treated a 64-year-old patient with severe unilateral RVH and atherosclerosis, for whom removal of the ischemic kidney was the only option. Using immunohistochemical staining, we investigated chymase activity in the removed kidney and associated artery and vein. An increase in chymase activity, together with mast cells infiltrating the interstitium, was observed where interstitial fibrosis was seen. In the renal artery, where severe atherosclerosis was seen, and also in the vein,
mast cell
infiltration in the adventitia was accompanied by chymase. The captopril test showed an increase in serum aldosterone level, with a concomitant increase in plasma renin activity and decrease in blood pressure. Because the decrease in blood pressure implies a decrease in circulatory AII levels, it is plausible that in this patient, chymase had a role in AII formation in the adrenal gland to stimulate aldosterone secretion. Thus, by means of captopril, AI levels increased, and chymase may have produced AII in loci tissues, which, in turn, stimulated aldosterone secretion. This is the first report of an increase in chymase activity in the interstitium of an ischemic kidney and renal artery and vein in a patient with RVH and atherosclerosis.
...
PMID:Mast cell chymase in the ischemic kidney of severe unilateral renovascular hypertension. 1575 63
On release from cardiac mast cells, alpha-chymase converts
angiotensin I
(
Ang I
) to
Ang II
. In addition to
Ang II
formation, alpha-chymase is capable of activating TGF-beta1 and IL-1beta, forming endothelins consisting of 31 amino acids, degrading endothelin-1, altering lipid metabolism, and degrading the extracellular matrix. Under physiological conditions the role of chymase in the mast cells of the heart is uncertain. In pathological situations, chymase may be secreted and have important effects on the heart. Thus, in animal models of cardiomyopathy, pressure overload, and myocardial infarction, there are increases in both chymase mRNA levels and chymase activity in the heart. In human diseased heart homogenates, alterations in chymase activity have also been reported. These findings have raised the possibility that inhibition of chymase may have a role in the therapy of cardiac disease. The selective chymase inhibitors developed to date include TY-51076, SUN-C8257, BCEAB, NK320, and TEI-E548. These have yet to be tested in humans, but promising results have been obtained in animal models of myocardial infarction, cardiomyopathy, and tachycardia-induced heart failure. It seems likely that orally active inhibitors of chymase could have a place in the treatment of cardiac diseases where injury-induced
mast cell
degranulation contributes to the pathology.
...
PMID:Cardiac chymase: pathophysiological role and therapeutic potential of chymase inhibitors. 1579 Dec 85
Having identified renin in cardiac mast cells, we assessed whether its release leads to cardiac dysfunction. In Langendorff-perfused guinea pig hearts,
mast cell
degranulation with compound 48/80 released
Ang I
-forming activity. This activity was blocked by the selective renin inhibitor BILA2157, indicating that renin was responsible for
Ang I
formation. Local generation of cardiac
Ang II
from
mast cell
-derived renin also elicited norepinephrine release from isolated sympathetic nerve terminals. This action was mediated by
Ang II
-type 1 (AT1) receptors. In 2 models of ischemia/reperfusion using Langendorff-perfused guinea pig and mouse hearts, a significant coronary spillover of renin and norepinephrine was observed. In both models, this was accompanied by ventricular fibrillation. Mast cell stabilization with cromolyn or lodoxamide markedly reduced active renin overflow and attenuated both norepinephrine release and arrhythmias. Similar cardioprotection was observed in guinea pig hearts treated with BILA2157 or the AT1 receptor antagonist EXP3174. Renin overflow and arrhythmias in ischemia/reperfusion were much less prominent in hearts of
mast cell
-deficient mice than in control hearts. Thus,
mast cell
-derived renin is pivotal for activating a cardiac renin-angiotensin system leading to excessive norepinephrine release in ischemia/reperfusion. Mast cell-derived renin may be a useful therapeutic target for hyperadrenergic dysfunctions, such as arrhythmias, sudden cardiac death, myocardial ischemia, and congestive heart failure.
...
PMID:Cardiac mast cell-derived renin promotes local angiotensin formation, norepinephrine release, and arrhythmias in ischemia/reperfusion. 1696 30
We previously reported that mast cells express renin, the rate-limiting enzyme in the renin-angiotensin cascade. We have now assessed whether
mast cell
renin release triggers angiotensin formation in the airway. In isolated rat bronchial rings,
mast cell
degranulation released enzyme with
angiotensin I
-forming activity blocked by the selective renin inhibitor BILA2157. Local generation of angiotensin (ANG II) from
mast cell
renin elicited bronchial smooth muscle contraction mediated by ANG II type 1 receptors (AT(1)R). In a guinea pig model of immediate type hypersensitivity, anaphylactic
mast cell
degranulation in bronchial rings resulted in ANG II-mediated constriction. As in rat bronchial rings, bronchoconstriction (BC) was inhibited by a renin inhibitor, an AT(1)R blocker, and a
mast cell
stabilizer. Anaphylactic release of renin, histamine, and beta-hexosaminidase from mast cells was confirmed in the effluent from isolated, perfused guinea pig lung. To relate the significance of this finding to humans, mast cells were isolated from macroscopically normal human lung waste tissue specimens. Sequence analysis of human lung
mast cell
RNA showed 100% homology between human lung
mast cell
renin and kidney renin between exons 1 and 10. Furthermore, the renin protein expressed in lung mast cells was enzymatically active. Our results demonstrate the existence of an airway renin-angiotensin system triggered by release of mast-cell renin. The data show that locally produced ANG II is a critical factor governing BC, opening the possibility for novel therapeutic targets in the management of airway disease.
...
PMID:Mast cell renin and a local renin-angiotensin system in the airway: role in bronchoconstriction. 1820 78
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