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1.
Endothelin converting enzyme of bovine carotid artery smooth muscles   总被引:4,自引:0,他引:4  
This is the first report clearly demonstrating the presence of endothelin (ET) converting enzyme in vascular smooth muscle. Like cultured endothelial cells, noncultured vascular smooth muscle homogenate of bovine carotid arteries, converts human big ET- 1 to ET-1 at pH 3.0, pH 5.0 and pH 7.0, and the apparent ratio of these three activities is about 6:5:1, respectively. Peptides generated during incubation of the homogenate and big ET- 1 at the three pHs were identified as ET- 1 by radioimmunoassay and high performance liquid chromatography. The two acid enzymes are in the cytosol (103,000xg sup) and are inhibited by pepstatin A, while the neutral enzyme is sensitive to EDTA or phosphoramidon; 73% of the neutral enzyme activity was membrane-bound and the remainder (27%) cytosolic.  相似文献   

2.
Neutral metalloproteases with endothelin-1 (ET-1) converting activity were detected in membranous and cytosolic fractions of cultured endothelial cells (EC) from bovine carotid artery in a ratio of 5:1, respectively. The cytosolic enzyme specifically and quantitatively converts big ET-1 to ET-1 (Km = 10.7 microM), but does not convert big ET-3. Like the membranous enzyme, the cytosolic enzyme is only active at pH 6.5-7.5, and is competitively inhibited by phosphoramidon (Ki = 0.79 microM). The apparent molecular weight of the cytosolic enzyme is about 540 kD, which is 5-6 times greater than that of the membranous enzyme. These results indicate the presence of two types of phosphoramidon-sensitive neutral ET-converting enzyme in vascular EC.  相似文献   

3.
Using a specific and sensitive radioimmunoassay (RIA) for the carboxyl terminal tail of endothelin (ET) (His16-Trp21), we have confirmed the presence of the converting activity from synthetic human big ET-1 to ET-1 in the homogenate of cultured bovine aortic endothelial cells. The optimal pHs for the converting activities were found at pH 3.0 and pH 7.0. The activity at pH 3.0 was completely inhibited by pepstatin A, whereas the activity at pH 7.0 was not affected by known various protease inhibitors except EDTA and EGTA. When the products from big ET-1 were analyzed on an ODS and a CN columns, only ET-1 was detected at pH 7.0, but various ET-like immunoreactivities other than ET-1 were detected at pH 3.0. These findings strongly suggest that mature ET-1 is formed from big ET-1 in the endothelial cells by a metal-dependent neutral protease.  相似文献   

4.
G C Kundu  I B Wilson 《Life sciences》1992,50(13):965-970
An enzyme partially purified from bovine lung membranes appears to be endothelin converting enzyme (ECE). This enzyme specifically cleaves big endothelin-1 (big ET-1) at the proper site, between Trp21 and Val22, with maximum activity at pH 7.5 and with a Km of roughly 3 microM, to produce endothelin-1 (ET-1) and C-terminal peptide (CTP). This same enzyme hydrolyzes the fluorogenic substrate succinyl-Ile-Ile-Trp-methylcoumarinamide to release the highly fluorescent 7-amino-4-methylcoumarin. The peptide derivative has the same amino acid sequence as big ET-1 and is a good substrate with a Km of about 27 microM. This enzyme is a metalloproteinase. It is not inhibited by five common proteinase inhibitors (pepstatin A, PMSF, NEM, E-64 and thiorphan) but it is inhibited by phosphoramidon and chelating compounds. The apoenzyme is restored to nearly full activity by a zinc-EDTA buffer with pZn = 13.  相似文献   

5.
This is the first report clearly demonstrating the presence of endothelin (ET) converting enzyme (ECE) in non-vascular cells (renal epithelial cell lines, MDCK and LLC-PK1). ECEs derived from these epithelial cells were very similar to the endothelial ECE in the following biochemical properties: 1) The optimum pH was 7.0; 2) the Km value for big ET-1 was approximately 30 microM; 3) the enzyme was potently inhibited by EDTA, o-phenanthroline and phosphoramidon; and 4) the enzyme did not convert big ET-2 or big ET-3. These data suggest that phosphoramidon-sensitive ECE is involved in the processing of big ET-1 to ET-1 in the renal tubule.  相似文献   

6.
Analysis of big endothelin-1 digestion by cathepsin D   总被引:2,自引:0,他引:2  
Digestion of big endothelin (ET)-1 by cathepsin D, which is the only substantially identified protease showing ET converting enzyme activity, was characterized. Increased doses of cathepsin D showed decrease of immunoreactive (ir-) ET produced from big ET-1. Time course of big ET-1 conversion showed marked increase of ir-ET in a relatively short period, but further incubation resulted in the decrease of ir-ET. Incubation at various pHs with different doses of cathepsin D revealed that low doses of cathepsin D yielded the maximum production of ir-ET at pH 3.5-4.0, but higher doses of cathepsin D showed a bimodal curve of ir-ET production, which may be due to degradation of ir-ET. HPLC analysis revealed that cathepsin D cleaves Asn18-Ile19 bond in addition to Trp21-Val22 bond of big ET-1. These data suggests cathepsin D is not a physiological endothelin converting enzyme.  相似文献   

7.
We have recently found that cultured vascular endothelial cells (ECs) contain two types of metalloproteinases which convert big endothelin-1 (big ET-1) to endothelin-1 (ET-1) via a single cleavage between Trp21 and Val22. In the present study, two enzymes were clearly differentiated by using sulfhydryl blocking reagents and anion-exchange HPLC. As reported, the converting activity of the membrane fraction of ECs was specifically inhibited by phosphoramidon. N-ethylmaleimide (NEM) markedly enhanced the apparent converting activity of the membrane fraction. This enhancement was not due to the direct action on the converting enzyme, but rather to inhibition of the degradation of big ET-1 and/or ET-1. In contrast, the converting activity of the cytosolic fraction was abolished by NEM treatment. Effects of phosphoramidon and NEM on converting activities of both fractions were confirmed after anion-exchange HPLC of each fraction, using a COSMOGEL QA column. Our results provide new information on two types of metalloproteinases which convert big ET-1 to ET-1, in vascular ECs.  相似文献   

8.
Incubation of big endothelin-3 (big ET-3(1-41)) with the membrane fraction obtained from cultured endothelial cells (ECs) resulted in an increase in immunoreactive-ET (IR-ET). This increasing activity was markedly suppressed by phosphoramidon, which is known to inhibit the conversion of big ET-1(1-39) to ET-1(1-21). Reverse-phase HPLC of the incubation mixture of the membrane fraction with big ET-3 revealed one major IR-ET component corresponding to the elution position of synthetic ET-3(1-21). When the cultured ECs were incubated with big ET-3, a conversion to the mature ET-3, as well as an endogenous ET-1 generation, was observed. Both responses were markedly suppressed by phosphoramidon. By the gel filtration of 0.5% CHAPS-solubilized fraction of membrane pellets of ECs, the molecular mass of the proteinase which converts big ET-1 and big ET-3 to their mature form was estimated to be 300-350 kDa. Phosphoramidon almost completely abolished both converting activities of the proteinase. We conclude that the above type of phosphoramidon-sensitive metalloproteinase functions as an ET-converting enzyme to generate the mature form from big ET-1 and big ET-3 in ECs.  相似文献   

9.
The incubation of big endothelin-1 (big ET-1), big ET-2 or big ET-3 with cultured bovine endothelial cells (ECs) resulted in their conversions to mature endothelins (ETs). These conversions apparently exhibited Michaelis-Menten kinetics as a function of each big ET isopeptide. The conversions of big ETs were abolished by phosphoramidon. These results indicate that vascular endothelium can convert exogenous big ET-1 to mature ET-1 through a phosphoramidon-sensitive metalloprotease, and that this enzyme has also high affinities for big ET-2 and big ET-3.  相似文献   

10.
It is suggested that endothelin-1 (ET-1), a potent vasoconstrictor peptide, is involved in the pathogenesis of cerebral vasospasm following subarachnoid hemorrhage (SAH). We examined the effects of intracisternal administration of big ET-1 on the cerebral arteries in the absence or presence of pretreatment with phosphoramidon, an inhibitor of ET converting enzyme, in anesthetized dogs. After intracisternal administration of big ET-1 (10 micrograms/dog), the caliber of the basilar artery on the angiogram was decreased to about 59% of the control. This was accompanied by a marked increase in immunoreactive ET in the cerebrospinal fluid. Systemic arterial pressure was markedly elevated following big ET-1 injection. All changes induced by big ET-1 were effectively prevented with phosphoramidon. These data suggest that intracisternally administered big ET-1 is converted to ET-1 and that the generated ET-1 produces cerebral vasospasm and hypertension. A phosphoramidon-sensitive metalloproteinase appears to contribute to this conversion.  相似文献   

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