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Query: UMLS:C0020538 (
hypertension
)
170,190
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
When big endothelin-1 (big ET-1, 1-39) was incubated with the membrane fraction obtained from cultured endothelial cells (ECs) at pH 7.0 for 6 h, the immunoreactive (ir) ET in the reaction mixture was markedly increased.
Phosphoramidon
, a metalloproteinase inhibitor, as well as metal chelators specifically suppressed the above increase. Using reverse-phase high-performance liquid chromatography, ir-ET was confirmed to be ET-1[1-21]. In addition, we noted that the alterations in ET-1 correlated with those in the C-terminal fragment (CTF, 22-39) of big ET-1. When cultured ECs were incubated with phosphoramidon, time-dependent secretion of ET-1 and CTF from the cells was markedly suppressed. In contrast, the secretion of big ET-1 was increased by phosphoramidon. Thiorphan, a specific inhibitor of neutral endopeptidase 24.11, was without effect on the secretion of ET-related peptides. Moreover, phosphoramidon potently inhibited the hypertensive effect of big ET-1 without affecting the ET-1-induced
hypertension
in anesthetized rats. From these findings, it seems reasonable to consider that phosphoramidon-sensitive and membrane-bound metalloproteinase, which is not a neutral endopeptidase 24.11, is the most plausible candidate for big ET-1-converting enzyme in vivo.
...
PMID:Conversion of big endothelin-1 to endothelin-1 by phosphoramidon-sensitive metalloproteinase derived from aortic endothelial cells. 172 35
1. Cardiovascular responses to human proendothelin [1-38], in the absence and presence of phosphoramidon, were studied in conscious Long Evans rats, chronically instrumented for the continuous recording of heart rate, systemic arterial blood pressure and renal, mesenteric and hindquarters blood flows. 2. A dose of 0.1 nmol kg-1 human proendothelin [1-38] caused a slight pressor effect (maximum 5 +/- 2 mmHg), but a clear bradycardia (maximum -29 +/- 7 beats min-1). Renal haemodynamics were unchanged but there was mesenteric vasoconstriction and a vasodilation followed by a vasoconstriction in the hindquarters. 3. A dose of 1.0 nmol kg-1 human proendothelin [1-38] caused a gradual
hypertension
(maximum 42 +/- 4 mmHg at 10 min) and a profound bradycardia (-149 +/- 10 beats min-1 at 30 min). There were gradual but marked, renal and hindquarters vasoconstrictions, whereas there was a substantial mesenteric vasoconstriction that was relatively rapid in onset. 4. In 2 animals, administration of human proendothelin [1-38] at a dose of 10 nmol kg-1 caused an initial hypotension followed by a rapidly-developing pressor effect; there were renal and mesenteric vasoconstrictions and vasodilatation followed by vasoconstriction in the hindquarters. These changes were very similar to those seen following injection of endothelin-1 (0.1 nmol kg-1). 5.
Phosphoramidon
(2 mumol kg-1) had no cardiovascular effects itself and it did not affect significantly the pressor or mesenteric vasoconstrictor effects of human proendothelin [1-38], but it reduced the bradycardia and renal and hindquarters vasoconstrictor responses. A higher dose of phosphoramidon (lOnmolkg-') caused significant attenuation of all the responses to human proendothelin [1-38], but a substantial mesenteric vasoconstrictor response still occurred under these conditions. 6 The results are consistent with the involvement of phosphoramidon-sensitive enzyme systems in the conversion of human proendothelin [1-38] to endothelin-1 in vivo. In addition, considering the different patterns of responses to human proendothelin [1-38] in the effector tissues studied (heart, and renal, mesenteric and hindquarters vascular beds), and the differential degrees of inhibition of them by phosphoramidon, it is likely that the effects of human proendothelin [1-38] were due to its local (rather than systemic) conversion to endothelin-1 by processes with differing degrees of susceptibility to phosphoramidon.
...
PMID:The effects of phosphoramidon on the regional haemodynamic responses to human proendothelin [1-38] in conscious rats. 191 89
We investigated the intrarenal conversion of big endothelin-1 (ET-1) to ET-1 in the isolated perfused rat kidney. Big ET-1 caused a concentration-dependent increase in perfusion pressure, and the pressor molar potency of the peptide was 50-fold less than that of ET-1. The big ET-1 (2 x 10(-8) mol/L)-induced pressor action was accompanied by increases in immunoreactive endothelin levels in both the perfusate and renal tissues.
Phosphoramidon
(10(-4) mol/L), a metalloproteinase inhibitor, significantly suppressed the big ET-1-induced pressor action and the accumulation of immunoreactive endothelin in renal tissues. On the other hand, phosphoramidon slightly but significantly sustained the ET-1-induced pressor effect. The effect of kelatorphan (10(-4) mol/L), a specific inhibitor of neutral endopeptidase 24.11, on the ET-1-induced pressor effect was the same as that seen with phosphoramidon. When ET-1 was exogenously added to the perfusate, phosphoramidon or kelatorphan significantly increased the immunoreactive endothelin levels in renal tissues after perfusion, without affecting the disappearance rate of immunoreactive endothelin from the perfusate. Therefore, the phosphoramidon-sensitive ET-1-converting enzyme in the kidney seems to contribute to the functional local conversion of big ET-1 to ET-1, and neutral endopeptidase 24.11 may be responsible for the proteolytic degradation of ET-1 in the kidney. In addition, immunoreactive endothelin levels in renal tissues but not in the perfusate can account for the functional conversion of big ET-1 to ET-1 and for the local proteolytic degradation of ET-1 in the kidney.
Hypertension
1994 Aug
PMID:Phosphoramidon-sensitive conversion of big endothelin-1 and degradation of endothelin-1 in rat kidney. 803 48
1. In the anaesthetized, ganglion-blocked rat, intravenous boluses of endothelin-1, endothelin-2 and endothelin-3 induced a transient hypotensive effect followed by a potent long lasting pressor response (ED50 mmHg: 0.72 +/- 0.05, 1.8 +/- 0.2 and 2.7 +/- 0.3 nmol kg-1, respectively). The maximal effect for the three peptides was of a similar order of magnitude (delta MAP: 84 to 89 mmHg). Neither of these effects was influenced by phosphoramidon or thiorphan (10 mg kg-1, i.v.). 2. Intravenously administered big-endothelin-1 and -2 induced a transient (1-2 min) hypotension followed by a potent long lasting (> 25 min) vasopressor effect (ED50 mmHg: 1.8 +/- 0.2 and 6.7 +/- 0.4 nmol kg-1, respectively), with a similar maximal activity (delta MAP: 85 +/- 4 and 81 +/- 2.4 mmHg, respectively). The onset of the big-endothelin-1 vasopressor effect was more rapid (5-6 min) than that of big-endothelin-2 (10-13 min). Big-endothelin-3 was found to induce only a potent, long lasting (> 35 min)
hypertension
, with a maximal effect of 75 +/- 4.6 mmHg at 10 nmol kg-1 and an ED50 mmHg of 6.5 +/- 0.4 nmol kg-1. The onset of this effect was much slower (20-25 min) than that of the other proendothelins. Pressor responses induced by big-endothelin-1, -2 and -3 (3, 15 and 10 nmol kg-1, respectively) were markedly reduced (60, 80 and 100%) in the presence of phosphoramidon (10 mg kg-1, i.v.). Thiorphan (10 mg kg-1, i.v.) did not inhibit the effects of big-endothelin-1, -2 and -3. 3. In the electrically stimulated rat vas deferens, endothelin-I and -2 were found to be equipotent enhancers of the twitch response (EC100%: 4.0 +/- 0.4 nm and 7.9 +/- 4.8 nm, respectively), both about 3-4 fold as active as endothelin-3 (EC100%: 19 +/- 2.5 nM). Endothelin-1 and -3 showed a comparable maximalstimulatory effect (Emax: 296 +/- 30 and 262 +/- 24%) while endothelin-2 was less active (Emax: 194 +/- 30%).4. Big-endothelin-l and -2 were potent enhancers of the twitch response too (EC 100,%: 10.0 +/- 2.6 nM and 21.6 +/- 3.2 nM, respectively), with a comparable maximal stimulatory effect (Emax: 254 +/- 22 and 264 +/-24%). Big-endothelin-3 was found to be less potent (EC,100%: 275 +/- 21 nM), but retained a marked potentiating effect (Emax: 200 +/- 38%).
Phosphoramidon
, but not thiorphan, concentration-dependently(10 and 100 microM) reduced big-endothelin-1 (58 and 86% respectively) and big-endothelin-2 (21 and 56%)-mediated responses. Conversely, the big-endothelin-3 effect was reduced by phosphoramidon only at 100 microM (-70%), while thiorphan acts concentration-dependently (31 and 71% at 10 and 100 microM respectively); thus, in the rat vas deferens, big-endothelin-I and -2 were as potent as their corresponding endothelins, while big-endothelin-3 was about 20 times less potent than endothelin-3.5. The increasing effect of endothelin-2 (194 +/- 30% over baseline) was significantly enhanced by either 10 microM phosphoramidon (277 +/- 42%) or thiorphan (318 +/- 15%). The endothelin-I and endothelin-3-mediated twitch enhancement was not affected by the two protease inhibitors (10 microM).6. These results suggest that in vivo big-endothelin-1, -2 and -3, are processed through a similar phosphoramid on-sensitive enzymatic pathway although with different apparent affinity. This enzymatic process is probably attributable to a neutral endoprotease, distinct from neutral-endopeptidase 24.11(NEP). On the other hand, a NEP-like enzymatic activity may be involved, in the rat vas deferens, in the activation of big-endothelin-3 to endothelin-3 and in the metabolism of endothelin-2, but not of endothelin-I or endothelin-3.
...
PMID:Comparison of the cardiovascular and neural activity of endothelin-1, -2, -3 and respective proendothelins: effects of phosphoramidon and thiorphan. 810 8
To investigate the potential role of endothelin-1 (ET-1) in fetal vasoregulation, we examined in sheep the hemodynamic effects of infusion of big ET-1 (bET-1; precursor of ET-1) on the systemic and pulmonary circulations in chronically catheterized late-gestation fetuses. Thirteen animals [134 +/- 0.5 (SE) days gestation] received systemic infusions of bET-1 (1.5 or 3.0 micrograms/min for 10 min via the superior vena cava), which increased systemic arterial pressure by 5.0 +/- 1.9 (P < 0.01) and 13.9 +/- 1.8 mmHg (P < 0.01), respectively. Pretreatment with 10 mg of phosphoramidon, an ET-1-converting enzyme inhibitor, blocked the hypertensive response to bET-1. Six animals (136 +/- 1.5 days gestation) received intrapulmonary infusion of bET-1 (3.0 micrograms/min for 10 min via the left pulmonary artery), which increased pulmonary arterial pressure by 18.1 +/- 1.5 mmHg (P < 0.01). Three animals (130 +/- 1.5 days gestation) received phosphoramidon (1 mg/min for 10 min via the left pulmonary artery), which had no observed effect on baseline pulmonary vascular tone. We conclude that bET-1 produces systemic and pulmonary hypertension in the late-gestation fetus.
Phosphoramidon
inhibits bET-1-induced
hypertension
, suggesting that the fetus possesses ET-1-converting enzyme activity.
...
PMID:Systemic and pulmonary hemodynamic effects of big endothelin-1 and phosphoramidon in the ovine fetus. 816 Aug 88
The physiologic significance of endothelin-1 (ET-1) generation in human resistance vessels is unknown. We therefore investigated whether endothelin-converting enzyme (ECE) activity could be demonstrated in human vessels, and the effects of inhibition of the generation or actions of ET-1 on vascular tone in healthy men. Brachial artery infusion of local doses of big ET-1 caused a slow-onset, dose-dependent forearm vasoconstriction that was abolished by co-infusion of the ECE inhibitor phosphoramidon.
Phosphoramidon
did not affect responses to ET-1.
Phosphoramidon
caused slow-onset vasodilatation when infused alone, with blood flow increasing by 37% (p = 0.03). Vasoconstriction to ET-1 was completely abolished by co-infusion of the ETA receptor antagonist BQ-123 (p = 0.006), with forearm blood flow tending to increase. Infusion of BQ-123 alone resulted in progressive vasodilatation, with blood flow increasing by 64% (p = 0.007). These results suggest that endogenous generation of ET-1 contributes to the maintenance of vascular tone in states of normal and elevated blood pressure. ECE inhibitors and ETA receptor antagonists may have potential as vasodilators in the treatment of diseases associated with vasoconstriction, such as
hypertension
and chronic heart failure.
...
PMID:Physiologic role of endothelin in maintenance of vascular tone in humans. 858 57
Endothelin-1 (ET-1) is formed from its precursor preproET-1 via the cleavage of the intermediate bigET-1 by endothelin-converting enzyme (ECE-1). However, the subcellular site at which this step occurs is not clear: It could occur intravesicularly along the secretory pathway or bigET-1 might be released and processed extracellularly. To address this point, we have developed an integrated autocrine system that uses a recombinant Chinese hamster ovary (CHO) luciferase reporter cell line that permanently expresses the human ET(A) receptor. Into these cells we transiently transfected human ECE-1a cDNA, either together with the human preproET-1 cDNA (as an endogenous source of bigET-1), or alone (in which case exogenous bigET-1 was added).
Phosphoramidon
inhibited the conversion of exogenous bigET-1 (IC50 = 5 to 30 micromol/L) much better than that of endogenous bigET-1 (IC50 > 1 mmol/L). Both conversions showed similar high yields (20% to 100%) that depended on the amount of ECE-1a expressed. Thus, ECE-1a has two equally relevant activities in this recombinant system for CHO cells: (1) an intracellular, probably intravesicular activity, corresponding to the ECE-1a-mediated step of ET-1 biosynthesis and (2) an extracellular activity at the plasma membrane. If this is also the case for endothelial cells, ECE-1a inhibitors would have to cross the plasma and vesicle membranes to be effective. The present system could be useful for screening such inhibitors.
Hypertension
1997 Oct
PMID:A live-cell assay for studying extracellular and intracellular endothelin-converting enzyme activity. 933 81
The precursor of endothelin-1, big endothelin-1, can be hydrolyzed by chymase to generate endothelin-1 (1-31) in vitro. In the present study, we explored the processes involved in the production of endothelin-1 (1-31) as well as its pharmacodynamic characteristics in the rabbit in vivo. Endothelin-1 (1-31) (1 nmol/kg, injected into the left cardiac ventricle) induced a monophasic increase of mean arterial blood pressure similarly to big endothelin-1 (1-38), whereas endothelin-1 induces a biphasic response.
Phosphoramidon
, a dual neutral endopeptidase and endothelin-converting enzyme inhibitor, blocked both pressor responses to endothelin-1 (1-31) and big endothelin-1 but not those afforded by endothelin-1. Thiorphan, a neutral endopeptidase inhibitor, markedly inhibited the response to endothelin-1 (1-31) but only weakly reduced that of big endothelin-1. In contrast, CGS 35066, an endothelin-converting enzyme inhibitor, was significantly more efficient against the pressor response to big endothelin-1 than to endothelin-1 (1-31). Furthermore, injection of big endothelin-1 concomitantly with phosphoramidon induced an increase in endothelin-1 (1-31) plasma levels. Finally, intracardiac-administered endothelin-1 (1-31) induced an increase of endothelin-1 plasma levels, which are markedly reduced by phosphoramidon and thiorphan but not by CGS 35066. Our results thus demonstrate that endothelin-1 (1-31) is an alternate intermediate in the production of endothelin-1 after big endothelin-1 administration in the rabbit in vivo.
Hypertension
2005 Jul
PMID:Endothelin-1 (1-31) is an intermediate in the production of endothelin-1 after big endothelin-1 administration in vivo. 1595 17
Synthetic big endothelin-1 (ET-1), a 39-residue precursor of ET-1, has been reported to elicit potent contractile action on helical strip specimens obtained from the porcine coronary artery, but its molar potency was found to be 140-fold lower than that of ET-1 [Saito, Y., Nakao, K., Mukoyama, M., Imura, H., 1990. Increased plasma endothelin level in patients with essential hypertension. N. Engl. J. Med. 322, 205]. It has been hypothesized that the increased rate of production and/or release of ET-1 from the vascular endothelium may contribute to the pathogenesis of
hypertension
. However, the effects of big ET-1 in comparison with ET-1 on the macrocirculation and microcirculation of the rat mesentery have not been well documented. Thus, our main purpose for this study was to examine the effects of both big ET-1 and ET-1 to clarify the role of phosphoramidon in inhibiting the conversion of big ET-1 to ET-1, by investigating the systemic blood pressure, microvascular blood flow velocity, and diameters of arterioles and venules of the rat mesentery. For this purpose, two groups of experiments were performed. In these experiments, the mesentery was arranged for in situ intravital microscopic observation under transillumination. In the first group of experiments, intravenous cumulative injections of big ET-1 or ET-1 were infused through a catheter inserted into the right jugular vein. Infusion of big ET-1 (1-8 nmol/kg) elicited a long-lasting significant pressor effect. Infusion of big ET-1 (1-2 nmol/kg) elicited a significant dose-dependent increase in the microvascular blood flow velocity both in arterioles (20-30 microm) and venules (30-40 microm). Microvascular diameters exhibited a slight but significant vasodilator effect. However, the infusion of big ET-1 (4-8 nmol/kg) elicited a dose-dependent significant decrease in the blood flow velocities, and diameters returned to control measurements. The administration of ET-1 (0.25-2 nmol/kg) induced a dose-dependent significant decrease in the blood flow velocity of arterioles and venules, and their diameters exhibited a vasoconstrictive effect more prominent in arterioles than in venules. In the second group of experiments, cumulative injections of phosphoramidon (30 mg/kg/10 min) were administered 10 min prior to the infusion of big ET-1.
Phosphoramidon
significantly suppressed the long-lasting significant pressor effect and significantly inhibited the dose-dependent increase and dose-dependent decrease in the microvascular blood flow velocity produced by big ET-1 in the rat mesenteric microcirculation. This study observed differences in the effects big ET-1 and ET-1 have on the rat mesenteric microcirculation and proposes a possible mechanism explaining these differences. Moreover, phosphoramidon markedly inhibited the conversion of big ET-1 to ET-1 in the rat mesenteric microcirculation, which may suggest an inhibition of the enzyme which converts big ET-1 to ET-1.
...
PMID:Effects of big endothelin-1 in comparison with endothelin-1 on the microvascular blood flow velocity and diameter of rat mesentery in vivo. 1702 40
