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Query: EC:3.4.23.15 (
renin
)
35,795
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The acute hemodynamic and hormonal effects of incremental doses of a specific ovine
renin
inhibitor (RI:
EMD
52 297) and captopril were compared in an ovine model of heart failure. Both RI and captopril inhibited the
renin
-angiotensin II (ANG II) system, although the decrease in plasma aldosterone (ALDO) was significant only during captopril infusion. Both agents exhibited strong vasodilator properties with similar decreases in mean arterial pressure (MAP, maximum decrease: RI = -20.5 +/- 2.2 mm Hg, p less than 0.001; captopril = -19.8 +/- 1.7 mm Hg, p less than 0.001) and left atrial pressure (LAP, maximum, decrease: RI = -6.8 +/- 1.5 mm Hg, p less than 0.01; captopril = -6.9 +/- 0.4 mm Hg, p less than 0.01) along with a slight increase in cardiac output (CO, maximum increase: RI = 0.54 +/- 0.11 L/min; captopril = 0.79 +/- 0.26 L/min). The slope of the response between MAP and LAP was similar in all animals, indicating that the agents have a similar effect on cardiac preload and afterload. The similar hemodynamic actions of RI and captopril in this model of congestive heart failure suggest that beneficial effects are due to inhibition of ANG II. Thus, orally active
renin
inhibitors may offer a useful therapeutic alternative when side effects preclude use of angiotensin-converting enzyme (ACE) inhibitors.
...
PMID:Comparison of the effect of renin inhibition and angiotensin-converting enzyme inhibition in ovine heart failure. 137 84
A linear hydrophobic peptide, (Code no.
EMD
55068), a synthetic
renin
-antagonist, competitively inhibits the uptake of taurocholate and of another linear peptide (
EMD
51921) but not of oleic acid, serine or thiamin hydrochloride into isolated rat liver cells.
EMD
55068 was attached to a gel matrix at a position that is not involved in the protein ligand interaction. The gel matrix used did not interact nonspecifically with solubilized proteins from rat liver. The quantity of bound ligand was determined to be 3.6 mg/ml of gel matrix. In the fraction of EDTA extracted hydrophilic membrane-associated proteins, no binding proteins were detected. Affinity chromatography of integral plasma membrane proteins resulted in four protein bands with molecular masses of 46, 49, 53 and 56 kDa in SDS-PAGE. In contrast, solubilized plasma membrane proteins from AS-30D ascites hepatoma cells, which are unable to transport bile acids and linear peptides, did not bind specifically to the affinity matrix.
...
PMID:Binding proteins for linear renin-inhibiting peptides in basolateral plasma membranes of rat liver. 154 6
The effects of specific
renin
inhibitors, angiotensin converting enzyme inhibitors, indomethacin, and prostaglandin I2 analogue on the release of angiotensins from isolated and Krebs-Ringer-perfused rabbit mesenteric arteries were examined. Three different
renin
inhibitors suppressed release of angiotensins in dose-dependent manners. At the highest concentration (10(-7) M), the inhibitors
EMD
52,620,
EMD
54,388, and
EMD
52,742 induced 46%, 52%, and 48% decreases, respectively, in the basal rate of immunoreactive angiotensin II release. These results provide clear evidence that released angiotensins are produced by the specific action of vascular
renin
and that the
renin
inhibitors suppress the vascular
renin
-angiotensin system as well as the circulating
renin
-angiotensin system and appear to provide a useful mode for the treatment of hypertension. Nonsulfhydryl angiotensin converting enzyme inhibitors cilazapril and delapril were more effective than captopril, and ramipril was equipotent to captopril, suggesting that the effectiveness of angiotensin converting enzyme inhibitors on the vascular
renin
-angiotensin system cannot be explained only by its inhibitory effect on angiotensin converting enzyme. Indomethacin, which was reported to suppress angiotensin II release from rat hind limbs, elicited a dose-dependent increase of angiotensin release from rabbit mesenteric arteries. These results suggest that a difference exists in the regulatory mechanisms in the release of angiotensins from diverse vascular beds.
...
PMID:Significance of vascular renin for local generation of angiotensins. 199 57
The uptake of a linear peptide with
renin
-inhibiting activity (code number
EMD
51921) was characterized in isolated rat liver cells. Isolated hepatocytes take up
EMD
51921 in a time-, concentration-, energy- and temperature-dependent manner. Transport of the peptide follows mixed-type kinetics. Diffusion occurs at a rate of 8.123 x 10(-6) cm/sec at 6 degrees C. For the saturable part of uptake, a Km of 2.0 microM and a Vmax of 160 pmol/mg per min were calculated. Various substrate analogues inhibit the uptake of
EMD
51921. Absence of oxygen or decreased cellular ATP content (e.g., by metabolic inhibitors or xylulose) blocks hepatocellular uptake of
EMD
51921. Temperatures above 20 degrees C accelerate the uptake. The activation energy was calculated to be 58.3 kJ/mol. The apparently active uptake of
EMD
51921 was not sodium dependent. The membrane potential is a driving force for the accumulation of
EMD
51921. Mutual competitive transport inhibition of
EMD
51921, cholate and taurocholate is indicative of a common transport system. Benzamidotaurocholate and a cyclosomatostatin analog 008, not phalloidin and iodipamide, however, considerably decrease the uptake of
EMD
51921. AS 30D ascites hepatoma cells, unable to accumulate bile acids and certain cyclopeptides, also fail to transport
EMD
51921. BSP, a foreign substrate of the bilirubin carrier, noncompetitively inhibits the transport of
EMD
51921. The inhibition of the uptake of
EMD
51921 by rifampicin, a further substrate of the bilirubin carrier, is mixed: competitive at high
EMD
51921 concentrations and uncompetitive at low
EMD
51921 concentrations. The uptake of rifampicin into isolated rat liver cells, however, is not influenced by
EMD
51921. Substrates of the transport systems for cations, amino acids, long chain fatty acids and hexoses did not influence the transport of
EMD
51921.
...
PMID:Hepatocellular uptake of peptides by bile acid transporters: relationship of carrier-mediated transport of linear peptides with renin-inhibiting activity to multispecific bile acid carriers. 200 17
The effects of
renin
inhibition have not previously been documented in established heart failure (HF). Accordingly, we investigated the acute hemodynamic and hormonal effects of a
renin
inhibitor (
EMD
52297) in an ovine model of HF induced by rapid ventricular pacing (LVP). In seven sheep, recordings were made for 1 h before, during a 2-h infusion of
renin
inhibitor (RI) or vehicle, and after each infusion on the 5th and 6th day after commencing LVP. The RI (20 micrograms.kg-1.min-1) or vehicle was given in random order. RI infusion induced a rapid fall in plasma
renin
activity (PRA) and angiotensin II, reaching a nadir at 20 min. The vasodilator response was characterized by a 16% fall in mean arterial pressure (MAP), which was related to the fall in PRA (r = 0.78, P less than 0.05). MAP and PRA remained suppressed throughout the infusion period, and both returned to preinfusion levels within 10 min of terminating infusions. Left atrial pressure and plasma aldosterone were not significantly altered, while renal function was preserved despite the fall in perfusion pressure. RI has significant hemodynamic actions in a model of established HF.
...
PMID:Hemodynamic and hormonal effects of renin inhibition in ovine heart failure. 219 44
The
renin
content, expressed as nanograms of angiotensin I/hour/milligram, of a rabbit intrarenal arterial network (IAN) was compared to that of renal cortical samples from the same animal. Tissues from six rabbits were studied. Cortical tissue (RC) and an IAN with some glomeruli and attached arterioles (IAN + glomeruli) were prepared from one kidney, and an IAN freed of glomeruli (IAN - glomeruli) was obtained from the opposite kidney. These tissues were homogenized and the supernatant incubated at pH 7.4 and 37 degrees C for 30 to 60 min or 3 to 6 h. Angiotensin I was generated in a linear fashion, and the values averaged for the two incubation periods were 844 +/- 266, 121 +/- 39, and 32 +/- 11 ng/h/mg for RC, IAN + glomeruli, and IAN - glomeruli, respectively. A specific
renin
inhibitor,
EMD
58265, at 1 x 10(-8) mol/L attenuated and at 5 x 10(-8) mol/L almost totally abolished angiotensin I production. The results indicate that small arteries comprising the IAN contain
renin
, and that the enzymatic activity is most likely due to that protein and not another aspartyl protease.
...
PMID:Intrarenal arterial network renin content and inhibition by EMD 58265. 761 60
Certain peptide drugs, such as the linear hydrophobic
renin
-inhibitor
EMD
51921, are rapidly eliminated via the bile. At the sinosoidal membrane of liver cells
EMD
51921 is taken up via a sodium-independent carrier-mediated mechanism, competing for the uptake of bile acids. Until now, the mechanisms of biliary excretion of
EMD
51921 were unknown. In this study we describe an ATP-dependent transport system for the enzymatically and metabolically stable hydrophobic linear
renin
-inhibiting peptide
EMD
51921. The ATP-dependent uptake into the osmotic reactive intravesicular space is saturable (Km 12 microM, Vmax 663 pmol/min per mg protein), temperature dependent and specifically requires ATP. Transport is inhibited by vanadate but not by ouabain, EGTA or NaN3, and does not function in basolateral plasma membrane vesicles. Transport is not altered in canalicular membrane vesicles isolated from Tr- rats lacking the canalicular ATP-dependent transport of cysteinyl leukotrienes and related anions. Transport is inhibited by taurocholate, a typical substrate of the canalicular ATP-dependent bile acid transporter, but also by vincristine and daunomycin, substrates of P-glycoproteins.
EMD
51921, however, only inhibits the uptake of taurocholate, whereas the transport of daunomycin is not influenced. Taurocholate and
EMD
51921 are mutually non- or un-competitive transport inhibitors. Incubation of rat liver canalicular membranes with micromolar concentrations of
EMD
51921 resulted in a 1.8-2.5-fold increase in the rate of ATP-hydrolysis. In contrast, ATP-hydrolysis was not affected by fragments of the peptide that are not transported in an ATP-dependent manner. The apparent Km value (
EMD
) for ATP-hydrolysis is 68 microM. Vmax is 0.032 U/mg protein. ATPase activity is pH dependent. Stimulation of ATP-hydrolysis is inhibited by vanadate, NEM, hydroxymercuribenzoate and ascorbate, but is not affected by ouabain, EGTA or NaN3.
EMD
51921 does not stimulate the ATPase activity of the Na+/K(+)-ATPase isolated from kidney medulla. The
EMD
-stimulatable ATPase seems to be distinct from the glutathione-S-conjugate stimulatable ATPase and the mdr 1a/b gene products and differs in its characteristics from that of the canalicular ecto-ATPase.
...
PMID:ATP-dependent transport of the linear renin-inhibiting peptide EMD 51921 by canalicular plasma membrane vesicles of rat liver: evidence of drug-stimulatable ATP-hydrolysis. 784 Nov 85
The hepatic uptake of a hydrophilic, cationic linear peptide with
renin
inhibitory activity [5(4-amino-piperidyl-1-carbonyl)-L-2,6[3H]phenyl-alanyl-beta-alanyl-(4S- amino-3S-hydroxy-5-cyclohexyl)-pentan-carbonyl-L-isoleucyl-amin ome thyl-4-amino-2-methyl-pyrimidine-citrat] (code number
EMD
56133;
EMD
, E. Merck, Darmstadt) was investigated in isolated rat hepatocytes.
EMD
56133 was taken up by isolated rat liver cells in a time-, concentration-, energy- and temperature-dependent manner. The uptake was a combination of diffusion and a carrier-mediated process.
EMD
56133 was accumulated 4.5-fold in liver cells. Eighty-three per cent of the accumulated peptide was found in the cytosol, not bound to membrane proteins. Seventeen per cent was associated with membrane proteins after cell fractionation and centrifugation at 100,000 g. The permeability coefficient of the non-saturable uptake of
EMD
56133 was P = 1.973 x 10(-6) cm/sec. The kinetic constants for the carrier-mediated transport are Km = 92 microM and Vmax = 128 pmol/mg x min. Various substrate analogs inhibited the uptake of
EMD
56133. AS-30D ascites hepatoma cells and Reuber hepatoma cells did not accumulate
EMD
56133. The absence of oxygen or a decreased cellular ATP content blocked the hepatocellular uptake of the
renin
inhibitor. Temperatures above 20 degrees increased the transport; the activation energy was determined to be Aapp = 41 kJ/mol. The apparently active uptake of
EMD
56133 was not sodium dependent. In contrast, the membrane potential might be a driving force for the transport of the positively charged
EMD
56133.
...
PMID:Hepatocellular uptake of peptides--I. Carrier-mediated uptake of hydrophilic linear peptides with renin inhibitory activity into isolated rat liver cells. 845 66
To define the endogenous transport system responsible for the hepatocellular uptake of hydrophilic linear peptides, interactions between the cationic
renin
-inhibitor, [5(4-amino-piperidyl-1-carbonyl-L-2,6[3H]phenyl-alanyl-beta-alanyl(4S- amino-3S-hydroxy-5-cyclo-hexyl)-pentan-carbonyl-L-isoleucyl-ami nom ethyl-4-amino-2-methyl-pyrimidine-citrat] (code number
EMD
56133;
EMD
, E. Merck, Darmstadt) and substrates of endogenous transport systems of liver cells were studied in isolated rat hepatocytes.
EMD
56133 competitively inhibited the uptake of ouabain (Ki = 75 microM) and vice versa (Ki = 200 microM). In contrast, the sodium-dependent as well as the sodium-independent uptake of cholate and the total uptake of taurocholate were non-competitively blocked, whereas
EMD
56133 decreased the uptake of the cyclosomatostatin 008 in an uncompetitive manner.
EMD
56133 did not interfere with transport systems for monovalent organic cations, amino acids and long chain fatty acids. The uptake of rifampicin, however, was increased in the presence of
EMD
56133. The transport of
EMD
56133 was non-competitively inhibited by cholate (Ki = 126 microM) and taurocholate (Ki = 44 microM), and uncompetitively inhibited by the linear peptide
EMD
51921. In contrast, the uncharged compound ouabain (Ki = 200 microM) and the bivalent organic cation d-tubocurarine (Ki = 370 microM) competitively inhibited the uptake of the
renin
inhibitor. Several substrates of other endogenous transport systems (e.g. bilirubin, cyclopeptides, monovalent cations, dipeptides, amino acids, fatty acids, hexoses) did not interfere with the transport of
EMD
56133. Our results suggest that transport systems for bivalent organic cations or uncharged compounds (ouabain) are able to eliminate the linear hydrophilic peptide tested.
...
PMID:Hepatocellular uptake of peptides--II. Interactions between hydrophilic linear renin-inhibiting peptides and transport systems for endogenous substrates in liver cells. 845 67
Renin activity appears to be present in low concentrations in the plasma of anephric humans but could be artifactual secondary to inadvertent activation of prorenin during specimen collection and handling or from a
renin
-like enzyme. We studied the effects of specimen collection, storage, different assay conditions, trypsin activation, and the
renin
inhibitor
EMD
56133 (E Merck, Darmstadt) on plasma
renin
activity (PRA) in anephric man. PRA was detectable in all seven bilaterally nephrectomized (BNX) patients (0.2 +/- 0.1 ng AI/ml/hr, range 0.1-0.7) but was significantly lower than normals (2.4 +/- 0.3 ng AI/ml/hr, range 1.5-3.1, p = 0.001). PRA was not different in BNX whether blood samples were collected on ice or at room temperature and assayed immediately or whether samples were frozen and assayed several days later. Prolonged cold storage of samples and five freeze-thaw cycles over six to seven months did not significantly increase PRA in normals or anephrics. However, deliberate repeated freezing and thawing over the period of a single day increased PRA 4.1-fold in BNX and 1.6-fold in normals. Renin-like activity was also detected in BNX individuals using
renin
concentration determinations with either excess human or sheep angiotensinogen. The inhibition of
renin
activity (IC-50% = 3.16 x 10(-9) molar) by
EMD
56133 was not different between BNX and normals. Thus, active
renin
is present in the plasma of anephric humans and does not result from the inadvertent activation of prorenin due to sample handling. Although the source of PRA in BNX is unknown, the enzyme appears functionally normal as evidenced by the dose-response to a single
renin
inhibitor.
...
PMID:Renin and renin inhibition in anephric man. 846 18
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