Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0020538 (hypertension)
 170,190 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A lot of over 60 atherosclerotics with clinical manifestations of senile depressive illness was studied comparatively with a lot of subjects of the same age with essential arterial hypertension (EAH). As concerns the behaviour of the catecholamine content in CSF and blood, the total catecholamines are approxiately equal in the two lots, but with a clear difference of the catecholamine fractions. The CSF catecholamines behaviour in old atherosclerotics is characterized by the presence of increased values of noradrenaline (NA) and of adrenaline (A), with increased statistical significance, but without modifications of the adrenaline percentage (A %) from the total catecholamines, comparatively to the values found in normal subjects. The serotonin (5-HT) content of the CSF in men with atherosclerotic senile depressive illness was lower even than in subjects with coronary atherosclerosis. In atherosclerosis protides modifications precede the histologic changes. In CSF, GLU, ALA, TYR increase in old subjects. In blood, GLU, ALA, TYR, HIS, LEU, SER increase in the same subjects. ARG decreases with age. THR is higher in men than in women. In the urine of all the men as well as of all the women of more than 60 years, GLN and ALA have increased values. LYS increases with age. GLN and ARG are higher in men than in women.
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PMID:Pattern of the cerebrospinal fluid (CSF) and blood biogenic amines and of the CSF, blood and urine amino acids as pathogenetic ground of the senile depressive illness. 677 91

Various facets of activation of inactive renin by acidification or cold exposure were investigated in normal human plasma. The acid activation obtained by titration was usually less than that by dialysis method, but varied from 41% to 122% of the latter. The acid phase of acid activation accounted for about 70% of the total activation achieved by the combined effects of the acid and alkaline phases on the average, and was not affected by any of the inhibitors for serine, thiol or carboxyl protease, whereas serine protease inhibitors suppressed the activation of both renin and plasma kallikrein in the alkaline phase of acid activation. A different mode of plasma kallikrein activation suggested some difference in the mechanism between the alkaline phase of acid activation and the cryoactivation. A part of cryoactivation of renin was independent of the action of plasma kallikrein. The renin activated by either acidification or cold exposure without concomitant activation of plasma kallikrein was reinactivated by the removal of pH and temperature, but recovered by repeating acidification or cold exposure. When active plasma kallikrein had been produced, it activated inactive renin irreversibly. It appears unlikely that irreversible activation of inactive renin is taking place in the normal circulation where practically no active plasma kallikrein is present.
Hypertension
PMID:Activation and reinactivation of inactive renin in normal human plasma. 703 32

Many properties of urinary kallikrein are well characterized, but the intracellular processing of prokallikrein and release by kidney cells have yet to be clarified. We report here on the synthesis of prokallikrein in Madin-Darby canine kidney (MDCK) cells transfected with rat submaxillary gland kallikrein cDNA and on its activation by MDCK cells and by an enriched liver Golgi membrane preparation. Transfected MDCK cells secreted only prokallikrein at both the apical and basolateral sides in about a 4:1 ratio, but cells transfected with kallikrein cDNA in reverse orientation or untreated cells released only traces of the enzyme. Prokallikrein, in culture medium or in homogenized MDCK cells, was fully activated by trypsin but activated only to 44% by thermolysin. Prokallikrein was synthesized and released into the medium at a high rate: the enzyme secreted by 5 x 10(6) cells in 24 hours cleaved 46 nmol/min D-Val-Leu-Arg-7-amino-4-methylcoumarin and liberated 63 ng/min bradykinin after activation. Immunocytology indicated the association of prokallikrein with the Golgi apparatus in the transfected cells. Antiserum to rat urinary kallikrein detected a single band in a Western blot of conditioned medium and also immunoprecipitated the enzyme. Aprotinin inhibited activated prokallikrein. Although MDCK cells released prokallikrein, their homogenates activated prokallikrein at both pH 5.5 and 7.5. Prokallikrein was also activated by a highly enriched liver Golgi membrane fraction and by an endoplasmic reticulum preparation, but the Golgi preparation was 38-fold more active. The activation was blocked significantly by inhibitors of serine proteases and less by cysteine protease inhibitors.(ABSTRACT TRUNCATED AT 250 WORDS)
Hypertension 1995 Dec
PMID:Expression of rat kallikrein and epithelial polarity in transfected Madin-Darby canine kidney cells. 749 Jan 45

Hypertrophy of vascular smooth muscle cells (VSMC) is an important adaptive response of hypertension. Drug intervention studies have implicated a role for angiotensin II (A-II) in the mediation of VSMC hypertrophy in vivo, and A-II is a potent hypertrophic agent for VSMC in culture. Our laboratory has previously shown that A-II-induced hypertrophy of cultured VSMC is due in part to generalized increases in protein synthesis and increased content of rRNA. The aim of the present study was to determine if A-II stimulates rRNA gene synthesis and whether the rRNA transcription factor, upstream binding factor (UBF), is involved. Nuclear run-on analysis demonstrated that A-II induced a greater than 5-fold increase in rRNA gene synthesis within 6 h of stimulation. A-II also stimulated a rapid increase in UBF phosphorylation as well as nucleolar localization, but no changes in the content of UBF. Phosphoamino acid analysis showed that phosphorylation occurred only on serine residue(s). Results demonstrate that increased transcription of ribosomal DNA contributes to the A-II-induced increase in protein synthesis and VSMC hypertrophy, and suggest that an important regulatory event in this pathway may be the phosphorylation and/or nucleolar localization of UBF.
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PMID:Angiotensin II-induced hypertrophy of rat vascular smooth muscle is associated with increased 18 S rRNA synthesis and phosphorylation of the rRNA transcription factor, upstream binding factor. 755 41

Angiotensinogen is a glycoprotein with intriguing structural similarities to the serine proteinase inhibitors but with only one known function: to act as a substrate in the enzymatic generation of angiotensin peptides. It is expressed as a constitutive protein by the liver and various other tissues, including the brain. It is in this tissue that the expression of angiotensinogen attains its most complex and controversial manifestations. In late gestation, an unfolding of cellular expression occurs, starting at an epicentre in the eppendymal and astroglia cells of the hypothalamus, which rapidly and sequentially spreads to sub-cortical and then cortical regions, concentrating at sites of electrolyte, fluid and pressure regulation. This initial burgeoning of astroglial angiotensinogen is trailed by a wave of neuronal expression in various limbic and sensorimotor regions of the brain. The predominance of AT2 receptors in these regions suggests that the RAS actions are mediated by AT2 receptors. The angiotensinogen found in the CSF and secreted by cultures of glia and neurones is similar to the two major molecular sizes found in plasma. However, by electrophoretic separation on the basis of charge imparted by differential glycosylation, it can be shown that glia and neurones secrete distinct forms. The expression of different forms is under hormonal regulation. If these structural forms are shown to affect function, then the resulting ramifications may extend to pathological conditions, such as hypertension. Primary cell cultures of astrocytes secrete angiotensinogen constitutively and in a region-specific manner related to the size of the sub-population of secretory cells. Neurone cultures secrete angiotensinogen at about 25% the rate of hypothalamic astrocytes. The use of RT-PCR shows that both cell types express angiotensinogen mRNA. There is still an unresolved mismatch between these data and in situ hybridization histochemistry which shows expression limited to astrocytes but it is suggested that changes to more appropriate techniques will resolve any outstanding discrepancies.
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PMID:Location and secretion of brain angiotensinogen. 764

Heparin-binding protein (HBP; also known as CAP37 or azurocidin) is a member of the serine proteinase family. Evolution, however, has reverted this protein into a non-proteolytic form by mutation of two of the three residues of the active-site triad. Although proteolytically inactive, the human heparin-binding protein (hHBP) is still capable of binding bovine pancreatic trypsin inhibitor (BPTI). This was demonstrated by affinity chromatography to BPTI immobilized on a solid matrix and by studies on plasmin inhibition kinetics. hHBP competes with plasmin for BPTI and this effect on plasmin inhibition has been analyzed in terms of a kinetic model. A dissociation constant, Kd = 0.1 microM, was found for the interaction between BPTI and hHBP. The hHBP provides an example of a serine proteinase which has lost its catalytic function by reverting residues of the active center while still preserving its capability of specific interactions with Kunitz inhibitors. pHBP, the porcine counterpart to hHBP, on the other hand, was incapable of BPTI binding. The structural basis for the BPTI binding to the human protein and the species difference is discussed in terms of putative three-dimensional structures of the proteins derived by comparative molecular modelling methods.
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PMID:Binding of bovine pancreatic trypsin inhibitor to heparin binding protein/CAP37/azurocidin. Interaction between a Kunitz-type inhibitor and a proteolytically inactive serine proteinase homologue. 768 80

Cultures of vascular smooth muscle cells (VSMC) are commonly used to study the events and defects found in hypertension and atherosclerosis. In particular Ca2+ homeostasis in cellular signalling has been the focus of extensive research. Since trypsin has been shown to mobilise Ca2+ in some cell types, we have investigated its effect on various aspects of Ca2+ homeostasis in rat aortic smooth muscle cells (RASMC). The effects of trypsin, alpha-chymotrypsin and elastase (other serine proteases) on intracellular Ca2+ in cultured aortic cells isolated from Wistar rats have been investigated. Trypsin (24 micrograms/ml) elicits intracellular Ca2+ mobilisation, after which cells become nonresponsive to thrombin Ca2+ mobilisation but retain responsiveness to Angiotensin II (AII). alpha-Chymotrypsin (24 micrograms/m) inhibits the thrombin Ca2+ mobilising response, without itself initiating a Ca2+ transient or affecting AII Ca2+ mobilisation. Elastase (24 micrograms/ml) was not effective in mobilising intracellular Ca2+ or inhibiting the thrombin response. We have also observed diminished thrombin Ca2+ mobilisation responses between cells in suspension and cell monolayers, which appeared to be unrelated to proteolysis but due to morphological changes of the cells. Our results suggest that trypsin acts on the thrombin receptor via a specific proteolysis mechanism to mobilise intracellular Ca2+ ([Ca2+]i) in RASMC. The amount of Ca2+ released by thrombin or trypsin is dependent on the morphology of the cell and the state of the tethered ligand of the thrombin receptor exposed by the protease.
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PMID:The effect of thrombin and serine proteases on intracellular Ca2+ in rat aortic smooth muscle cells. 779 84

Aromatic alpha-amino-alpha-methyl acids and alpha-hydrazino-alpha-methyl acids are known aromatic amino acid decarboxylase inhibitors. Specific derivatives such as 2-amino-2-methyl-3-(3,4- dihydroxyphenyl)propanoate, Aldomet, and 2-hydrazino-2-methyl-3-(3,4- dihydroxyphenyl)propanoate, Lodosyn, have been developed as therapeutic agents to treat hypertension and Parkinson's disease, respectively. We recently reported a method for the kinetic resolution of the racemic esters of such compounds using a crude preparation of a novel enzyme catalyst from the yeast Candida lipolytica (Yee, C.; Blythe, T.A., McNabb, T.J.; Walts, A.E. J. Org. Chem. 1992, 57, 3525-3527). Here we report the purification and initial characterization of the active enzyme component, an enzyme given the name Candida lipolytica ester hydrolase (CLEH). CLEH was purified to > 95% homogeneity by chromatography on Matrex Blue B resin. The enzyme was found to be a glycoprotein with M(r) = 80,000-300,000. In addition to esterolytic activity, the enzyme was found to catalyze the hydrolysis of amides, anilides and peptides. Sequence analysis of internal peptides of CLEH revealed striking homology to a number of enzymes belonging to the group of serine carboxypeptidases (E.C. 3.4.16.1). One peptide aligned with the canonical serine carboxypeptidase active site sequence, GESYAG. Based on the structural relationship of CLEH to serine carboxypeptidases, three representative serine carboxypeptidases were evaluated for their utility in resolving racemic alpha-tertiary ester substrates and compared with the activity of CLEH. All enzymes revealed similarly high activity and enantioselectivity towards the alpha-hydrazino-alpha-methyl ester precursor of the Parkinson-drug Carbidopa. However, differences in enantioselectivity were observed with other alpha-tertiary-substituted ester substrates. Serine carboxypeptidase-catalyzed ester resolutions thus offer a new route to many sterically hindered homochiral alpha-amino, alpha-hydrazino and alpha-hydroxy carboxylic acids.
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PMID:Enzymes for the resolution of alpha-tertiary-substituted carboxylic acid esters. 785 60

We have previously reported increased activity of Na+/H+ and Na+/Li+ exchanges in red blood cells (RBC) of patients with hypertension and diabetic nephropathy. The presence in human red blood cells (RBC) of insulin receptors has led us to examine the effects of this hormone on the kinetic parameters of Na+/H+ exchange as a first approach to define its mechanism of action. The antiporter activity was measured as net Na+ influx driven by an outward H+ gradient in acid-loaded, Na-depleted RBCs preincubated with or without (w/wo) insulin (0 to 100 microU/ml) for different time periods. The effects of insulin on the H+ and Na+ activation kinetics of Na+/H+ exchange were examined in RBCs of normal subjects fasted for 12 hours. Insulin (50 microU/ml for 1 hr) increased the Vmax from 28 +/- 6 to 49 +/- 8 mmol/liter cell x hr (N = 10, P < 0.0005) and the Km for Na+ from 72 +/- 10 to 142 +/- 19 mM (N = 4, P < 0.05) but did not change the Km for intracellular H+. Insulin also increased the Vmax of Na+/Li+ exchange at pHi 7.4 (0.34 +/- 0.03 to 0.45 +/- 0.04 mmol/liter cell x hr, N = 9, P < 0.005) as well as the Km for Na+ (31 +/- 3 to 6 +/- 10 mM, P < 0.0003). Therefore, insulin can modulate Na+ sites of Na+/Li+ or Na+/H+ exchanges independent of the occupancy of H+ sites to favor the release of bound Na+ into the cytoplasm. Insulin stimulation of Na+/H+ exchange required endogenous cytosolic Ca2+ levels. The kinetic effects of insulin on Na+/H+ and Na+/Li+ exchanges were imitated by okadaic acid (300 microM), an inhibitor of protein phosphatases which dephosphorylate serine-threonine residues. Okadaic acid increased the Vmax of Na+/H+ and Na+/Li+ exchanges and the Km for Na+ as insulin did. In conclusion, insulin stimulation of the Na+/H+ antiporter occurs by a novel kinetic mechanism leading to a decreased affinity for external Na+ without changes in the affinity for Hi. On the basis that insulin effects were imitated by okadaic acid, we hypothesize that this hormone may increase the phosphorylated state of serine-threonine residues of this antiporter protein.
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PMID:Insulin activation of red blood cell Na+/H+ exchange decreases the affinity of sodium sites. 796 48

Agonist-induced receptor phosphorylation plays a role in transmembrane signal transduction systems. Although the cDNA for the rat vascular type 1 angiotensin II receptor (AT1AR) encodes a G protein-coupled receptor with several potential phosphorylation sites for serine/threonine and tyrosine kinases, little is known about the phosphorylation of this receptor. The aim of this study was to determine the effects of angiotensin II (Ang II) on phosphorylation of the AT1AR in rat aortic vascular smooth muscle cells. Using [32P]orthophosphate-labeled cells, immunoprecipitates with anti-AT1AR antibody revealed a labeled band of molecular weight 52 kD, corresponding to the Ang II receptor. Ang II induced a rapid and significant increase in phosphorylation of the Ang II receptor, with a peak at 20 minutes. Phosphoamino acid analysis showed that the major phosphoamino acid is serine, in both the basal and Ang II-stimulated states. Constitutive and agonist-stimulated tyrosine phosphorylation is also observed to a lesser extent. Immunoblotting of anti-phosphotyrosine immunoprecipitates with anti-AT1AR antibody showed that Ang II caused a delayed tyrosine phosphorylation of the receptor with a peak at 20 minutes in a dose-dependent manner. Forskolin increased total phosphorylation of AT1AR but had no effect on tyrosine phosphorylation. Neither phorbol 12-myristate-13-acetate nor ionomycin altered receptor phosphorylation. These findings suggest that Ang II induces the phosphorylation of its own G protein-coupled receptor through both serine and tyrosine kinases and raise the possibility that phosphorylation of the AT1AR is an important regulator of receptor function.
Hypertension 1994 Oct
PMID:Agonist-induced phosphorylation of the vascular type 1 angiotensin II receptor. 808 22


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