Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

High-density lipoprotein (HDL) binding protein (HBP) was isolated from the microsomal fraction of eel liver homogenate by affinity chromatography with a HDL-column. After SDS-PAGE and blotting, HBP on the PVDF membrane was detected by FITC-labeled HDL and apolipoprotein AI (apoAI) as a ligand. HBP in the microsomal fraction was most abundant among microsomal, mitochondrial and cytosolic fractions. The HBP isolated by a HDL-column consisted of at least three proteins with low molecular weights of 18.5, 14.5 and 13.5 kDa; the main component was 14.5 kDa. These proteins are not products of protease digestion, as the procedure was carried out in the presence of protease inhibitors including (p-aminophenyl) methansulfonyl fluoride, 4-(2-aminoethyl)-benzenesulfonyl fluoride, pepstatin A, E-64, bestatin, leupeptin, aprotinin and EDTA. The HBP specifically bound to FITC-apoAI and faintly bound or did not bind to FITC-apoAII. Furthermore, binding of HDL labeled with lipophilic fluorescence to isolated eel hepatocytes was inhibited by the antibody to apoAI, but not inhibited by the antibody to apolipoprotein AII (apoAII). These results strongly suggest that the HBP isolated from the microsomal fraction is present on the plasma membrane of eel liver and plays important roles for the lipid transport through the interaction with HDL.
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PMID:High density lipoprotein binding protein of eel (Anguilla japonica) liver with specificity of binding to apoAI as a ligand. 1143 39

This study was undertaken with the aim of investigating the effect of sucrose addition to the drinking water of rats who were fed with the same diet as a control group, on Delta9- and Delta5-desaturase activities and on the fatty acid composition of serum and liver microsomes. Weanling male Wistar rats had 30% sucrose in their drinking water for 20 weeks. An increase in total calories consumed, visceral fat accumulation, insulin, triglycerides and blood pressure and a decrease in the food intake were observed in the sucrose-fed group as compared with the control group. A decrease in linoleic and alpha-linolenic acid (essential fatty acids) in all serum lipid fractions of sucrose-fed rats was found. This observation correlated with a low food intake by sucrose-fed rats. The conversion of [1 (14)C]-palmitic to [1 (14)C]-palmitoleic acid by Delta9-desaturase activity was increased in sucrose-fed compared with control rats, while the conversion of [1 (14)C]-dihomo-gamma-linolenic acids by Delta5-desaturase activity was depressed. In sucrose-fed as compared to control rats, the proportion of palmitoleic and oleic fatty acids was increased. Arachidonic acid was decreased in sucrose-fed rats. The 1,6-diphenylhexatriene fluorescence polarization of the microsomal membranes was significantly lower in the sucrose-fed group compared to the control group. These results indicate that the sucrose addition to the drinking water of the rats increased microsomal Delta9-desaturase activity and membrane disorder and decreased the activity of the Delta5-desaturase, a key enzyme in the biosynthesis of arachidonic acid, implicated in hypertension.
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PMID:Effect of sucrose addition to drinking water, that induces hypertension in the rats, on liver microsomal Delta9 and Delta5-desaturase activities. 1144 15

Many of the estimated 50 million Americans with high blood pressure receive medications for hypertension and for other conditions, placing them at risk for adverse drug interactions. The risk for hypertension and for adverse drug reactions is highest in the elderly, who have the greatest need for pharmacologic therapy. The most important class of drug interactions involves the cytochrome P450 microsomal enzyme system, which handles a variety of xenobiotic substances. A potential for interactions with these enzymes exists with calcium channel blockers, beta-adrenergic blocking agents, angiotensin-converting enzyme inhibitors, and angiotensin receptor blockers but not with diuretic antihypertensives, which are renally eliminated and more vulnerable to drug interactions that occur in the kidney. This article reviews the cytochrome P450 enzyme system, identifies drugs and foods that have been implicated in metabolic interactions with antihypertensive agents, and suggests measures for reducing the risk of adverse events when drugs are coadministered.
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PMID:Implications of cytochrome P450 interactions when prescribing medication for hypertension. 1243 17

The demonstration of a role for microsomal P450 in the metabolism of endogenous pools of arachidonic acid established this enzyme system as a member of the arachidonic acid cascade and characterized a new an important metabolic function for this enzyme system. Studies from several laboratories documenting the powerful biological activities of the P450-derived eicosanoids have suggested important roles for the P450 arachidonic acid monooxygenase in renal and vascular physiology, and in the pathophysiology of experimental hypertension. These studies provide significant evidence to indicate that in addition to its recognized traditional toxicological and pharmacological roles, microsomal P450s also play important physiological roles in the control of tissue and body homeostasis.
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PMID:Microsomal cytochrome P450 and eicosanoid metabolism. 1208 78

Transgenic rats overexpressing both human renin and angiotensinogen genes (dTGR) develop hypertension, inflammation, and renal failure. We tested the hypothesis that these pathological features are associated with changes in renal P450-dependent arachidonic acid (AA) metabolism. Samples were prepared from 5- and 7-week-old dTGR and from normotensive Sprague-Dawley (SD) rats, ie, before and after the dTGR developed severe hypertension and albuminuria. At both stages, dTGR showed significantly lower renal microsomal AA epoxygenase and hydroxylase activities that reached 63% and 76% of the control values at week 7. Furthermore, the protein levels of several potential AA epoxygenases (CYP2C11, CYP2C23, and CYP2J) were significantly reduced. Immunoinhibition studies identified CYP2C23 as the major AA epoxygenase, both in dTGR and SD rats. Immunohistochemistry showed that CYP2C23 was localized in cortical and outer medullary tubules that progressively lost this enzyme from week 5 to week 7 in dTGR. CYP2C11 expression occurred only in the outer medullary tubules and was markedly reduced in dTGR compared with age-matched SD rats. These findings indicate site-specific decreases in the availability of AA epoxygenase products in the kidney of dTGR. In contrast to renal microsomes, liver microsomes of dTGR and SD rats showed no change in the expression and activity of AA epoxygenases and hydroxylases. We conclude that hypertension and end-organ damage in dTGR is associated with kidney-specific downregulation of P450-dependent AA metabolism. Because the products of AA epoxygenation have anti-inflammatory properties, this alteration may contribute to uncontrolled renal inflammation, which is a major cause of renal damage in dTGR.
Hypertension 2002 Sep
PMID:P450-dependent arachidonic acid metabolism and angiotensin II-induced renal damage. 1221 66

A single-nucleotide polymorphism (A6986G) in the cytochrome p-450 3A5 (CYP3A5) gene distinguishes an expressor (*1) and a reduced-expressor (*3) allele and largely predicts CYP3A5 content in liver and intestine. CYP3A5 is the prevailing CYP3A isoform in kidney. We report that, among renal microsomes from 21 organ donors, those from *1/*3 individuals had at least eightfold higher mean kidney microsomal CYP3A5 content and 18-fold higher mean CYP3A catalytic activity than did those from *3/*3 individuals (P = 0.0001 and P = 0.0137, respectively). We also report significant associations between the A6986G polymorphism and systolic blood pressure (P = 0.0007), mean arterial pressure (P = 0.0075), and creatinine clearance (P = 0.0035) among 25 healthy African-American adults. These associations remained significant when sex, age, and body mass index were taken into account. The mean systolic blood pressure of homozygous CYP3A5 expressors (*1/*1) exceeded that of homozygous nonexpressors (*3/*3) by 19.3 mmHg. We speculate whether a high CYP3A5 expressor allele frequency among African-Americans may contribute to a high prevalence of sodium-sensitive hypertension in this population.
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PMID:CYP3A5 genotype predicts renal CYP3A activity and blood pressure in healthy adults. 1275 75

Cyclosporine A (CsA), a neutral, highly hydrophobic cyclic peptide with 11 amino acids, is currently the most widely used immunosuppressive drug for preventing graft rejection and autoimmune diseases. Despite its efficacy, the use of CsA is limited by severe side effects, mainly nephrotoxicity and arterial hypertension. Single cell microfluorimetry was used to evaluate the role of CsA on Ca(2+) signaling pathway in intact cells of the porcine proximal tubule-like cell line LLC-PK1; the assay of the in vitro activity of the plasma membrane Ca(2+) pump (PMCA) was carried out through the preparation and isolation of membranes. The addition of CsA to incubation medium at doses ranging from 0.1 to 2 microM did not change the basal level of intracellular calcium ([Ca(2+)](i)), whereas it affected the [Ca(2+)](i) response to thapsigargin (TG), a powerful inhibitor of microsomal Ca(2+) pump. In control studies, 5 microM TG produced a biphasic response: [Ca(2+)](i) peaked with a 60-s lag, and it then declined to a plateau of elevated [Ca(2+)](i), which remains above basal. However, it became evident that CsA strengthened the Ca(2+) response to TG because the addition of 5 microM TG to cells exposed to 400 nM CsA did not affect the peak response to TG, but it markedly affected the subsequent sustained phase ([Ca(2+)](i) = 156 +/- 4.84 versus 130 +/- 3.28 nmol, mean +/- SEM, n = 6, P < 0.001). In membrane preparations, 200 nM CsA brought about, in the presence of 10 microM calmodulin (CaM), a significant decrease of plasma membrane Ca(2+) pump (PMCA) activity (46.96 +/- 0.26 versus 53.48 +/- 1.96 nmol x mg of protein(-1) x min(-1), n = 6, P < 0.02), a value similar to that obtained in the presence of equimolar amounts of cyclosporine H (CsH), a non-immunosuppressive analogue of CsA. These findings suggest that in this cell line CsA affects the Ca(2+) export pathway through the reduction of the PMCA activity with consequent amplification and strengthening of [Ca(2+)](i) response after exposure to agents that trigger intracellular Ca(2+) release. The increased cell sensitivity during Ca(2+) signaling events ensuing from the impairment of this "defense system" may be regarded as one of the basic mechanisms involved in the development of the side effects induced by CsA.
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PMID:Cyclosporine A amplifies Ca2+ signaling pathway in LLC-PK1 cells through the inhibition of plasma membrane Ca2+ pump. 1276 Dec 43

The human microsomal 11 beta-hydroxysteroid dehydrogenase type 2 (11 beta HSD2) metabolizes active cortisol into cortisone and protects the mineralocorticoid receptor from glucocorticoid occupancy. In a congenital deficiency of 11 beta-HSD2, the protective mechanism fails and cortisol gains inappropriate access to mineralocorticoid receptor, resulting in low-renin hypertension and hypokalemia. In the present study, we describe the clinical and molecular genetic characterization of a patient with a new mutation in the HSD11B2 gene. This is a 4-yr-old male with arterial hypertension. The plasma renin activity and serum aldosterone were undetectable in the presence of a high cortisol to cortisone ratio. PCR amplification and sequence analysis of HSD11B2 gene showed the homozygous mutation in exon 4 Asp223Asn (GAC-->AAC) and a single nucleotide substitution C-->T in intron 3. Using site-directed mutagenesis, we generated a mutant 11 beta HSD2 cDNA containing the Asp223Asn mutation. Wild-type and mutant cDNA was transfected into Chinese hamster ovary cells and enzymatic activities were measured using radiolabeled cortisol and thin-layer chromatography. The mRNA and 11 beta HSD2 protein were detected by RT-PCR and Western blot, respectively. Wild-type and mutant 11 beta HSD2 protein was expressed in Chinese hamster ovary cells, but the mutant enzyme had only 6% of wild-type activity. In silico 3D modeling showed that Asp223Asn changed the enzyme's surface electrostatic potential affecting the cofactor and substrate enzyme-binding capacity. The single substitution C-->T in intron 3 (IVS3 + 14 C-->T) have been previously reported that alters the normal splicing of pre-mRNA, given a nonfunctional protein. These findings may determine the full inactivation of this enzyme, explaining the biochemical profile and the early onset of hypertension seen in this patient.
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PMID:Two homozygous mutations in the 11 beta-hydroxysteroid dehydrogenase type 2 gene in a case of apparent mineralocorticoid excess. 1278 46

Acetylcholine releases a non-prostanoid endothelium-derived hyperpolarizing factor (EDHF) and nitric oxide from physiological salt solution perfused rat mesenteric arteries. This study reports an impairment in EDHF-mediated vasodilation in deoxycorticosterone acetate (DOCA)-salt hypertensive versus control normotensive rats. Nitric oxide-mediated vasodilation to acetylcholine was not altered in the animals. We hypothesize that free radical species generated as by-products of arachidonic acid metabolism contribute to impaired EDHF-mediated dilation in DOCA-salt hypertension. With or without reduced nicotinamide adenine dinucleotide phosphate (NADPH) as co-factor, arterial microsomes generate free radical species upon incubation with arachidonic acid. The production of free radicals was significantly higher in DOCA-salt versus control rat microsomes, and was totally eliminated by addition of cyclooxygenase-2 inhibitors NS-398 or celecoxib at 30 microM. Treatment of DOCA-salt rats with tempol (an antioxidant; 15 mg/kg, i.p., 21 days) alleviates hypertension; improves acetylcholine-induced EDHF-mediated vasodilation in DOCA-salt rats, and decreases arachidonic acid-driven microsomal free radical production. Serum level of 8-isoprostanes is elevated in DOCA-salt hypertension versus control or sham-salt rats, and the increase was reversed by tempol treatment. These results show that EDHF-mediated dilation of rat mesenteric arteries is impaired in DOCA-salt induced hypertension. Our data also suggest that cyclooxygenase-2 mediates free radical production, and that free radicals modulate the EDHF-mediated vascular response in DOCA-salt induced hypertension.
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PMID:Tempol, an antioxidant, restores endothelium-derived hyperpolarizing factor-mediated vasodilation during hypertension. 1463 80

11 Beta-hydroxysteroid dehydrogenases type 1 and 2 (11 beta-HSD1 and 11 beta-HSD2) are microsomal enzymes responsible for the interconversion of cortisol into the inactive form cortisone and vice versa. 11 beta-HSD1 is mainly present in the liver, and has predominantly reductase activity although its function has not yet been elucidated. 11 beta-HSD2, present in mineralocorticoid target tissues such as the kidney, converts cortisol into cortisone. Reduced activity due to inhibition or mutations of 11 beta-HSD2 leads to hypertension and hypokalemia resulting in the Apparent Mineralocorticoid Excess Syndrome (AMES). Like humans, cats are highly susceptible for hypertension. As large species differences exist with respect to the kinetic parameters (K(m) and V(max)) and amino acid sequences of both enzymes, we determined these characteristics in the cat. Both enzyme types were found in the kidneys. 11 beta-HSD1 in the feline kidney showed bidirectional activity with predominantly dehydrogenase activity (dehydrogenase: K(m) 1959+/-797 nM, V(max) 766+/-88 pmol/mg*min; reductase: K(m) 778+/-136 nM, V(max) 112+/-4 pmol/mg*min). 11 beta-HSD2 represents a unidirectional dehydrogenase with a higher substrate affinity (K(m) 184+/-24 nM, V(max) 74+/-3 pmol/mg*min). In the liver, only 11 beta-HSD1 is detected exerting reductase activity (K(m) 10462 nM, V(max) 840 pmol/mg*min). Sequence analysis of conserved parts of 11 beta-HSD1 and 11 beta-HSD2 revealed the highest homology of the feline enzymes with the correspondent enzymes found in man. This suggests that the cat may serve as a suitable model species for studies directed to the pathogenesis and treatment of human diseases like AMES and hypertension.
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PMID:Characterisation of 11 beta-hydroxysteroid dehydrogenases in feline kidney and liver. 1473 82


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