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)

11Beta-hydroxysteroid dehydrogenases (11beta-HSD) catalyse the interconversion of active glucocorticoids (cortisol, corticosterone) and their inert 11-keto derivatives (cortisone, 11-dehydrocorticosterone). The type-2 isozyme (11beta-HSD-2) is a high-affinity dehydrogenase that catalyses the rapid inactivation of glucocorticoids, thus ensuring selective access of aldosterone to otherwise non-selective mineralocorticoid receptors in the distal nephron. Mutations of the gene encoding 11beta-HSD-2 are responsible for the syndrome of apparent mineralocorticoid excess, in which cortisol illicitly occupies mineralocorticoid receptors, causing hypertension and hypokalaemia. 11Beta-HSD-2 is also highly expressed in the placenta and mid-gestation fetus, where it may protect developing tissues from the often deleterious actions of glucocorticoids upon fetal growth and organ maturation. 11Beta-HSD-1 is probably an 11beta-reductase in vivo. Its function is obscure, but may amplify glucocorticoid action during the diurnal nadir, drawing upon the substantial circulating levels of 11-keto steroids. Both isozymes are regulated during ontogeny and by a series of hormonal and other factors. 11Beta-HSD provide an important control of glucocorticoid action at a cellular level, and may represent new targets for therapeutic intervention.
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PMID:Medical and physiological aspects of the 11beta-hydroxysteroid dehydrogenase system. 937 Mar 41

11Beta-hydroxysteroid dehydrogenase (11beta-HSD) is expressed in vascular smooth muscle cells (VSMC) but has not been reported to be present in vascular endothelial cells. This enzyme assists in regulating the cellular concentration of active endogenous glucocorticoids (GCs). We have observed that endothelium intact rat aortic rings express message for both Type 1 and Type 2 11beta-HSD whereas primary cultures of VSMC express only mRNA for the Type I isoform. Since GCs diminish prostacyclin synthesis in endothelial cells, we hypothesized that 11beta-HSD is present in vascular endothelial cells. In primary cultures of rat aortic endothelial (RAE) cells, mRNA from both isoforms of 11beta-HSD could be detected by RT-PCR with higher levels of the Type 1 isoform. The oxo-reductase reaction "activating" 11-dehydro metabolites back to the parent steroid is the preferred enzyme direction (12:1 after a 120 minutes steroid incubation) in intact RAE cells. When RAE cells are grown in the presence of antisense oligonucleotides specific for Type 1 11beta-HSD, oxo-reductase activity is decreased by approximately 50% but the dehydrogenase reaction, which inactivates endogenous GCs and is characteristic of the Type 2 isoform, is unaffected. Thus endothelial cells appear to express both isoforms of 11beta-HSD; the Type 1 isoform dominates functioning in the oxo-reductase mode. Inhibition of the oxo-reductase reaction may lower the local concentrations of GC and indirectly allow for increased production of prostacyclin in endothelial cells.
Hypertension 1998 Jan
PMID:Localization of 2 11beta-OH steroid dehydrogenase isoforms in aortic endothelial cells. 945 45

Insulin resistance is characterized principally by impaired insulin-mediated glucose uptake which provokes a compensatory increase in pancreatic beta-cell secretory activity. For a time this may produce well-controlled plasma glucose levels but as the insulin resistance worsens the augmented insulin production becomes inadequate to keep plasma glucose at euglycemia leading to the development of non-insulin dependent diabetes mellitus (NIDDM), accompanied by hyperinsulinemia and hyperglycemia. A number of metabolic defects are associated with NIDDM including obesity, hypercoagulability, cardiovascular disease risk factors such as hypertension and dyslipidemia and these constitute the insulin resistance syndrome. The identity of the biochemical factor that might link all these defects is not yet known. We have hypothesized that platelet-activating factor (1-O-alkyl-2-acetyl-sn-glycero-3-phosphocholine, PAF) may be such a link. In this study, we measured plasma acetylhydrolase (EC.1.1.48), which degrades PAF to the inactive metabolise lyso-PAF, as a surrogate for PAF activity in three groups of hypercholesterolemic subjects: lean controls (n = 9), non-diabetic obese (n = 6) and NIDDM subjects (n = 6). The ages and body mass indices of the subjects were 46 +/- 3.1 and 24.2 +/- 2.2 for the lean controls, 52 +/- 2.5 and 28.7 +/- 0.9 for the NIDDM subjects and 60 +/- 2 and 27.6 +/- 2.1 for the obese, non-diabetic subjects (mean +/- S.E.M.). The measurements were made before and after therapy with the cholesterol-lowering drug lovastatin, a 3-hydroxy 3 methylglutaryl (HMG) coenzyme. A reductase inhibitor (40 mg/day) for 3 months. Fasting plasma glucose (FPG) levels were 91 +/- 11, 96 +/- 3 and 146 +/- 11 mg/dl, for the lean, obese and NIDDM subjects, respectively, before therapy began. Lovastatin did not affect FPG in any of the three subject groups. Before treatment, the fasting plasma insulin (FPI) levels were 6.1 +/- 0.92, 10.83 +/- 2.03 and 14.68 +/- 3.64 mU/l for the lean, non-diabetic obese and NIDDM subjects, respectively. After lovastatin therapy only the obese group exhibited a significant change in FPI (15.35 +/- 2.47 mU/l) (P < 0.05). Total cholesterol levels were similar in all three groups both before and after lovastatin therapy but within each group lovastatin therapy significantly reduced the total cholesterol by 32, 29 and 34% in the lean, obese and NIDDM subject groups respectively (P < 0.0001). Lovastatin therapy reduced LDL-cholesterol levels by 40, 32 and 46% in the lean, obese and NIDDM subjects, respectively, but produced no significant effect on HDL or triglyceride levels. Before therapy, the plasma acetylyhydrolase activities were 104 +/- 7, 164 +/- 7 and 179 +/- 7 nmol/ml per min in the lean, obese and NIDDM subjects, respectively. Lovastatin therapy reduced plasma acetylhydrolase levels to 70 +/- 7, 87 +/- 6 and 86 +/- 7 nmol/ml per min in the lean, obese and NIDDM subjects, respectively. Plasma acetylhydrolase activity was predominantly (> 80%) associated with LDL cholesterol both before and after lovastatin treatment. Also, plasma acetylhydrolase activity significantly correlated with fasting plasma insulin levels before lovastatin therapy but not after. Taken together, this study clearly implicates PAF metabolism in three defects associated with the insulin resistance syndrome: hypercholesterolemia, obesity and NIDDM. Additionally, we conclude that chronic hyperinsulinemia may play a significant role in the production of plasma acetylhydrolase.
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PMID:Plasma PAF acetylhydrolase in non-insulin dependent diabetes mellitus and obesity: effect of hyperinsulinemia and lovastatin treatment. 945 36

The benefits of cholesterol lowering for primary and secondary prevention of coronary artery disease (CAD) have been well established. However, to accurately assess a patient's risk for CAD, clinicians must be aware of their patients' specific levels of low-density lipoprotein (LDL) cholesterol, high-density lipoprotein (HDL) cholesterol, and triglycerides, and not just total serum cholesterol. Clinicians must also evaluate other factors in assessing a patient's risk profile. These include smoking, weight, family history of CAD, age, hypertension, and others. Absolute risk, rather than relative risk, can then be determined. Although LDL cholesterol may be the most potent predictor of risk, triglycerides are also an important indicator of CAD risk. Currently, 3-hydroxy-3-methylglutaryl coenzyme A (HMG-CoA) reductase inhibitors ("statins") are first-line therapy for the reduction of elevated levels of LDL cholesterol. All statins are effective in achieving some level of LDL cholesterol lowering. However, atorvastatin, which was recently introduced in the United States, has greater efficacy at maximal dosage in lowering LDL cholesterol, and also has a more beneficial effect on elevated levels of triglycerides, than other statins.
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PMID:Profiling risk and new therapeutic interventions: looking ahead. 955 May 3

AME has been a crucial experiment of biology from which much has been learnt about corticosteroid hormone action and mineralocorticoid hypertension. 11 beta-HSD is an important pre-receptor pathway determining corticosteroid hormone action. Any tissue expressing 11 beta-HSD1 or 11 beta-HSD2 can clearly modulate glucocorticoid and mineralocorticoid action independent of circulating concentrations. A series of related enzymes operates in a similar fashion to determine hormone action for other members of the thyroid/steroid hormone receptor superfamily (e.g. 17 beta-HSD, 25-hydroxyvitamin D 1 alpha-hydroxylase, aromatase, 5'-deiodinase, 5 alpha-reductase). Endocrinologists have been obsessed with measuring the concentrations of a hormone in the circulation and making their decisions on the basis of these results, whether or not that hormone is involved in the pathogenesis of a disease process. Such an approach needs to be revised, with greater emphasis on considering the action of a hormone within a given tissue and, in turn, on the role of these enzymes in the pathogenesis of human disease.
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PMID:Cortisol, hypertension and obesity: the role of 11 beta-hydroxysteroid dehydrogenase. 959 34

Gestational hypertension with or without proteinuria is a multifactorial disease in which the presence of a hypercoagulable state has been suggested. The prothrombin G20210A, the Factor V (FV) Leiden mutations, and the C677T 5-10 methylenetethrahydrofolate reductase (MTHFR) polymorphism were investigated in 140 women with gestational hypertension and in 216 normotensive women from Southern Italy. Nine controls (4.1%) and 16 cases (11.4%; OR: 2.96, 95% CI: 1.27-6.91) carried the prothrombin A20210 allele. FV Leiden mutation was observed in 4 controls (1.8%) and 11 cases (7.9%; OR: 4.53, 95% CI: 1.41-14.53). The TT MTHFR genotype was found in 36 controls (16.6%) and 34 cases (24.4%: OR: 1.61, 95% CI: 0.96-2.74). The impact of potential confounding variables was evaluated using a logistic regression analysis. Nulliparity, Factor V Leiden and prothrombin A20210 carrier status resulted to be independent risk factors of having gestational hypertension with or without proteinuria. Imbalance of haemostasis, through prothrombotic genetic factors, may predispose to the occurrence of gestational hypertension.
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PMID:Prothrombotic genetic risk factors and the occurrence of gestational hypertension with or without proteinuria. 1010 58

In mammalian tissues, at least two isozymes of 11 beta-hydroxysteroid dehydrogenase (11 beta-HSD) catalyze the interconversion of hormonally active C11-hydroxylated corticosteroids (cortisol, corticosterone) and their inactive C11-keto metabolites (cortisone, 11-dehydrocorticosterone). The type 1 and type 2 11 beta-HSD isozymes share only 14% homology and are separate gene products with different physiological roles, regulation, and tissue distribution. 11 beta-HSD2 is a high affinity NAD-dependent dehydrogenase that protects the mineralocorticoid receptor from glucocorticoid excess; mutations in the HSD11B2 gene explain an inherited form of hypertension, the syndrome of apparent mineralocorticoid excess in which cortisol acts as a potent mineralocorticoid. By contrast, 11 beta-HSD1 acts predominantly as a reductase in vivo, facilitating glucocorticoid hormone action in key target tissues such as liver and adipose tissue. Over the 10 years, 11 beta-HSD has progressed from an enzyme merely involved in the peripheral metabolism of cortisol to a crucial pre-receptor signaling pathway in the analysis of corticosteroid hormone action. This review details the enzymology, molecular biology, distribution, regulation, and function of the 11 beta-HSD isozymes and highlights the clinical consequences of altered enzyme expression.
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PMID:11 beta-Hydroxysteroid dehydrogenase. 1023 52

The enzyme 11 beta HSD catalyzes the interconversion of the biologically active cortisol and the biologically inactive cortisone. There are two distinct isozymes: 11 beta HSD type 1 is mainly expressed in liver and is a bidirectional enzyme, with both dehydrogenase and reductase activity. 11 beta HSD type 2 is mainly expressed in kidney and is a unidirectional enzyme with only dehydrogenase activity. 11 beta HSD type 2 protects the mineralocorticoid receptor from being activated by cortisol. Thus, specificity of this receptor in vivo is enzyme and not receptor mediated. The syndrome of apparent mineralocorticoid excess is caused by a congenital deficiency of 11 beta HSD type 2. Liquorice-induced hypertension is an example of an acquired defect in dehydrogenase activity of 11 beta HSD, caused by glycyrrhetinic acid. 11 beta HSD may play a role in the pathogenesis of 'essential' hypertension, obesity and type 1 diabetes mellitus. Angiotensin-converting enzyme inhibitors enhance dehydrogenase activity of 11 beta HSD, which may contribute to their natriuretic effect.
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PMID:[11 beta-hydroxysteroid-dehydrogenase: characteristics and the clinical significance of a key enzyme in cortisol metabolism]. 1032 Dec 59

The balance of evidence from observational studies suggests that elevated levels of homocysteine are associated with increased risk of carotid artery disease and stroke. There is, however, a paucity of prospective studies. There are also concerns regarding confounding caused by factors associated with hyperhomocysteinaemia, including renal impairment, an atherogenic diet and cigarette smoking. Homozygosity for a defective thermolabile variant of methylene-tetrahydrofolate reductase, a common genetic polymorphism which results in hyperhomocysteinaemia, has not been consistently linked with stroke or other vascular diseases. Additional prospective studies are required, with sufficient power to characterise the form of the association between homocysteine concentrations and stroke risk, whether linear or threshold, and to study interactions between homocysteine, other dietary markers and established stroke risk factors such as smoking and hypertension. Ultimately, the case for a causal role for elevated levels of homocysteine in vascular disease, including stroke, will depend on data from randomised controlled trials of homocysteine-lowering interventions. Given the high prevalence of hyperhomocysteinaemia in apparently well-nourished populations and the tendency for homocysteine concentrations to increase with age, modest effects of homocysteine on stroke risk will have profound implications for public health.
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PMID:Homocysteine and risk of stroke. 1050 Dec 75

Approximately 25% of men over 40 or 50 suffer from lower urinary tract symptoms (LUTS) caused by benign prostatic hyperplasia (BPH). The bothersomeness of the symptoms varies considerably from one individual to the other and can fluctuate with time. Symptoms tend to gradually worsen as time goes on through. Surprisingly, there appears to be no particular relationship between symptoms and the overall prostate size and weight. Symptoms of BPH are divided in obstructive (voiding) and irritative (storage) symptoms, of which the irritative are the most bothersome. Until recently, surgery (open or transurethral resection) was the only treatment option. Nowadays, a range of less invasive treatments and pharmacological therapies are available to relieve BPH symptoms. Finasteride, for instance, reduces the prostate size by blocking 5-alpha-reductase, the enzyme which plays a role in the growth of the prostate. It takes however a long time before a clinically significant effect is noticed: +/- 6 to 12 months. Then, there are alpha 1-blockers. These agents result in relaxation of prostatic and bladder neck smooth muscle. alpha 1-blockers act relatively fast. Most alpha 1-blockers used in the treatment of symptomatic BPH were originally developed to treat hypertension. The adverse events most commonly associated with alpha 1-blockers, such as dizziness, headache, asthenia, tachycardia/palpitation, postural hypotension and syncope are possibly related to the blood pressure lowering effect. This stimulated the search for more selective alpha-blockers which act predominantly on the prostate and have less effect on the blood levels (afluzosin: Xatral and tamsulosin: Omic). Presently, alpha-blockers have become the first-line drugs in the medical treatment of symptomatic BPH. Surgery (open or TURP) is limited to patients with recurrent infections, large residue (> 200 ml), recurrent hematuria, bladder stones. New alternative and minimally invasive treatment such as TUNA generate necrotic lesions within the prostate through needle introduced endoscopically. This leads also to marked improvement in patients symptomatology.
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PMID:[Benign hypertrophy of the prostate: which treatment, for whom?]. 1052 95


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