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)

The role of renin-angiotensin system in generation of genetic hypertension is unclear. Renal renin secretion was examined in renal superficial cortical slices from spontaneously hypertensive rats (SHR) and Wistar-Kyoto rats (WKY) at 4 wk (prehypertensive), 6 wk (early hypertensive), and 12 wk (established hypertension) of age. Basal renin release in SHR was greater at 4 wk (749 +/- 55 vs. 480 +/- 50 ng/mg, P less than 0.005) and at 6 wk (428 +/- 70 vs. 266 +/- 60 ng/mg, P less than 0.02). Basal renin release declined by 43% between 4 and 6 wk and by 34% between 6- and 12-wk time periods in SHR. In SHR and WKY at all ages, renin responses to stimulation with isoproterenol (ISO, 10(-5) and 10(-6) M, respectively) were similar. Angiotensin II (ANG II) resulted in a significant reduction in renin release in both SHR and WKY at 10(-7) M in all age groups. The ANG II-induced percent change in renin release from control of SHR was less compared with WKY rats at 10(-8) and 10(-9)M at 4 wk of age. When ANG II was tested in presence of beta-adrenergic stimulation, a comparable renin inhibitory response was observed in both SHR and WKY. The number of ANG II-binding sites in proximal tubular brush-border membrane (BBM) was increased in SHR vs. WKY rats (458 +/- 18 vs. 235 +/- 12 fmol ANG II/mg BBM protein, P less than 0.001) at 4 wk of age. These data document increased basal renin release and ANG II-binding sites in proximal tubular BBM in 4 wk SHR compared with age-matched WKY rat.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Ontogeny of renal renin release in spontaneously hypertensive rat and Wistar-Kyoto rat. 184 63

The interaction between genetic and environmental factors is important in the pathophysiology of hypertension. By examining the effects of two environmental factors--acute psychoemotional stress and dietary sodium intake--in rats with genetic hypertension, an important influence on central neural mechanisms governing the renal sympathetic neural control of renal function has been demonstrated. Additional studies of the central opioid systems have demonstrated an important role of opioid peptides in modulating the renal functional responses to acute psychoemotional stress. The observed renal functional alterations--antidiuresis, antinatriuresis, and renal vasoconstriction--are known to be capable of contributing to the initiation, development, and maintenance of the hypertensive process.
Hypertension 1991 Apr
PMID:Stress and sodium intake in neural control of renal function in hypertension. 184 2

Histaminergic neurons of the brain have been implicated in genetic hypertension. We investigated the effect of inhibition of histamine synthesis by alpha-fluoromethylhistidine (alpha-FMH), the irreversible inhibitor of histidine decarboxylase, on the development and maintenance of hypertension in spontaneously hypertensive rats. Young (3-week-old) and adult (7-week-old) rats were treated with alpha-fluoromethylhistidine for 29 and 13 days, respectively. Treatment of spontaneously hypertensive rats and normotensive Wistar-Kyoto rats with alpha-fluoromethylhistidine led to a pronounced decrease in the histidine decarboxylase activity and in the histamine concentration in the brain (hypothalamus, brainstem, cortex-midbrain). In adult spontaneously hypertensive rats, the development of hypertension was not influenced by alpha-fluoromethylhistidine. In young spontaneously hypertensive rats, alpha-fluoromethylhistidine led to a transient delay in the development of hypertension which was followed by a transient tendency to increased blood pressure. It is concluded that histaminergic neurons of the brain play only a subordinate role, if any at all, in the development of hypertension in spontaneously hypertensive rats.
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PMID:Does brain histamine contribute to the development of hypertension in spontaneously hypertensive rats? 186 29

This study investigated the release of prostacyclin (PGI2) and thromboxane A2 (TXA2) from the aortic walls of various experimental hypertensive rats, e.g. spontaneously hypertensive rats (SHR), Dahl salt-sensitive (Dahl S) rats, deoxycorticosterone (DOCA)-salt hypertensive rats and renovascular (2-kidney, 1-clip (2K1C) and 1-kidney, 1-clip (1K1C] hypertensive rats. The PGI2 generation was increased significantly in these hypertensive models, irrespective of the hypertensive mechanisms, when they developed established hypertension. Dahl S rats, having an impaired PGI2 production on a low salt diet, restored PGI2 generating capacity to the control level of Dahl salt-resistant rats when they were fed a high salt diet and developed salt-induced hypertension. On the other hand, the TXA2 generation in the vascular walls was enhanced particularly in rat models for genetic hypertension, and this system was unaltered in the models for secondary hypertension, e.g. DOCA-salt and renovascular hypertension. Thus, it is suggested that the elevation of blood pressure is associated with an increase in vascular PGI2 production, and that the increased vascular TXA2 production is a characteristic feature of genetic hypertension.
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PMID:Vascular eicosanoid production in experimental hypertensive rats with different mechanisms. 187 Nov 82

Two new strains of inbred rats have been developed. One, WKHA, exhibits hyperactivity, and the other, WKHT, exhibits hypertension. Both of these traits are expressed in the SHR. By crossing spontaneously hypertensive rats (SHRs) with Wistar-Kyoto (WKY) controls, followed by recombinant selected inbreeding, we succeeded in genetically separating the hyperactivity from the hypertension in two new strains. Longitudinal studies indicate a persistence of hypertension without hyperactivity in WKHTs, and hyperactivity without hypertension in WKHAs, over at least 1 year. Ventricular enlargement, another characteristic of SHRs, was observed in adult WKHTs after the onset of hypertension; however, ventricles were already enlarged in normotensive WKHAs at 6 wk. The emergent behavioral profile of WKHAs indicates that they retain the hyperactivity trait and hyperreactivity to stress, and not some of the other behaviors of SHRs, such as poor habituation. Studies in WKHTs suggest that they are an improvement over SHRs as a model of genetic hypertension as they lack some prominent behavioral abnormalities. Nevertheless, the four genetically related strains (WKHA, WKHT, SHR, and WKY), used together, are considered most appropriate for seeking correlations of biological differences with either hypertension or hyperactivity.
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PMID:Two new inbred rat strains derived from SHR: WKHA, hyperactive, and WKHT, hypertensive, rats. 187 83

Blood pressure has a genetic component influenced by several to many genetic loci in both humans and animals; that is, blood pressure is a polygenic trait. Ultimately, the primary causes of genetic hypertension can only be established with genetic techniques. The primary tools for this analysis in animals are inbred strains of rodents selectively bred for differences in blood pressure and the genetic analysis of these strains by cosegregation techniques. This analysis determines whether it is possible to separate specific alleles at a candidate genetic locus from a component of blood pressure in genetically segregating populations. If the candidate alleles cosegregate with a component of blood pressure, these alleles must be the cause of the blood pressure differences or be linked on the same chromosome to alleles at other loci that cause blood pressure differences. If, on the other hand, the candidate alleles do not cosegregate with blood pressure, they cannot be the cause of the blood pressure differences. This analysis is straightforward in the case of a single-locus Mendelian candidate trait but is less informative if a candidate trait is itself polygenic. In this case, genetic analysis yields either 1) results that are compatible with, but not definitive proof for, a genetic role of the trait in causing blood pressure differences or 2) results that eliminate the trait as a cause of genetic differences in blood pressure. A complete listing of all the traits that have undergone genetic cosegregation analysis in rodents is given.
Hypertension 1991 Sep
PMID:Dissecting the primary causes of genetic hypertension in rats. 188 55

Metabolic acidosis has recently been observed in rat models of salt-sensitive genetic hypertension. Studies in normotensive salt-sensitive men have likewise demonstrated slightly but significantly lower arterial pH and bicarbonate levels, relating salt-sensitivity to the presence of a relative acidosis in man. The administration of alkalinizing sodium salts such as sodium bicarbonate or citrate have been shown to have no effect on or to even lower blood pressure in patients with essential hypertension. Possible factors contributing to the perturbation in acid-base status include an enhanced Na+/H(+)-antiport activity, lower intracellular pH levels and altered renal electrolyte handling as found in rat models of hypertension and in patients with essential hypertension.
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PMID:Abnormal acid-base regulation in salt-sensitive normotensive man. 192 Dec 51

In order to investigate the pathophysiological role of heart dynorphin-A (Dyn-A) in genetic hypertension, immunoreactive (ir)-Dyn-A was measured in heart extracts of spontaneously hypertensive rats (SHR) and compared with that of age matched Wistar (WR) and Wistar Kyoto (WKY) rats. Heart ir-Dyn-A contents in 8 week-old WK (84 fmol/g tissue) were not significantly different from those of age matched WKY (109 fmol/g tissue). In control WKY, the levels of ir-Dyn-A did not significantly vary with the age (from 109 to 117 fmol/g) except in 16 week-old animals which displayed a significant increase (238 fmol/g tissue) compared to younger animals. In SHR, the heart content of ir-Dyn-A displayed a 6.5 fold increase at 8 weeks compared to age matched WKY. Older SHR showed a return of their heart ir-Dyn-A content to control (12 week-old) or below control values (16 week-old; 121 compared with 238 fmol/g tissue in WKY). Heart ir-Dyn-A in WKY and SHR eluted as a single peak on mu-Bondapak HPLC, corresponding with the retention time of synthetic Dyn-A. A local function for cardiac ir-Dyn-A is suggested by the presence in heart membrane preparations of a high affinity binding site for the kappa selective opioid ligand, [3H]U-69593, with KD of 6.4 (WKY) and 8.5 (SHR) nM and Bmax of 3.7 (WKY) and 3.6 (SHR) pmol/g protein. The alterations in the levels of cardiac ir-Dyn-A during the development of hypertension in SHR were analyzed in regard with the reported effects of Dyn-related peptides on heart natriuretic and sympathetic functions.
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PMID:Alterations of heart dynorphin-A in the development of spontaneously hypertensive rats. 197 Jan 35

The role of the hypothalamus (HTH) in the pathogenesis of genetic hypertension was studied in spontaneously hypertensive rats (SHR). It is currently believed that, in this strain, the genetic defect manifests itself mainly in the HTH. We examined this hypothesis by grafting HTH neurons from embryos of SHR or control Wistar Kyoto (WKY) rats into the HTH of adult normotensive WKY rats. Changes in host systolic blood pressure (SBP) were monitored, and alterations in vasoactive intestinal polypeptide (VIP) gene expression of the host brain were studied. In rats grafted with HTH tissue from SHR embryos (G-SHR), the blood pressure rose by 31% as compared with that in the grafted control group. The blood pressure climbed gradually over a period of 6 weeks to its highest level, which was maintained for at least 3 months following grafting. Along with the elevated blood pressure, the heart weight increased by 80% compared to controls. Behavioral changes were also evident in the G-SHR rats, and these were similar to those of the native SHR strain. In situ hybridization histochemistry showed a 40% elevation in VIP transcripts in the suprachiasmatic nucleus of the host G-SHR brain compared to controls. These studies demonstrate that transplantation of embryonic SHR HTH tissue into brains of adult normotensive rats results in the development of hypertensive characteristics in the host. It thus appears that the HTH is a prime candidate for the source of changes leading to spontaneous hypertension in mammals.
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PMID:Hypertension induced by hypothalamic transplantation from genetically hypertensive to normotensive rats. 199 8

To determine experimentally if insulin resistance is associated with spontaneously occurring hypertension, insulin-stimulated glucose metabolism was studied in an animal model of genetic hypertension. The spontaneously hypertensive rat (SHR) and its genetic control, the Wistar-Kyoto strain (WKY) were studied with the euglycemic hyperinsulinemic clamp technique. Clamp studies demonstrated reduced insulin-stimulated glucose uptake in SHR (P less than .001). These data indicate that SHR is insulin-resistant when compared with WKY. A reduction of insulin-stimulated glucose metabolism occurred in older animals of both strains, providing evidence of an aging effect on insulin-stimulated glucose metabolism. However, the reduction of insulin-stimulated glucose metabolism was more pronounced in the hypertensive animals. This study demonstrates the presence of peripheral (skeletal muscle) insulin resistance in the SHR.
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PMID:Insulin resistance in the spontaneously hypertensive rat. 201 Oct 76


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