UMLS:C0020538 - FACTA Search

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Query: UMLS:C0020538 (hypertension)
170,190 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A detailed comparison of blood and plasma volumes and of the transcapillary escape rate (TER) of albumin was performed in SHR and matched NCR, particularly during the phase of rapid pressure rise in SHR. Throughout this early phase of life, the relative plasma and blood volumes tend to be lower, and TER higher in SHR, as would be expected when neurogenic mechanisms dominate the initiation of hypertension. Only in late established SHR hypertension, with increasing signs of cardiovascular complications, blood volume tends to be higher in SHR than in NCR. These results are in general agreement with most observations in early essential hypertension in man. They are of interest in contrast to recent findings in another variant of primary hypertension in rats, MHS. Also the apparently quite different initiating mechanisms in SHR and MHS primary hypertension are discussed.
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PMID:Plasma volume, blood volume and transcapillary escape rate (TER) of albumin in young spontaneously hypertensive rats (SHR) as compared with normotensive controls (NCR). 75 45

In an effort to help explain why it is often difficult to demonstrate hypotension with alpha-methyldopa on an acute basis in normotensive anesthetized animals, the drug was administered intravenously in single doses of either 50, 100, or 200 mg/kg to chloralose-anesthetized cats while monitoring mean arterial pressure; the systolic pressor response in arterial pressure to bilateral occlusion of the common carotid arteries; hind limb vascular resistance in a vascularly isolated, extracorporeally perfused but neurally intact hind limb; and the response of hind limb vascular resistance to CCO. Alpha-methyldopa failed to cause any significant hypotension and also failed to affect vasomotor tone to the hind limb vasculature, but the drug augmented the pressor response to CCO on MAP and hind limb vascular resistance. Alpha-methyldopa also had no effect on hind limb vascular resistance when added directly to the extracorporeally perfused hind limb vascular resistance when added directly to the extracorporeally perfused hind limb circuit, indicating a lack of direct vascular smooth muscle dilating properties in these preparations. It is postulated that the augmented baroreceptor demonstrated may help th explain why it is difficult to record hypotension on an acute experimental basis with this drug. Such actions of alphamethyldopa might also provide a basis for understanding the development of tolerance to the antihypertensive effects of the drug and instances of paradoxical hypertension with it when these occur in the hypertensive human.
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PMID:Some paradoxical aspects of the cardiovascular pharmacology of alpha-methyldopa. 83 45

Milan hypertensive (MSH) rats develop hypertension around the 3rd-4th week of life and exhibit increased Na-pump activity in adulthood. The present study was performed to evaluate whether or not hypertension is preceded by an increase in Na-K-ATPase activity. Total and ouabain-sensitive ATPase activities were studied in single microdissected medullary thick ascending limb of Henle (mTAL) tubules from MHS, Milan normotensive (MNS) and Sprague-Dawley (SD) rats at 22-24, 26-28 and 45-60 days of age. Data are given as mean +/- SEM. Total and Na-K-ATPase activity exhibited a developmental pattern in MHS, MNS and SD rats. At 22-24 days no difference was seen between MHS and MNS animals. At 26-28 days MHS had a higher total and Na-K-ATPase activity than MNS (3031 + 171 vs 2471 + 178 pmol phosphate/mm tubule per hour, P less than 0.05; 2289 + 205 vs 1653 + 151, n = 10, P less than 0.05). At this age there was still no difference in mean arterial blood pressure (88 + 4 vs 86 + 3 mm Hg, n = 15). Adult MHS rats had higher blood pressure (140 + 9 vs 112 + 8 mm Hg, P less than 0.001) and higher total (3544 + 136 vs 2718 + 215 pmol phosphate/mm tubule per hour, n = 10, P less than 0.01) and Na-K-ATPase activity (2670 + 99 vs 1942 + 217 pmol phosphate/mm tubule per hour, n = 10, P less than 0.05) than adult MNS rats.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Increased renal tubular Na-K-ATPase activity in Milan hypertensive rats in the prehypertensive period. 166 81

Differences genetically associated with the development of hypertension in a strain of genetically hypertensive rat (MHS) were described in ion transport across erythrocyte membranes compared to normotensive control (MNS). Antibodies against the MNS ghost proteins were raised in the MHS, producing an immunoreaction against a 105 KDa protein later identified as adducin. A clone coding for a portion of mouse adducin was isolated with these antibodies. Using this clone, overlapping cDNA clones coding for a 63 KDa adducin-like protein were isolated. A family of related mRNAs of about 3500, 3800, 4200 nt, was found to be present in spleen, kidney and heart tissues. Similar mRNAs and an additional tissue specific 8000 nt mRNA are present in brain. All mRNAs seem to be generated by alternative splicing from the transcript of a single gene. An interesting polymorphism, a Gln to Arg substitution, was detected in the carboxiterminal area of rat adducin 63.
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PMID:Molecular cloning of an adducin-like protein: evidence of a polymorphism in the normotensive and hypertensive rats of the Milan strain. 205 21

In this article, we present the results we have obtained from experimental and genetic models of human essential hypertension, in order to investigate those findings relevant to understanding the time course and the mechanisms underlying the human disease. With experiments on the renal artery constriction in the conscious dog, we have shown that a kidney lesion can produce a form of hypertension not different, in the established phase, from the essential one and that the onset of this form follows a phasic pattern during which the initial stages are crucial for understanding the mechanisms leading to hypertension. We also consider a rat model (MHS) that spontaneously develops a form of hypertension very similar to the human disease. In this model, we have demonstrated by a kidney cross-transplantation experiment and functional studies that the kidney is responsible for the rise in blood pressure and that the organ dysfunction is probably due to a primary abnormality in ion handling of the cell membrane. This cellular alteration, detected both in MHS erythrocytes and in their kidney proximal tubular cells, should be the cause for the higher rate of kidney Na+ reabsorption observed in the MHS. Comparing this animal model with, at least, a subgroup of humans prone to develop hypertension or already hypertensive, it is possible to detect a series of similarities in the kidney function, hormonal pattern, and cellular function of the two species that allows us to argue that the MHS is a suitable model from which to draw conclusions relevant to the pathogenesis of essential hypertension in some humans.
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PMID:Genetic and experimental hypertension in the animal model-similarities and dissimilarities to the development of human hypertension. 242 88

Renal regulation of extracellular fluid volumes via the tubuloglomerular feedback control (TGF) has been studied in rat experiments. Important modulation of the TGF mechanism was achieved from arterial blood pressure level and extracellular fluid volume via renal interstitial pressure changes. This volume-regulating mechanism has been studied in spontaneously hypertensive rats of the Milan strain (MHS) and compared with Milan normotensive rats (MNS). During development of hypertension, the TGF mechanism was highly sensitive and activated to reduce glomerular filtration rate and retain electrolytes and water. When blood pressure was increased in the adult MHS animals the TGF mechanism was normalized. It could be speculated that the cause of the increased TGF mechanism was dependent on an increased Na-K-2 Cl cotransport into the macula densa cells. In SHR rats compared to Wistar-Kyoto rats, the TGF sensitivity was also increased but, in contrast, the TGF mechanism was not activated in these animals to retain fluid. Some other mechanism for the development of hypertension in these rats has to be proposed.
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PMID:Renal abnormalities in experimental models of hypertension: the SHR versus the Milan HR. 246 3

The differences observed among rat strains in both basal [Na+]i and the several cation transport systems seem to be due to the different genetic background as clearly shown in F2 populations or after bone marrow transplantation in MHS. The same may be true for humans. In spite of all the caution taken in interpreting the data, because of the great possibility of methodological errors, it is likely that the differences observed in many laboratories are due to uneven genetic or ethnic composition of the samples studied, as shown by Dagher and Canessa. One intriguing observation is that most reports of "low Na-K cotransport" values in hypertensive patients are from Mediterranean countries (Italy, France, and Spain), whereas most reports of "high," or "not low Na-K cotransport," or very high values of countertransport came from populations originating from North Europe (Denmark, USA, South African whites). We are not aware of any study on erythrocyte Na-K cotransport performed in Great Britain (the greatest source of American immigrants). Indeed the difference in cotransport values between North and South European hypertensives might be due to different environmental factors, but if this is so, the difference does not depend on the salt consumption or plasma lipids that are similar in our high and low Na-K cotransport hypertensives (Cusi D et al, submitted). The picture seems relatively less confusing for calcium. The most consistent alterations in different models of hypertension is a decreased Ca-pump in SHR, MHS, and DOCA rats, reduced calcium binding in SHR and MHS, and reduced microsomal ATP dependent calcium uptake in SHR and DOCA rats. [Ca++]i, which is increased in established hypertension in man and rats, is normal in young prehypertensive rats and humans, and returns to normal values after pharmacological treatment of hypertension. This pattern of changes suggests that genetic control of these transport systems is weaker, and probably much influenced by different environmental conditions. However, because of the pivotal role of calcium in vascular smooth muscle cell concentration, its intracellular increase may be the common pathway of the different forms of hypertension. What remains unclear is the relation, if any, between calcium and sodium. Blaustein tried to find a link between them, but his hypotheses have yet to be confirmed.
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PMID:Role of cellular sodium and calcium metabolism in the pathogenesis of essential hypertension. 329 35

Erythrocyte membrane 22Na and 45Ca transport, osmotic stability and antigenic composition were investigated in 3 strains of rats with spontaneous hereditary hypertension (SHR, SHR SP, MHS), as well as normotensive controls for SHR and SHR SP (WKY) and for MHS (MHS). All strains of spontaneously hypertensive rats showed increased passive membrane permeability for sodium, that was due to increased operation rate of the Na+, K+-cotransport system. Metabolizing sodium is increased in the erythrocytes of Japanese rats (SHR and SHR SP), and decreased in Milan rats (MHS), as compared to normotensive controls. After four hours of incubation with orthovanadate, erythrocyte 45Ca levels were 2-3 times as high in SHR and SHR SP as they were in WKY. In the presence of valinomycin, erythrocyte resistance to hypoosmotic hemolysis was essentially higher in SHR and SHR SP than it was in WKY. These differences are related to a changed rate of anion transport through the band 3 protein. There were no differences in this respect between MHS and MNS. An antigen with a molecular weight of 37-39 kD was detected in erythrocyte membranes of WKY and could not be detected in erythrocytes of other rat groups, including the MNS. It is suggested that different molecular origins of membrane disorders may be an immediate cause of different mechanisms of arterial hypertension in Japanese and Milan animals.
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PMID:[Characteristics of the structural-functional status of erythrocyte membranes in 3 strains of rats with spontaneous genetic hypertension]. 335 98

Many similarities in kidney-function abnormalities were found between hypertensive rats of the Milan strain (MHS) and young normotensive human subjects with hypertensive parents, compared with the appropriate controls. These similarities included an increased glomerular filtration rate, increased pressor effect of the kidney after transplantation, increased 24-h urinary output and lower plasma renin activity and urinary kallikrein. The isolated MHS kidney perfused in vitro with an artificial medium had a higher glomerular filtration rate, a higher urinary output, higher tubular sodium reabsorption and higher oxygen consumption than the kidney of control Milan normotensive rats (MNS). Further, reogenic sodium transport across brush border vesicles isolated from proximal tubular cells is faster in MHS than in MNS. Erythrocytes and proximal tubular cells of MHS have a lower volume and sodium content than those of MNS, while sodium transport is faster and the Ca2+-ATPase at Vmax is lower. This indicates that the 'genetic' cellular abnormality responsible for the renal-function abnormality and the hypertension is also present in erythrocytes. Thus these cells may be used to study the genetic cellular mechanisms of hypertension. Experiments with bone marrow transplantation and with F2 hybrids obtained by crossing the F1 (MHS X MNS) hybrids showed that the MHS erythrocyte abnormalities are genetically determined within the stem cells and are genetically associated with the hypertension. Since, in human hypertensives, there was a correlation between abnormal erythrocyte sodium transport and renal function, it is proposed that erythrocytes may be used in studying the cellular molecular mechanisms of hypertension.
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PMID:A renal abnormality in the Milan hypertensive strain of rats and in humans predisposed to essential hypertension. 353 35

Studies of whole-kidney function and micropuncture measurements in superficial nephrons were performed to investigate the role of the tubuloglomerular feedback (TGF) in the excretion of salt and water in hydropenic and volume-expanded rats of the spontaneously hypertensive Milan strain (MHS). The rats were 3.5-5 and 5-7 wk old, and age-matched animals from the Milan normotensive strain (MNS) served as controls. There was no difference in mean arterial blood pressure (Pa) between the 3.5- to 5-wk-old prehypertensive MHS (MHSp) and MNS rats, but the glomerular filtration rate (GFR) was higher in MHSp than in MNS [1.35 vs. 0.80 ml X min-1 X g kidney wt (KW)-1, P less than 0.01]. The distal single-nephron glomerular filtration rate (SNGFR) was also higher in MHSp than in MNS (28.6 vs. 20.2 nl X min-1 X g KW-1, P less than 0.05). TGF was determined from both stop-flow pressure response and proximal and distal SNGFR. It was found that MHSp exhibited essentially no TGF response. During development of hypertension 5- to 7-wk-old MHS (MHSd) had a higher Pa than MNS (120 vs. 98 mmHg, P less than 0.01). Normally GFR and SNGFR increase with age, and such was the case with MNS (0.8 to 1.02 ml X min-1 X g KW-1 and 20.2 to 23.4 nl X min-1 X g KW-1), but in MHSd there was a decrease in both GFR and SNGFR with age (1.35 to 1.10 ml X min-1 X g KW-1 and 28.3 to 18.3 nl X min-1 X g KW-1).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Increased tubuloglomerular feedback activity in Milan hypertensive rats. 371 52

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