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

The cellular mechanisms underlying the agonist-induced sustained contraction of the vascular smooth muscle are reviewed in the light of the use of Ca2+ and the change of Ca2+ sensitivity of the contractile apparatus. It is generally accepted that the main trigger for contraction of vascular smooth muscle is the elevation of intracellular Ca2+ concentration. However, the measurement of intracellular Ca2+ concentration during the sustained phase of agonist-induced contraction is reported to be lower than that of high K+ stimulation or the value obtained by the experiments with chemically skinned smooth muscle preparations. These observations indicate that a second regulatory system may exist. One possible mechanism is the effectiveness of Ca2+ use. Agonist-induced Ca2+ influx may be more effective in raising the intracellular Ca2+ in the bulk of the cytoplasm than is Ca2+ entry induced by depolarization by the inhibition of a putative sarcoplasmic reticulum buffer barrier. Another possibility is the change of Ca2+ sensitivity of the contractile apparatus. Although the survey of the recent literature concerning the phorbol ester-induced vasoconstriction tends to support a role for protein kinase C in the change of Ca2+ sensitivity of the contractile proteins, it fails to establish a clear link between receptors, protein kinase C, and myofilaments. By using new methods for permeabilizing smooth muscle fibers, which retain the function of receptors and signal transduction systems, we now provide direct evidence that the activation of G protein by norepinephrine or guanosine 5'-0-(3-triphosphate) (GTP-gamma-S), nonhydrolyzable GTP analogue, enhances myofilament sensitivity to Ca2+.
Hypertension 1989 Jun
PMID:Agonist-induced vascular tone. 254 24

Basal adenylate cyclase activity was similar in plasma membranes prepared from the lungs of 12 week old spontaneously hypertensive rats (SHR) and normotensive Wistar Kyoto rats (WKY). However, sensitivity to Gpp[NH]p, isoproterenol plus GTP or Gpp[NH]p was significantly greater in the SHR. Beta-receptor density measured by [3H]DHA binding was unaltered. The dissociation constant, Kd, revealed a significantly greater binding affinity of the radioligand in the SHR (6.23 +/- 0.45 nM) compared with the WKY (8.53 +/- 0.82 nM). Activity of Gs was assessed by complementing S49 cyc- acceptor membranes with lung cholate extract. Basal activity of the reconstituted system was decreased 43% in the SHR. However, sensitivity to NaF, Gpp[NH]p, and isoproterenol plus Gpp[NH]p was significantly elevated. These data suggest that desensitization of the adenylate cyclase complex is not a generalized response to chronic hypertension. A tissue specific increase in sympathetic drive appears to be responsible for the lowered concentration of cardiac beta-adrenoceptors in the SHR. In contrast, both indirect and direct evidence indicate an enhanced functional sensitivity of pulmonary Gs in the hypertensive rats.
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PMID:Supersensitivity of beta-adrenoceptor coupled adenylate cyclase in pulmonary tissue of the spontaneously hypertensive rat. 255 17

The quantitatively most important noradrenergic cell group of the brain is the locus coeruleus. Significantly increased cAMP concentration could be measured in spontaneously hypertensive rats in comparison to normotensive Wistar-Kyoto control rats at every stage investigated. Furthermore, both the basal activity and maximal stimulation of Ca++- and GTP-dependent adenylate cyclase as well as phosphodiesterase activity were significantly decreased in the spontaneously hypertensive rats at 14 weeks of age. The possible role of the locus coeruleus in spontaneous hypertension is presumed in counterregulatory mechanisms against rising blood pressure.
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PMID:Alterations in the adenylate cyclase-cAMP-phosphodiesterase system in the locus coeruleus during the development of spontaneous hypertension of the rat. 283 Apr 11

The Sabra hypertension resistant rats (SBN) have an outstanding ability to maintain normal blood pressure when exposed to procedures that ordinarily cause hypertension in normal rats. The following findings may be relevant to resistance to hypertension of these rats: 1) In SBN rats, cardiac norepinephrine content is not affected by DOCA-salt treatment. Since depletion of cardiac norepinephrine is an index of cardiac adrenergic nerve overactivity, the results suggest an attenuated cardiac sympathetic nerve activity in these rats. 2) In SBN rats, the sensitivity of the baroreflex control of the heart is markedly increased compared with other strains. Reduction of baro-receptor sensitivity by aortic-baroreceptor deafferentation renders them susceptible to DOCA-salt hypertension. The results suggest a strong relationship between baroreflex supersensitivity and resistance to hypertension in these rats. 3) The amount of alpha 2 adrenoreceptor densities in cerebral and renal cortical membranes of normal rats increased in vitro, in the presence of sodium and guanyl nucleotide (GTP). In SBN rats, the effect of sodium is markedly attenuated compared with SBH, while response to GTP is identical in the two strains. The demonstration of a similar pattern of response in the Dahl rats suggests that alpha 2 adrenoreceptor may be involved in the sensitivity or resistance to salt induced hypertension.
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PMID:[Hereditary resistance to salt-induced hypertension. What mechanisms?]. 283 85

Sodium ions and guanyl nucleotides play an important role in increasing alpha 2-adrenoceptor densities in cerebral and renal cortex of normotensive rats. The in vitro effect of Na+ and GTP was investigated on cerebral and renal alpha-adrenoceptors in hypertensive (SBH, salt-sensitive) and normotensive (SBN, salt-resistant) Sabra rats. In SBH and SBN rats, guanyl nucleotides increased cerebral and renal high-affinity alpha 2-adrenoceptor densities. Sodium ions, in contrast, markedly increased cerebral and renal high affinity alpha 2-adrenoceptor densities only in SBH rats. Under these conditions, alpha 1-adrenoceptor densities were unchanged. Thus, although Na+ and GTP both increase alpha 2-adrenoceptor densities, these agents appear to mediate their regulatory effects via different membrane components. Moreover, the absence of sodium regulation of alpha 2-adrenoceptors in SBN rats may be responsible for the resistance to salt-induced hypertension.
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PMID:Sabra rats as a model to differentiate between Na+ and GTP regulation of alpha 2-adrenoceptor densities. 299 Sep 68

It has been well documented that vascular smooth muscle (VSM) reactivity, as well as calcium sensitivity in response to neurotransmitters is increased in a number of blood vessels in established hypertension. Regulation of VSM reactivity involves the interaction of neurotransmitters and blood-borne hormones with specific receptors on target cell membranes. This results in phospholipase-C-mediated hydrolysis of phosphatidylinositol 4,5-bisphosphate (PIP2) and the generation of two second messengers: inositol 1,4,5 trisphosphate (IP3) and diacylglycerol (DAG) both of which act synergistically to produce muscle contraction. We will summarize recent findings in this review which suggest that in essentially hypertensive patients and spontaneously hypertensive rats (SHR), the activation of phospholipase C in response to hormones is increased. Further, we will discuss how increases in phospholipase C activation via GTP-binding proteins may explain the observed increases in Ca2+ influx through potential- and receptor-operated Ca2+ channels, increased activation of protein kinase-C and increased [Ca2+]i in hormone-stimulated blood platelets and VSM cells in the hypertensive state. In addition to these defects, a decrease in the plasma membrane Ca2+ pump and Ca2+-binding proteins has been demonstrated in hypertension. Thus, it appears that the defect in Ca2+ metabolism in the hypertensive vessels is multifocal. All these defects in Ca2+ metabolism together may lead to an increase in peripheral vascular resistance with a concomitant increase in blood pressure.
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PMID:Calcium and abnormal reactivity of vascular smooth muscle in hypertension. 314 41

In the aortas and mesenteric arteries from spontaneous hypertensive rats and in the aortas from stress- and desoxycorticosterone-acetate-hypertensive rats, the intracellular cGMP: cAMP ratios were significantly elevated when compared to the ratios in the aortas of the respective controls. Decreases in the intracellular cAMP or cGMP levels were consistently associated with increased activity of the cyclic-nucleotide-specific low K(m) phosphodiesterase (3':5'-cAMP 5' nucleotidohydrolase, EC 3.1.4.17). Increases in intracellular cGMP levels were associated with elevated guanylyl cyclase [GTP pyrophosphate-lyase (cyclizing), EC 4.6.1.2] activity. Furthermore, adenylyl cyclase [ATP pyrophosphate-lyase (cyclizing), EC 4.6.1.1] activity was less sensitive to stimulation by the beta-adrenergic stimulant isoproterenol in both the aortas and the hearts of the hypertensive animals. These changes could provide the biochemical basis for the (a) increased vascular smooth muscle tone and peripheral resistance observed in these animals, (b) increased reactivity to norepinephrine, and (c) decreased ability of aortas from hypertensive rats to relax. The presence of these same effects in different etiologic types of hypertension indicates that this aberration in cyclic nucleotide metabolism may represent a common metabolic defect basic to the hypertensive syndrome irrespective of etiology.
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PMID:Aberrations of cyclic nucleotide metabolism in the hearts and vessels of hypertensive rats. 415 74

A decrease in isoproterenol-stimulated adenylate cyclase activity has been shown in various tissues of hypertensive rats, a finding often associated with decreased beta-adrenoceptor number. The present study was undertaken to investigate whether adenylate cyclase stimulation by other hormones is similarly affected. Adenylate cyclase activity in cerebral microvessels under control conditions and following stimulation by isoproterenol, prostaglandin E1, and the adenosine analog 5'-(N-ethylcarboxamide)-adenosine (NECA) was significantly diminished in deoxycorticosterone acetate (DOCA)-hypertensive rats as compared with control rats, as was adenylate cyclase stimulation by GTP, fluoride, and forskolin. Similar results were obtained in cardiac ventricular membranes, apart from the fact that NECA did not influence adenylate cyclase activity in the heart, either in normotensive or in hypertensive rats. In both the heart preparation and the microvessel preparation, beta-adrenoceptor numbers were reduced in DOCA-hypertensive rats. Because the adenylate cyclase data also pointed to functional alteration at the guanine nucleotide regulatory site of the adenylate cyclase complex, the influence of DOCA hypertension on receptor-adenylate cyclase coupling was investigated by competition studies for beta-adrenoceptor binding. In ventricular membranes prepared from DOCA-hypertensive rats, the isoproterenol competition curve for [125I]iodocyanopindolol binding was only slightly altered in the presence of guanylyl imidodiphosphate (50 microM), in contrast to normotensive control rats, in which it was shifted to the right and became significantly steeper. These results are suggestive of decreased guanine nucleotide sensitivity of adenylate cyclase-coupled receptors in DOCA hypertension.
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PMID:The cardiac and brain microvessel adenylate cyclase system in deoxycorticosterone acetate-hypertensive rats. 620 Jul 23

[3H]Dihydroalprenolol binding and adenylate cyclase activity in the myocardial membranes of Kyoto Wistar normotensive rats and spontaneously hypertensive rats were compared at various stages of postnatal development ranging from 2 to 36 weeks. Basal as well as agonist-stimulated myocardial adenylate cyclase activity was consistently decreased in spontaneously hypertensive rats as compared to normotensive rats as early as 2 weeks of age with significant differences (P < 0.05) observed after 6 weeks of age. When results were expressed as percent stimulation over the basal activity, only isoproterenol plus GTP-stimulated enzyme activity was reduced by 25--30% in spontaneously hypertensive rats, suggesting a specific loss of stimulation by isoproterenol in hypertensive animals. The number of [3H]dihydroalprenolol binding sites of KD for dihydroalprenolol binding were comparable between spontaneously hypertensive and normotensive rats at 3, 6 and 12 weeks of age. The competition of isoproterenol with [3H]dihydroalprenolol for the specific binding sites showed that the affinity of isoproterenol binding was decreased 3--4-fold in spontaneously hypertensive compared with normotensive rats. With postnatal development in age, basal as well as agonist-stimulated activities decreased progressively in both spontaneously hypertensive and normotensive rats. Similarly, the number of [3H]dihydroalprenolol binding sites decreased with the development in age, whereas affinity of dihydroalprenolol binding increased up to 12 weeks of age. These results therefore suggest that adenylate cyclase activity and the number of beta-adrenergic receptors in rat heart, decrease with age and that in hypertension, specific decrease in isoproterenol stimulation of cyclase appears at all stages of development.
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PMID:Ontogenetic development of isoproterenol subsensitivity of myocardial adenylate cyclase and beta-adrenergic receptors in spontaneously hypertensive rats. 625 74

Reports in the literature have indicated that inotropic responsiveness to isoproterenol (ISO) of hypertrophied rat myocardium is decreased. We have studied possible biochemical mechanisms to explain this. Adenylate cyclase activity in myocardial membranes from 13-week-old spontaneously hypertensive rats (SHR) was unchanged compared to enzyme activity in Wystar-Kyoto (WKY) when measured under basal conditions or following NaF, a guanosine triphosphate analog, MnCl2, or forskolin stimulation. However, ISO-stimulated cyclase activity was decreased as were beta-adrenergic receptor density with no change in receptor affinity. On the other hand, hearts from two-kidney, one clip renal hypertensive rats 6 weeks after initiation of hypertension showed decreased basal, ISO, NaF, and GTP analog-stimulated cyclase activity with no change in Mn++ or forskolin-stimulated activity. In this model, receptor density increased. When the clipped kidney was removed, these changes returned toward normal as did the blood pressure and heart weight. We interpret these data to indicate that in SHR the biochemical defect leading to decreased inotropic responsiveness of hypertrophied hearts is due to decreased beta-adrenergic receptor density, leading to decreased ISO-stimulated cyclase activity. The nucleotide regulatory protein component (N) and the catalytic subunit (C) are not changed. In the renal hypertensive rat, on the other hand, although the C is unchanged, there is a decrease in the activity of N, and this is probably the primary reason why inotropic responsiveness to ISO is decreased. Increases in receptor density seen in this model may possibly be compensatory.
Hypertension
PMID:Beta adrenergic receptor response coupling in hypertrophied hearts. 629 2


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