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)

Heart failure and hypertension are associated with increases in angiotensin II (ANG II) activity. One brain area where ANG II effects may be particularly important in these situations is the nucleus of the solitary tract (NTS). Located in the dorsomedial medulla, the NTS is the termination site of baroreceptor afferents and is essential for mediating the baroreflex. In hypertensive animals the baroreflex is impaired; this may be reversed by antagonizing ANG II AT1 receptors in the NTS. Recently, we showed that the baroreflex depressant action of ANG II in the NTS is mediated by activation of endothelial nitric oxide synthase (eNOS) and enhanced release of GABA. Using conventional pharmacological tools and a range of adenoviral-mediated expression of dominant negative proteins, we have determined the intracellular pathway(s) in the NTS by which ANG II activates eNOS. Our data indicate that ANG II acting in the NTS depresses the baroreflex via a Gq protein-mediated activation of phospholipase C, which through 1,4,5-inositol triphosphate causes release of calcium from the IP3-sensitive intracellular stores and calcium-calmodulin formation. In contrast, multiple site disruption of a pathway leading to eNOS activation via the serine/threonine kinase Akt was ineffective
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PMID:Genetic and pharmacological dissection of pathways involved in the angiotensin II-mediated depression of baroreflex function. 1237 82

The Glu298Asp polymorphism of human endothelial nitric oxide synthase (eNOS) has been reported to be associated with several cardiovascular diseases, including hypertension and myocardial infarction. Therefore, we investigated the effect of the Glu298Asp (E298D) mutation on the function of purified recombinant eNOS expressed in the yeast Pichia pastoris. Wild type (WT) and mutant exhibited comparable affinities for L-arginine (K(m) values 4.4+/-0.6 and 5.2+/-0.8 microM, respectively) and V(max) values (142+/-36 and 159+/-29 nmol of L-citrulline/mg min, respectively). The E298D mutation affected neither electron transfer through the reductase domain (measured as cytochrome c reduction) nor reductive O(2) activation (measured either as NADPH oxidation or as H(2)O(2) formation in the absence of L-arginine and tetrahydrobiopterin (BH4)). The mutant was activated by BH4 with an EC(50) of 0.24+/-0.04 microM, a value comparable to that obtained with WT eNOS (0.22+/-0.02 microM). Activation of the enzyme by Ca(2+) was not affected (EC(50)=0.50+/-0.04 and 0.49+/-0.02 microM for WT and E298D eNOS, respectively). Calmodulin (CaM) affinity, studied by radioligand binding using 125I-labeled CaM, revealed virtually identical K(D) (3.2+/-0.5 and 4.0+/-0.3nM) and B(max) (1.4+/-0.2 and 1.2+/-0.3 pmol/pmol subunit) values for WT and E298D eNOS, respectively. Furthermore, E298D eNOS did not differ from the WT enzyme with respect to heme and flavin content or the ability to form SDS-resistant dimers. To summarize, we obtained no evidence for altered enzyme function of the eNOS mutant that could explain endothelial dysfunction associated with the E298D polymorphism.
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PMID:Functional characterization of Glu298Asp mutant human endothelial nitric oxide synthase purified from a yeast expression system. 1258 36

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

We have previously shown that flutamide (specific antagonist of the androgen receptor) has antihypertensive effects. In the present study we examined the mechanisms of flutamide action in the vasculature. The vascular effects of flutamide were assayed in aortae isolated from male or female Sprague-Dawley rats and from rats or mice lacking a functional androgen receptor ( tfm, testicular feminization mutation). The effect of flutamide on coronary flow was tested in isolated hearts. In addition, male hypertensive rats with tfm mutation were treated with flutamide, and blood pressure was monitored. Flutamide induced a relaxation of rat aortae from all the strains used (maximum relaxation at 10 microM: 51.3+/-5.2% of phenylephrine contraction) and increased the coronary flow. The aortic relaxation to flutamide was abolished by endothelium removal, or by inhibition of nitric oxide synthase, guanylyl cyclase, and tyrosine kinase but not by calmodulin inhibition. Flutamide treatment attenuated the development of hypertension in mouse renin transgenic rats with the tfm mutation. Flutamide produces direct vasodilation by inducing release of NO from the endothelium and causes subsequent activation of soluble guanylyl cyclase in an active androgen receptor independent manner. This response may contribute to the observed antihypertensive actions of flutamide.
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PMID:Androgen receptor independent cardiovascular action of the antiandrogen flutamide. 1280 2

Clinical and experimental evidence suggest an involvement of dopamine systems, mainly the mesocorticolimbic one (MCL), in Attention-Deficit Hyperactivity Disorder (ADHD). However, it remains to be ascertained whether the systems are hyper- or hypo-functioning, for the implications of the functional state. Indeed, differential functional states of the MCL branches are suggested to be the neural substrate of different ADHD variants. This review covers published and unpublished data from the Naples-High Excitability (NHE) rat, an animal model of ADHD, featuring its main aspects, with no hypertension. Therefore, a multiple approach based on morphological studies of dopamine, norepinephrine, glutamate, acetylcholine and GABA systems, synaptic (Calcium/Calmodulin kinase II) and extrasynaptic (chondroitin sulphates) environments, and molecular biology and pharmacological studies on the dopamine system has been carried out. Morphological findings suggest dopamine neurons in the Ventral Tegmental Area (VTA) to be hypertrophic in NHE rats. The mesostriatal and mesolimbic dopamine branches appear to be normal in basal conditions. However, the striatal interface is probably defective following activation. Conversely, the prefrontal cortex, which represents the second main target of VTA dopamine neurons, has many alterations at the basal level. Therefore, the emerging picture is the association of a hyperinnervating and hyperfunctioning mesocortical branch of the dopamine system. Thus, the evidence gathered so far might improve our understanding of the neural substrates of neuropsychiatric disorders such as ADHD, schizophrenia and drug addiction.
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PMID:Behavioural, pharmacological, morpho-functional molecular studies reveal a hyperfunctioning mesocortical dopamine system in an animal model of attention deficit and hyperactivity disorder. 1462 12

We studied the early pathophysiological response of lenticulostriate arterioles in rats in three models of human conditions associated with stroke: (a) chronic angiotensin II-hypertension; (b) chronic nicotine administration; (c) oxidative endothelial injury. In all three models, quantitative patch clamp analysis of freshly isolated vascular smooth muscle cells from lenticulostriate arterioles and posterior cerebral arteries showed significant increases in activity of functional L-type calcium channels that were due to an increase in open channel probability, with no change in other biophysical properties or in channel expression. In addition, all three models showed evidence of endothelial dysfunction, but of a different nature in the three. With chronic angiotensin II-hypertension, but not in the other two models, endothelial nitric oxide synthase (eNOS) was dysfunctional, was mislocalized away from its normal abluminal location, and was accumulated in peri-nuclear Golgi. By contrast, the other two models showed no mislocalization of eNOS, but instead showed evidence of oxidative stress in endothelium, with up-regulation of superoxide dismutase and hexose kinase. All three models showed significant up-regulation of expression of proliferative cell nuclear antigen (PCNA) (PCNA index, 70-80%) in arterioles in situ, which is associated with increased activation of the nuclear transcription factor, phospho-cAMP response element binding protein (phospho-CREB). In addition, calmodulin-dependent protein (CaM) kinase II was activated, in concert with the activation of L-type calcium channels. Furthermore, blockers of either L-type calcium channels (amlodipine) or of CaM kinase II (KN-93) completely prevented the activation of CREB and the up-regulation of PCNA in arterioles. Our findings demonstrate that abnormal regulation of L-type calcium channels is directly responsible for abnormal proliferative responses in vascular smooth muscle in various forms of cerebral arteriolar injury associated with endothelial dysfunction.
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PMID:Early pathophysiological changes in cerebral vessels predisposing to stroke. 1472 53

Barbiturates are frequently used for the treatment of intracranial hypertension after brain injury but their application is associated with a profound increase in the infection rate. The mechanism of barbiturate-induced failure of protective immunity is still unknown. We provide evidence that nuclear factor of activated T cells (NFAT), an essential transcription factor in T cell activation, is a target of barbiturate-mediated immunosuppression in human T lymphocytes. Treatment of primary CD3+ lymphocytes with barbiturates inhibited the PMA and ionomycin induced increase in DNA binding of NFAT, whereas the activity of other transcription factors, such as Oct-1, SP-1, or the cAMP response element-binding protein, remained unaffected. Moreover, barbiturates suppressed the expression of a luciferase reporter gene under control of NFAT (stably transfected Jurkat T cells), and of the cytokine genes interleukin-2 and interferon-gamma that contain functional binding motifs for NFAT within their regulatory promotor domains (human peripheral blood CD3+ lymphocytes). Neither GABA receptor-initiated signaling nor direct interactions of barbiturates with nuclear proteins affected the activity of NFAT. In contrast, barbiturates suppressed the calcineurin-dependent dephosphorylation of NFAT in intact T cells and also inhibited the enzymatic activity of calcineurin in a cell-free system, excluding upstream regulation. Thus, our results demonstrate a novel mechanism of direct inhibition of the calcineurin/calmodulin complex that may explain some of the known immunosuppressive effects associated with barbiturate treatment.
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PMID:Barbiturates directly inhibit the calmodulin/calcineurin complex: a novel mechanism of inhibition of nuclear factor of activated T cells. 1474 77

Cardiac hypertrophy is associated with ventricular arrhythmias and sudden death. The molecular mechanisms that predispose the hypertrophied heart to arrhythmias are not well understood. In mice, deletion of the gene coding for the atrial natriuretic peptide receptor, guanylyl cyclase A (GC-A-/-), causes arterial hypertension, cardiac hypertrophy and sudden death. We used this mouse model to study molecular mechanisms of arrhythmias in the hypertrophied heart. Right and left ventricular monophasic action potential durations (APD) were recorded in isolated, Langendorff-perfused hearts during pacing from the right atrium and ventricle. The atrioventricular (AV) node was ablated to provoke bradycardia. Intracellular Ca(2+) transients were measured in isolated INDO-1 loaded ventricular myocytes. Cardiac expression of Ca(2+)/calmodulin-dependent protein kinase II (CaMKII) was analyzed by western blotting. Polymorphic ventricular arrhythmias (pVT) occurred spontaneously after mechanical AV block in 20/45 hearts from 12-month-old GC-A-/- mice (P < 0.05), but neither in age-matched GC-A+/+ hearts nor in hearts from 3-month-old mice of either genotype. Triggered activity preceded pVT. APD were prolonged and systolic Ca(i)(2+) levels were increased in GC-A-/- hearts independently of age. In 12-month-old GC-A-/- hearts only, dispersion of APD and expression levels of CaMKII were increased. CaMKII expression was particularly increased in hearts with pVT. Direct inhibition of CaMKII activation by KN93 (0.5 or 2 microM) or inhibition of Ca(2+)/calmodulin-dependent activation of CaMKII by W-7 (25 microM) suppressed pVT in GC-A-/- hearts (P < 0.05) while prolonging APD. The combination of increased CaMKII activity and altered action potential characteristics facilitates ventricular arrhythmias in hypertrophic GC-A-/- hearts.
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PMID:Ventricular arrhythmias, increased cardiac calmodulin kinase II expression, and altered repolarization kinetics in ANP receptor deficient mice. 1513 64

Neuronal nitric oxide synthase (NOS I) is a Ca(2+)/calmodulin-binding enzyme that generates nitric oxide (NO*) and L-citrulline from the oxidation of L-arginine, and superoxide (O(2)*(-)) from the one-electron reduction of oxygen (O(2)). Nitric oxide in particular has been implicated in many physiological processes, including vasodilator tone, hypertension, and the development and properties of neuronal function. Unlike Ca(2+), which is tightly regulated in the cell, many other divalent cations are unfettered and can compete for the four Ca(2+) binding sites on calmodulin. The results presented in this article survey the effects of various divalent metal ions on NOS I-mediated catalysis. As in the case of Ca(2+), we demonstrate that Ni(2+), Ba(2+), and Mn(2+) can activate NOS I to metabolize L-arginine to L-citrulline and NO*, and afford O(2)*(-) in the absence of L-arginine. In contrast, Cd(2+) did not activate NOS I to produce either NO* or O(2)*(-), and the combination of Ca(2+) and either Cd(2+), Ni(2+), or Mn(2+) inhibited enzyme activity. These interactions may initiate cellular toxicity by negatively affecting NOS I activity through production of NO*, O(2)*(-) and products derived from these free radicals.
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PMID:The effect of divalent cations on neuronal nitric oxide synthase activity. 1524 Aug 94

Under normal conditions, contractile activity in vascular smooth muscle is initiated by either receptor activation (norepinephrine, angiotensin II, etc.) or by a stretch-activated mechanism. After this activation, several signaling pathways can initiate a Ca2+-calmodulin interaction to stimulate phosphorylation of the light chain of myosin. Ca2+ sensitization of the contractile proteins is signaled by the RhoA/Rho-kinase pathway to inhibit the dephosphorylation of the light chain by myosin phosphatase thereby maintaining force generation. In opposition to force generation, NO is released from endothelial cells and causes vasodilation through inhibition of the RhoA/Rho-kinase signaling pathway. This brief review will highlight recent studies demonstrating a role for the RhoA/Rho-kinase signaling pathway in the increased vasoconstriction characteristic of hypertension.
Hypertension 2004 Dec
PMID:Hypertension and RhoA/Rho-kinase signaling in the vasculature: highlights from the recent literature. 1552 Mar 2


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