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)

The posterior hypothalamus contains a sympathoexcitatory system that can be modulated by changes in GABAergic tone. We tested the hypothesis that the GABAergic mechanism in the posterior hypothalamus is altered in spontaneously hypertensive rats (SHR) compared with the Wistar-Kyoto (WKY) control rats. Blood pressure and heart rate were continuously measured in the conscious state; blood samples were obtained for determination of plasma catecholamine concentrations. Bilateral microinjections of the GABAA receptor antagonist bicuculline methiodide into the posterior hypothalamus increased heart rate and blood pressure in a dose-related fashion and increased plasma catecholamine concentrations in both SHR and WKY rats. The responses were not significantly different between the two strains of rats. Microinjections of the GABAA receptor agonist muscimol in this same region caused dose-related decreases in both heart rate and blood pressure in SHR and WKY rats. Although the decreases in heart rate caused by muscimol were not significantly different between the SHR and WKY rats, the decreases in blood pressure were significantly greater in SHR compared with WKY rats. Further, microinjection of muscimol caused a significant decrease in plasma catecholamines in SHR but not in WKY rats. These data indicate that in SHR and WKY rats the posterior hypothalamus contains a sympathoexcitatory mechanism that is tonically inhibited by GABA. The ability of muscimol to decrease plasma catecholamines selectively in SHR and to cause greater decreases in blood pressure, suggests that the GABAergic mechanisms in the posterior hypothalamus of the SHR and WKY rats may differ.
Hypertension 1989 Dec
PMID:Hypothalamic GABA and sympathetic regulation in spontaneously hypertensive rats. 258 98

3-Mercaptopropionic acid (3-MP), an inhibitor of the synthesis of GABA, acts in the central nervous system to increase arterial pressure (+50-60 mmHg) in anesthetized guinea pigs, apparently by sympathoadrenal activation. However, blockade of nicotinic receptors in autonomic ganglia with hexamethonium (10 or 20 mg/kg, i.v.) failed to effect any degree of sustained reversal of increases in blood pressure. Infusion of atropine methyl bromide (1 mg/kg, i.v.) likewise was without effect when administered alone, but completely reversed the hypertension induced by 3-MP when given after treatment with hexamethonium. These findings suggest that ganglionic transmission through either the "classical" nicotinic pathway or a muscarinic pathway is sufficient to sustain the sympathetically-mediated pressor response elicited by 3-MP.
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PMID:Evidence for transmission through sympathetic ganglia mediated by muscarinic receptors in anesthetized guinea pigs. 301 88

A previous study from this laboratory demonstrated that ongoing GABAergic neurotransmission in the nucleus tractus solitarii (NTS) functions to maintain baseline arterial pressure (AP). In that study, bilateral microinjection of nipecotic acid into the NTS was observed to elevate AP. Since nipecotic acid is a selective GABA uptake blocker, changes in GABA release should be reflected by changes in the response to nipecotic acid. The present study utilized this approach to assess endogenous GABA activity within the NTS of the spontaneously hypertensive rat (SHR). Male SHR, 16-20 weeks of age, were anesthetized with chloralose, paralyzed and ventilated. Age-matched Wistar-Kyoto (WKY) rats were studied as controls. Bilateral microinjection of nipecotic acid (10 nmol in 100 nl; a maximally effective dose) into the NTS elicited a pressor response which was significantly greater in the SHR than the response observed in the WKY rats. Similarly, direct stimulation of GABAB receptors in the NTS with (-)-baclofen 40 pmol, a maximally effective dose) elicited an increase in AP which was significantly greater in the SHR. In contrast, bilateral microinjection of the direct acting GABAA agonist muscimol (160 pmol, a maximally effective dose) resulted in a similar elevation of AP in both the SHR and WKY rats. These results suggest that the enhanced pressor response caused by endogenous GABA in the NTS of the SHR is due to a greater response evoked by stimulation of GABAB receptors. Thus, enhanced GABAB receptor-mediated neural transmission in the NTS may contribute to the expression or maintenance of hypertension in this genetic model of hypertension.
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PMID:Enhanced pressor response to GABA in the nucleus tractus solitarii of the spontaneously hypertensive rat. 316 23

Drugs activating GABAergic systems were microinjected into the caudal ventrolateral medulla of the rat and effects on blood pressure and heart rate were investigated. In urethane-anesthetized rats, a dose-dependent increase in blood pressure and heart rate was induced by unilateral injections of GABA (30-300 ng) into the caudal ventrolateral medulla. Unilateral injections of the GABA receptor agonist muscimol (1-10 ng) and baclofen (0.1-10 ng) into the brainstem area also increased both the cardiovascular parameters. The GABA uptake inhibitors nipecotic acid (1-3 micrograms) and L-2,4-diaminobutyric acid (1 microgram), and the GABA-T inhibitor gamma-acetylenic GABA (1-3 micrograms) injected unilaterally into the brainstem area also produced hypertension and tachycardia. Bilateral microinjections of nipecotic acid (0.3 microgram) into the area potentiated the pressor and tachycardiac responses to carotid artery occlusion in pentobarbital-anesthetized rats. Lesioning of the rat nucleus tractus solitarii did not alter the GABA content in the lesioned side of the caudal ventrolateral medulla. The data provide further evidence that endogenous GABAergic mechanisms in the rat caudal ventrolateral medulla are involved in the regulation of blood pressure. It seems unlikely that the GABAergic mechanisms originate mainly from neurons in the nucleus tractus solitarii.
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PMID:Cardiovascular effects of GABA system activating drugs injected into the caudal ventrolateral medulla of the rat. 324 47

The present study investigated the metabolism of serotonin (5-HT) in rats made hypertensive by treatment with DOCA/NaCl. 5-Hydroxytryptamine and its major metabolite, 5-hydroxyindoleacetic acid (5-HIAA) were significantly elevated in a number of regions of the brain in rats treated for 2 weeks with DOCA/NaCl. Elevations in levels of 5-HIAA were present with 4 weeks of treatment with DOCA/NaCl but levels of 5-HT were not altered. No changes in the metabolism of 5-HT were detectable with 5 weeks of treatment with DOCA/NaCl. Levels of tryptophan were also elevated in a number of regions of the brain by treatment with DOCA/NaCl. Alterations in norepinephrine (NE) in the brainstem were present with 2, 4 or 5 weeks of treatment with DOCA/NaCl. The neurochemical effects of muscimol, a GABA agonist, were also investigated in rats treated with DOCA/NaCl for 4 weeks. Significant increases in levels of 5-HIAA and 5-HT were present in rats treated with DOCA/NaCl but not in controls, 15 min after intraventricular administration of muscimol (1.0 microgram/300 g body weight). Sixty min after muscimol, 5-HIAA was increased in both rats treated with DOCA/NaCl and control rats, but 5-HT was only increased in the hypothalamus. Treatment with DOCA/NaCl produced changes in the metabolism of 5-HT that may be important in the genesis of hypertension, but are not required for the maintenance of elevated arterial pressure. A disturbance of GABA-5-HT interactions between GABA and 5-HT in brainstem sites may also contribute to the pathogenesis of hypertension induced by DOCA/NaCl.
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PMID:Central serotonergic alterations in deoxycorticosterone acetate/NaCl (DOCA/NaCl)-induced hypertension. 341 40

When GABA (4-amino-n-butyric acid, 50-200 micrograms) was injected into the lateral ventricle of urethane-anaesthetized Wistar rats, sympathetic nerve activity, arterial pressure and heart rate were decreased dose-dependently. Graded electrical stimulation of the ventromedial hypothalamus (50, 100 and 150 microA) increased not only mean blood pressure but also the rate of sympathetic nerve firing, and both responses were attenuated by GABA pretreatment (100 and 200 micrograms, i.c.v.). In spontaneously hypertensive rats (SHR), i.c.v.-injected GABA also reduced sympatho-cardiovascular activity, but the magnitude of the depressor responses was significantly larger in SHR than in normotensive Wistar-Kyoto (WKY) control rats. Pressor and sympathetic nerve responses elicited by hypothalamic stimulation were initially larger in SHR than in WKY rats. However, upon subsequent i.c.v. injection of GABA, hypothalamic responsiveness in SHR was inhibited more prominently and became almost the same as that in WKY rats. These results suggest that, by depressing hypothalamic function, central GABA-ergic stimulation decreases sympathetic nerve activity thereby lowering blood pressure and heart rate. Because of the increased central sensitivity in SHR, GABA-ergic stimulation reversed hypothalamo-sympathetic hyperactivity and attenuated hypertension.
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PMID:Central GABA-ergic stimulation attenuates hypertension and hypothalamic hyperactivity in spontaneously hypertensive rats. 346 96

Autonomic dysfunction, including arrhythmias, has been shown to be associated with epileptogenic activity. This study examines the potential role for enkephalins in this process. A long lasting elevation of immunoreactive methionine (met)-enkephalin content in the septum, hypothalamus, amygdala, and hippocampus of rats occurs after pentylenetetrazol-induced convulsions (Brain Research 297: 121-125, 1984). Brennan et al (Life Sciences 27: 1097-1101, 1980) reported a greater percent inhibition of potassium-stimulated GABA release with increasing concentrations of met-enkephalin. Snead and Bearden (Science 210: 1031-1033, 1980) found that leucine-enkephalin in the central nervous system may induce epileptogenic activity. In addition, (d-alanine2) met-enkephalin has been shown to produce a centrally mediated vasopressor response as well as attenuation of the baroreceptor reflex in conscious cats (Hypertension 3: 395-407, 1981), possibly leading to autonomic imbalance. The latter may precipitate arrhythmias and sudden unexplained death in the epileptic patient. Resolution of the question of whether enkephalins elicit epileptogenic activity and autonomic dysfunction via inhibition of GABA release is important since an understanding of this mechanism should eventually allow the design of pharmacologic agents to prevent the epileptogenic activity, autonomic dysfunction and the associated sudden death.
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PMID:The role of enkephalins in the production of epileptogenic activity and autonomic dysfunction: origin of arrhythmia and sudden death in the epileptic patient? 361 1

Controversy exists as to the neural network whereby peripheral arterial baroreceptor information is transmitted to vasopressin (VP)-secreting neurons of the hypothalamic supraoptic nucleus (s.o.n.). In vivo electrophysiological studies in the rat were undertaken to characterize the selective depression of VP cell activity consequent to activation of peripheral baroreceptors. Electrical stimulation of the diagonal band of Broca (DB) in the rat evoked a similar selective inhibition of vasopressinergic neurons of the s.o.n. Local application of bicuculline, a GABA antagonist, abolished both the DB-evoked and baroreceptor-induced inhibition of VP-secreting neurons. In addition, recordings from DB neurons antidromically activated from the s.o.n. displayed an increase in firing consequent to baroreceptor activation, coinciding with the suppression of firing in s.o.n. VP neurons. These observations collectively indicate that an intrinsic GABA projection arising in the DB cell group selectively inhibits vasopressinergic neurons of the s.o.n. and that this pathway mediates peripheral arterial baroreceptor activity that influences the release of VP in the neurohypophysis. These data may be of critical importance in our understanding the etiology of those forms of experimental hypertension where abnormalities in central baroreceptor pathways have been implicated but not proven.
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PMID:Neurophysiology of a central baroreceptor pathway projecting to hypothalamic vasopressin neurons. 381 62

To determine the central effects of 4-Amino-n-butyric acid (GABA), pressor and sympathetic nerve responses to electrical stimulation of the ventromedial hypothalamus were recorded following the intracerebroventricular (ICV) injection of GABA. In normotensive Wistar rats, anesthetized with urethane, ICV injections of GABA (50-200 micrograms) reduced sympathetic nerve activity, arterial blood pressure, and heart rate in a dose-dependent manner. Graded electrical stimulation of the ventromedial hypothalamus (50, 100, 150 microA) increased not only mean blood pressure but also the rate of sympathetic nerve firing, and both responses were attenuated by GABA pretreatment (100, 200 micrograms, ICV). In spontaneously hypertensive rats (SHR), ICV-injected GABA also reduced sympathetic and cardiovascular activity, but the magnitude of depressor responses was significantly larger in SHR than in normotensive Wister Kyoto controls (WKY). Pressor and sympathetic nerve responses elicited by ventromedial hypothalamic stimulation were initially larger in SHR than in WKY, but upon subsequent ICV injection of GABA, hypothalamic responsiveness in SHR was inhibited more prominently and became comparable to that in WKY. These results suggest that by depressing hypothalamic function, centrally injected GABA decreases sympathetic nerve activity to thereby lower blood pressure and heart rate, and in SHR, ICV-injected GABA reversed hypothalamo-sympathetic hyperactivity and thus attenuated hypertension.
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PMID:Hypotension and hypothalamic depression produced by intracerebroventricular injections of GABA in spontaneously hypertensive rats. 382 May 27

A symposium of over 125 scientists, held in August 1984 at the campus of Oxford University, considered the latest developments concerning cannabis research. Evidence on the mode of tetrahydrocannabinol action on the central nervous system indicates that acetylcholine turnover in the hippocampus through a GABA-ergic mechanism is of major importance, though the role of the dopaminergic or serotoninergic mechanism and involvement of prostaglandins and c-AMP is not ruled out. The use of cannabis causes prominent and predictable effects on the heart, including increased work-load, increased plasma volume and postural hypotension, which could impose threats to the cannabis users with hypertension, cerebrovascular disease or coronary arteriosclerosis. Cannabis or tetrahydrocannabinol has damaging effects on the endocrine functions in both male and female of all animal species tested. Among possible mechanisms of action, it is suggested that tetrahydrocannabinol disrupts gonadal functions by depriving the testicular cells of their energy reserves by inhibition of cellular energetics, and that it stimulates androgen-binding protein secretion, which may account for oligospermia seen in chronic cannabis smokers. In addition to these direct effects on gonads, tetrahydrocannabinol interferes with hormonal secretions from the pituitary, including luteinizing hormones, follicle-stimulating hormones and prolactin. Research findings indicate that maternal and paternal exposure to cannabinoids can influence developmental and reproductive functions in the offspring, but it is difficult to separate possible teratogenic effects from subsequent gametotoxic and mutagenic potentials of cannabinoids.
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PMID:An update on cannabis research. 391 16


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