Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P06889 (Mol)
 630,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

1. The noradrenaline sensitivity of the isolated perfused rabbit artery was studied, during perfusion with Krebs solution, normal plasma, hypertensive plasma and a low-density lipoprotein (LDL) extract of normal plasma. 2. There was no difference in noradrenaline sensitivity between arteries perfused with Krebs and normal plasma. 3. Both hypertensive plasma and LDL potentiated the noradrenaline-induced vasoconstriction. 4. This potentiation was associated with increases in both the intrinsic activity of the drug-receptor complex and the drug-receptor affinity. 5. There is a circulating factor in the plasma of hypertensive patients which sensitizes arteries to noradrenaline, and this factor may be LDL.
Clin Sci Mol Med Suppl 1976 Dec
PMID:Noradrenaline sensitivity of an isolated perfused artery: effects of normal and hypertensive plasma. 19 11

In two fractions obtained from the bovine A. coronaria adenylate cyclase activity was identified and characterized. The adenylate cyclase activity of the 75,000 X g sediment shows a pH optimum at 7.4. The temperature dependence of this adenylate cyclase activity is linear when represented in the Arrhenius plot, and an Arrhenius activation energy of 13.2 kcal Mol-1 can be calculated for the enzyme reaction. The Km-value of the enzyme to ATP is 6 +/- 0.6 - 10(-4) M. The adenylate cyclase activity of the 75,000 X g sediment can be stimulated by NaF. 5'AMP and adenosine inhibit the adenylate cyclase activity of the 75,000 X g sediment. With regard to the enzyme activity, Mn++ and Co++ replace Mg++, but not Ca++. The monovalentcations Na+ and K+ do not influence the adenylate cyclase activity. In a particulate fraction containing plasma membranes, adenylate cyclase activity was also identified. This adenylate cyclase activity can be stimulated by catecholamines, noradrenaline, and isoproterenol. This stimulation can, however, only be proved for the enzyme in the coronaries of 9-week-old and 2-year-old animals. The adenylate cyclase activity from the coronaries of adult animals is not affected by catecholamines. These findings are discussed with regard to hypertension frequently found in adult animals.
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PMID:[Proof of adenylate cyclase activity in the coronary artery of cattle]. 19 28

1. Various drugs were injected stereotactically into the brain of anaesthetized rats. 2. Noradrenaline injected into the area of the nucleus of the tractus solitarius in the lower brain stem or into the far anterior hypothalamus/pre-optic region induced a fall in blood pressure and heart rate related to the administered dose. 3. When injected into the anterior hypothalamus/pre-optic region, clonidine and alpha-methylnoradrenaline induced a long-lasting decrease in blood pressure and heart rate.
Clin Sci Mol Med Suppl 1975 Jun
PMID:Localization of central noradrenergic mechanisms in cardiovascular regulation in rats. 21 Sep 91

1. The effects of phenol and phenyl glucuronide on the responses of normal rat brain adenyl cyclase to noradrenaline and dopamine have been investigated. Neurotransmitter responses have also been examined in brains from uraemic and normal rats. 2. A depressive effect of phenol on the adenosine 3' :5' -cyclic monophosphate response of the neostriatum to dopamine was shown to be completely abolished if the toxin was present in the conjugated form; the response of the cortex to noradrenaline was stimulated by the presence of phenyl glucuronide, even though the unconjugated form had no effect. 3. The uraemic state in the rat also resulted in a depression of the neostriatum response to dopamine, yet an enhancement of the cortical response to noradrenaline. 4. The action of phenols of the brain is relevant to hepatic and uraemic coma.
Clin Sci Mol Med 1978 Sep
PMID:Effect of unconjugated and conjugated phenol and uraemia on the synthesis of adenosine 3' :5' -cyclic monophosphate in rat brain homogenates. 21 46

1. The concentration of catecholamines was measured in several brain areas of the Hewbrew University Sabra rat (SB rat), and in two substrains selected for their respective sensitivity (H) or immunity (N) to hypertension. 2. Hypertension was induced in SB rats by DOCA-salt, renal artery constriction and NaCl 1.7% drinking. The noradrenaline content was consistently elevated in the medulla oblongata of hypertension animals. In other brain areas the rise in noradrenaline varied in the different types of hypertension. 3. Administration of DOCA-salt to H and N rats, while causing marked hypertension in the former, had no effect on noradrenaline in either strain. 4. Untreated, normotensive N rats had in the medulla oblongata, significantly higher concentrations of noradrenaline than did H rats. 5. Differences in brain noradrenaline may explain the inherited susceptibility or resistance to hypertension in H and N rats.
Clin Sci Mol Med Suppl 1978 Dec
PMID:Hypertension and brain catecholamine distribution in the Hebrew University Sabra, H and N rats. 28 36

1. Vascular reactivity was studied in Tyrode solution perfused kidneys from young (7 weeks) and mature (4-6 months) spontaneously hypertensive rats (SH rats). 2. The response to nerve stimulation was greater in the kidneys from young SH rats than in those from young control rats, both in control solution and after inhibition of the disposition of noradrenaline; both groups exhibited the same sensitivity to noradrenaline, angiotensin II and barium chloride. 3. The response to nerve stimulation was normal in kidneys from mature SH rats, but responses to noradrenaline, angiotensin II and barium chloride were greater than the control. 4. Cocaine potentiated the response to nerve stimulation more in the kidneys from mature SH rats than in those from the control rats. 5. The results suggest that renal sympathetic nerves release more noradrenaline than normal in the young SH rats, which could be an important factor in causing hypertension. 6. In the established phase of spontaneous hypertension the vascular reactivity to exogenous agonists is increased, probably as a consequence of high blood pressure; the more efficient neuronal uptake causes normalization of the response to sympathetic nerve stimulation.
Clin Sci Mol Med Suppl 1978 Dec
PMID:Neuronal and vascular reactivity in isolated perfused kidneys during the development of spontaneous hypertension. 28 59

1. Blood pressure, plasma renin activity, plasma aldosterone, urinary noradrenaline during sleep (UNA-S) and several estimates of sodium intake were determined in 379 normotensive subjects (age 13--70) to investigate the relationship of these variables to blood pressure. 2. Blood pressure was correlated with age, weight, plasma renin activity UNA-S, and estimates of sodium intake. There variables were frequently intercorrelated. 3. Multiple-correlation analysis revealed that after removal of the effects of age, blood pressure was related to weight, plasma renin activity, UNA-S and estimates of sodium intake. 4. However, multiple-regression analysis failed to demonstrate an effect of plasma renin activity, UNA-S, or estimates of sodium intake on blood pressure when the effects of age, weight, race and sex were removed. 5. Careful matching of subjects by age, weight, race and sex in studies of blood pressure and biochemical factors in normal subjects is crucial to proper interpretation of such data.
Clin Sci Mol Med Suppl 1978 Dec
PMID:Biochemical correlates of the increase in blood pressure with age. 28 91

1. Plasma noradrenaline concentration and plasma renin activity were measured in a control, British, urban population (n = 115) in which blacks were matched for age and sex with whites. 2. Similar measurements were made in subjects with essential hypertension (77 white and 23 black), and 48 healthy normotensive white civil servants. 3. In controls blood pressure was significantly higher in blacks; it correlated with age in both races and with pulse rate in blacks. There were no significant racial differences in plasma noradrenaline which was positively correlated with age in both blacks and whites. Mean plasma renin activity was 55% lower in blacks, and this difference was not related to urinary sodium excretion. 4. In hypertensive subjects plasma noradrenaline positively correlated with age in blacks. This relationship was not found in whites in whom 20% of young hypertensive subjects (less than 45 years) had significantly raised plasma noradrenaline. Plasma renin activity was again significantly lower in blacks. In white hypertensives plasma noradrenaline and renin activity were significantly correlated. 5. There may be racial differences in the pathogenesis of essential hypertension.
Clin Sci Mol Med Suppl 1978 Dec
PMID:Are racial differences in essential hypertension due to different pathogenetic mechanisms? 28 93

1. An inverse relationship was found between plasma noradrenaline and reactivity to exogenous noradrenaline in normotensive subjects. 2. The relationship between plasma noradrenaline and reactivity was distrubed in age-matched patients with essential hypertension. 3. A multiple-regression analysis showed a highly significant correlation between adrenergic activity and reactivity to noradrenaline and the mean arterial blood pressure level (r = 0.91). The results suggest that adrenergic activity and pressor response to noradrenaline combined are important determinants of arterial blood pressure. 4. An inverse relationship could also be demonstrated between plasma renin activity and reactivity to exogenous angiotensin II. No difference was observed between normotensive and hypertensive subjects.
Clin Sci Mol Med Suppl 1978 Dec
PMID:Plasma noradrenaline and the pressor action of exogenous noradrenaline in normotensive subjects and patients with essential hypertension. 28 99

1. Average supine circulating total catecholamine concentrations were found to be higher than the normal range in about 50% of patients with labile hypertension and in about 30% of patients with sustained essential hypertension. 2. These higher resting concentrations were mainly due to an increase in adrenaline in labile hypertension and to an increase in noradrenaline in sustained hypertension. 3. Patients with elevated catecholamine concentrations were also characterized by a higher heart rate, by an increased myocardial contractility and by greater hypotensive response after treatment with beta-adrenoreceptor blocking agents. 4. These studies suggest the existence of sub-groups of hypertensive patients with increased sympathetic tone.
Clin Sci Mol Med Suppl 1978 Dec
PMID:Circulating catecholamines and systolic time intervals in labile and sustained hypertension. 28


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