Altered noradrenergic projection to hypothalamus via baroreflex in spontaneously hypertensive rats

Gender differences in hypothalamic tyrosine hydroxylase and alpha(2)-adrenoceptor subtype gene expression in cafeteria diet-induced hypertension and consequences of neonatal androgenization

This study investigated the incidence of cafeteria-diet induced hypertension on hypothalamic tyrosine hydroxylase (TH) and alpha(2)-adrenoceptor subtype gene expression in male, female, and neonatally testosterone-imprinted female rats. After 10 weeks of cafeteria diet, all these rats were hyperleptinemic. In contrast, males and testosterone-treated females developed hypertension, whereas intact females remained normotensive. In these rats, cafeteria diet up-regulated TH gene expression only in males and testosterone-treated females. On the other hand, cafeteria diet differentially affected hypothalamic gene expression of alpha(2)-adrenoceptor subtypes. In fact, this diet increased alpha(2A)-adrenoceptor mRNA levels only in intact normotensive females. In contrast, gene expression of the alpha(2B)-adrenoceptor was up-regulated only in male and testosterone-treated female cafeteria-fed rats. Furthermore, an alpha(2C)-adrenoceptor gene over-expression was also induced, but only in male cafeteria-fed rats. If one assumes that the up-regulations in TH and alpha(2B)-adrenoceptor gene expression are indicative of increased sympathetic nervous activity, then, these altered gene expressions could be responsible for the maintenance of high blood pressure in male and testosterone-treated female cafeteria-fed rats. Conversely, in intact females, the absence of these over-expressions and the up-regulation of the alpha(2A)-adrenoceptor gene expression could reflect an adaptive response to the diet and, consequently, could be protective against cafeteria diet-induced hypertension. Moreover, neonatal testosterone imprinting in females could have induced an irreversible android susceptibility to the cafeteria diet, leading to the onset of hypertension.

Increased nitric oxide concentrations in posterior hypothalamus and central sympathetic function on nitrate tolerance following subcutaneous nitroglycerin

The present study was to examine the distributions of nitric oxide (NO) in the brain regions and peripheral vessels following subcutaneously administered nitroglycerin (NTG) and determine the noradrenergic activity and the role of central sympathetic function in acute nitrate tolerance. Tolerance to NTG was produced by subcutaneous (sc) administration of 4.0 mg NTG as four separate hourly pulse injections of 1.0 mg each in male (5-8 months) Sprague-Dawley rats. Rats in sham-treated group received sc injections of saline. Rats were killed by sodium pentobarbital (150 mg/kg, ip) at 10 min after last sc injection. The brain, gracilis muscle, aorta, superior mesenteric artery, coronary artery, and pulmonary vessels were quickly removed. Concentrations of nitrite (NO2-), nitrate (NO3-), and total NO2- plus NO3- (NOx-) were quantified in the micropunches of the anterior hypothalamus, the posterior hypothalamus (PH), the nucleus tractus solitarius, the lateral reticular nucleus, and the vessels in a blinded fashion. The central actions of acute tolerance to NTG were also determined using blockades of sympathetic functions in conscious rats. Four separate hourly pulse sc injections of 1.0 mg NTG produced a marked shift of the dose-response curve for arterial pressure depression induced by intravenous injection of the challenge doses of NTG. The same doses of sc NTG caused increases in NOx- [92+/-16% (mean +/- SE)] and NO3- productions (77+/-15%) in the PH, but did not significantly change in other brain regions (n = 6). NOx- and NO3- productions were significantly enhanced in the superior mesenteric artery, aorta, coronary artery, and pulmonary vessels following sc NTG, but were not altered in gracilis muscle by the treatment. The tolerance responses to arterial pressure depression were attenuated by intravenous administration of either prazosin (300 microg/kg), an alpha1-adrenoceptor antagonist, or chlorisondamine (10 mg/kg), a sympathetic ganglion blockading agent (n = 5-6). The results suggest that acute NTG tolerance predominately increases NO production in the PH. NO production was also markedly enhanced in the large and middle vessels but not in small vessels during acute NTG tolerance. The arterial pressure tolerance to NTG was reversed by blockade of central sympathetic function. We conclude that NO formation is increased in the PH following systemically administered NTG and NO in the PH may facilitate central sympathetic functions which contribute to nitrate tolerance.

Acute hypertension increases norepinephrine release in the anterior hypothalamic area

Neurons in the anterior hypothalamic area play an important role in NaCl-sensitive hypertension in spontaneously hypertensive rats, and previous studies have suggested that baroreceptor feedback modifies the activity of these neurons. To test the hypothesis that the release of norepinephrine in the anterior hypothalamic area is modified by arterial baroreceptor reflex feedback and that this reflex release is disturbed in spontaneously hypertensive rats on a high NaCl diet, we used the push-pull technique to measure the release of the norepinephrine metabolite 3-methoxy-4-hydroxy-phenylglycol in the anterior hypothalamic area. Seven-week-old male spontaneously hypertensive and normotensive Wistar-Kyoto rats were placed on a high (8%) or a basal (1%) NaCl diet for 2 weeks. The high NaCl diet elevated mean arterial pressure and greatly reduced basal norepinephrine metabolite levels in the anterior hypothalamic area of the spontaneously hypertensive (but not the control) rats (305 +/- 32 pg/10 min in the rats consuming 1% NaCl and 93 +/- 9 pg/10 min in the rats consuming 8% NaCl). An infusion of tramazoline (an imidizoline that causes long-lasting hypertension) that increased arterial pressure by 25 mm Hg elevated anterior hypothalamic area norepinephrine metabolite concentrations significantly more in the spontaneously hypertensive rats on the 1% NaCl diet (to 392 +/- 46 pg/10 min) than in those on the 8% NaCl diet (to 113 +/- 18 pg/10 min). In contrast, in Wistar-Kyoto rats the tramazoline-induced increase in arterial pressure elevated anterior hypothalamic area norepinephrine metabolite concentrations slightly more in rats on the 8% NaCl diet than in those on the 1% NaCl diet.(ABSTRACT TRUNCATED AT 250 WORDS)

Comparative and combined efficacy of doxazosin and enalapril in hypertensive patients

Twenty patients with essential hypertension were randomised to a 7-week period of dose titration with doxazosin, 1-8mg/day or enalapril, 5-20mg/day. In a further 7-week period the dosage level reached with the initial drug was halved, and titration with the second agent was carried out. Blood pressure responses at the end of each treatment period were assessed by clinic measurements made 24 hours post-dose. In the first treatment period, enalapril (mean dose 19mg/day) reduced serum free ACE activity by 40% and had a greater effect than doxazosin (mean dose 5.2mg/day) on clinic supine blood pressure (systolic and diastolic). In the second period, the addition of enalapril to doxazosin was associated with a significant fall in clinic standing blood pressure (systolic and diastolic), despite the doxazosin dose reduction and consequent decrease in median plasma doxazosin concentration (from 10.6 to 5.2ng/ml). Alternatively, when doxazosin was added to enalapril, free ACE activity remained 40% decreased despite enalapril dose reduction, and blood pressure was not further affected. Plasma renin activity was increased by enalapril. No changes were observed in plasma aldosterone or lipid concentrations with either drug. The combination of doxazosin and enalapril was well tolerated and lowered blood pressure overall. Judged by clinic measurements 24 hours post-dose, most of the antihypertensive effect was attributable to the enalapril component. However, ambulatory blood pressure monitoring 0-12 hours post-dose in a subset of patients suggested a contribution of doxazosin earlier in the dose interval.