Norepinephrine turnover in the heart and blood vessels of rats subjected to bilateral renal infarction

The total norepinephrine (NE) content, the uptake of [3H]NE, the turnover rate and the synthesis rate of the neurotransmitter at the heart and blood vessels have been studied during the development of hypertension in rats subjected to bilateral renal infarction. Normal and sham-operated rats were used as controls. Fifty percent of the rats with renal infarction became hypertensive. The weight of the hearts and blood vessels of the experimental animals was significantly increased 15 days after renal infarction. Changes were greater in hypertensive animals. NE concentration in the heart was slightly decreased without achieving statistical significance, while total NE content was unchanged. In the artery wall NE concentration was significantly decreased in normotensive and hypertensive operated rats. [3H]NE uptake in the heart and blood vessels was similar in experimental and control animals. In relation to NE turnover, in both the heart and blood vessels, normal and sham-operated animals behaved as one population while normotensive and hypertensive rats behaved as another population. The rate constant of NE turnover was increased in both tissues of operated experimental animals without achieving statistical significance in the case of the heart. NE synthesis rate was unchanged in the cardiac muscle but was significantly increased in the blood vessels of operated animals. Present data indicate that results describing NE dynamics in the heart cannot be extrapolated for the blood vessels level; on the other hand changes in the neurotransmitter do not seem to be related to the development of high blood pressure after renal infarction in the rat.     

Role of atrial natriuretic factor in regulation of blood pressure in normotensive rats having reduced renal mass

Experiments were carried out in normotensive, saline-drinking, 60% reduced renal mass rats to determine the effect of an in vivo blockade of endogenous atrial natriuretic factor (ANF) on blood pressure. We used a 60% reduction in renal mass because blood pressure in these normotensive animals is extremely sensitive to any slight further reduction of renal excretory function. Six weeks following the reduction of renal mass and documentation of normotension, rats were injected intraperitoneally twice daily for 12 days with ANF antibody prepared against the C-terminal heptapeptide of AP III conjugated to bovine thyroglobulin. Control rats similarly prepared, received normal rabbit serum (NRS). Blood pressure progressively increased in rats receiving the antibody, and its withdrawal returned blood pressure to control levels within 4-5 days. Serum from either normal rabbits or rabbits immunized with bovine thyroglobulin or peptides unrelated to ANF had no effect on blood pressure in the control animals. These experiments show that in the normotensive saline-drinking rat with reduced renal mass, an antibody to AP III raises blood pressure. This suggests that ANF here is acting to prevent the rise in blood pressure.     

儿茶酚抑素在大鼠肾性高血压中的作用及可能机制

目的：观察儿茶酚抑素（CST）在两肾一夹（2K1C）肾性高血压大鼠中的表达改变,并初步探讨其对肾性高血压的影响及作用机制。方法：36只SD大鼠随机分为假手术组（Sham）（n=15）和肾性高血压模型组（Model组）（n=21）。Model组采用两肾一夹（2K1C）手术法建立肾性高血压模型,Sham组手术操作同Model组,但不结扎左肾动脉,每周动态监测大鼠尾动脉血压。6周后各组大鼠行颈总动脉插管测定动脉压,Model组再随机分为2K1C组（n=15）与2K1C+CST组（n=6）。2K1C+CST组经颈外静脉一次性给予CST （80 μg/100 g·BW）,Sham组与2K1C组给予等容积的生理盐水。各组动物经测血压、采集血标本后被处死,称取左心室加室间隔（LV+S）重量,计算（左心室+室间隔）/体重;高效液相色谱-电化学方法测定血浆中去甲肾上腺素（NE）含量,ELISA法测定血浆CST含量,硝酸还原酶法测定血浆及心室肌一氧化氮（NO）浓度;Western blot法检测延髓、肾上腺髓质、左心室和肾脏的嗜铬蛋白A （Chga）及左心室内皮型一氧化氮合酶（eNOS）、诱导型一氧化氮合酶（iNOS）蛋白表达量。结果：①与Sham组相比,2K1C组大鼠尾动脉压显著升高,左心室明显肥厚（P<0.01）;血浆NE含量增高246%（P<0.01）,CST水平降低56%（P<0.05）;延髓Chga含量增高108%,左心室和肾脏分别降低60%和30%（P<0.05）;左心室NO含量增高46%,血浆NO含量增高24%（P<0.05）;左心室eNOS、iNOS蛋白表达分别增高66%和40%（P<0.05）;②外源性CST显著降低2K1C大鼠颈总动脉压（P<0.05）;③与2K1C组相比,2K1C+CST组左心室和血浆NO含量分别增高35%和19%（P<0.05）;左心室eNOS蛋白表达高50%（P<0.05）,而iNOS表达无显著统计学差异。结论：两肾肾性高血压时大鼠CST表达下调,外源性CST可能通过NO/NOS系统降低肾性高血压的作用,推测CST可能与肾性高血压的发生发展有关。     

Disposition of catecholamines in cardiovascular tissues of aorta coarcted hypertensive rats

Aorta-coarcted hypertensive rats and sham-operated normotensive rats were compared in order to assess the contribution of sympathetic nervous system activity to the elevated blood pressure in these rats at an early (6 days) and chronic (42 days) stage of hypertension. Norepinephrine (NE), epinephrine (E) and dopamine (DA) levels were quantitated in plasma, heart and vascular tissues (aorta, inferior vena cava, mesenteric artery and vein) using a radioenzymatic procedure. Body weight was significantly reduced and mean arterial blood pressure (MABP) significantly increased in the coarcted rats at both stages of hypertension. Plasma catecholamines did not differ at either stage of hypertension. The NE content of the heart and mesenteric artery was significantly decreased in the coarcted rats at both stages of hypertension but unchanged in the other vessels studied. E and DA levels in the heart and all vasculature analyzed remained unaltered at both stages of hypertension. The present results suggest that neither E nor DA makes a major contribution to the development and maintenance of hypertension in the aorta-coarcted rat. The observation of the reduced cardiac NE concentration in the coarcted rats together with literature reports of similar observations in other animal models of hypertension suggests that myocardial NE depletion is a common feature of the hypertension and not dependent on the methodology used to produce that hypertension.     

Potassium turnover and norepinephrine sensitivity in the thoracic aorta of the Dahl rat

This in vitro study evaluated the basal 42K turnover and response to norepinephrine (NE) in the thoracic aorta removed from Dahl salt-sensitive (S) and salt-resistant (R) rats. Five-week-old S and R rats were placed on either a high-salt (HS) or low-salt (LS) diet. After 5 weeks of the diet, systolic blood pressure, aortic weight/length ratio, and the cellular pool of K+ were elevated in the S-HS group only. In contrast, the steady state turnover of 42K, the NE ED50, and the response to a supramaximal dose of NE were the same in both groups of salt-sensitive and salt-resistant rats. These results suggest that, despite the presence of a greatly elevated systolic blood pressure and evidence of aortic hypertrophy, the intrinsic electrolyte metabolism of the vascular smooth muscle in the Dahl hypertensive rat is the same as that of the Dahl normotensive rat.     

Plasma catecholamines and urinary excretion of their main metabolites in three models of portal hypertension

We have measured, by a specific radioenzymoassay, the plasma concentration of dopamine (DA) and norepinephrine (NE) and by gas chromatography the urinary excretion of some catecholamine metabolites (HVA, homovanillic acid, DOPAC, dihydroxyphenyl acetic acid; VMA, vanilmandelic acid, and DOPEG, dihydroxyphenyl glycol) in three groups of rats with portal hypertension: cirrhotic rats (CR), rats with progressive portal hypertension (PPH) and rats with progressive hepatic congestion (PHC). The three groups of rats had portal hypertension. PPH and PHC had also intrahepatic hypertension. CR rats showed an increased urinary excretion of NE and DA metabolites with a normal plasma concentration of these catecholamines, suggesting an increased turnover of NE and DA in this experimental model. PPH animals had a high plasma DA concentration with a decreased urinary excretion of catecholamine metabolites. PHC showed high plasma DA and NE levels with normal or increased urinary excretion of its metabolites. These results suggest that an increased neural activity is present in the early stages of experimental cirrhosis in rats and this alteration does not seem directly related to the portal hypertension but perhaps to the intrahepatic hypertension or to the hepatocellular damage.     

Body fluids and their distribution in experimental hypertension

The relation between blood pressure level and extracellular fluid volume and its distribution was studied in rats subjected to the following hypertensive stimuli--1K1C and 2K1C renal artery constriction, subtotal nephrectomy-salt and DOCA-salt. In all experimental groups the blood pressure increase was accompanied by increased extracellular fluid volume which was not always distributed proportionally between intravascular (PV) and interstitial (IFV) compartments. The blood pressure rise was further potentiated by plasma volume expansion so that the increased PV/IFV ratio was associated with a more pronounced hypertensive response (1K1C vs 2K1C, DOCA-salt vs subtotal nephrectomy-salt). However, adequate expansion of interstitial fluid is a necessary prerequisite for the hypertensive response. In DOCA-salt treated DI Brattleboro rats (lacking antidiuretic vasopressin action) plasma volume expansion per se was not accompanied by severe DOCA-salt hypertension. It is concluded that the expansion of both compartments of extracellular space, i.e. plasma volume and interstitial fluid volume, was necessary for a full development of severe hypertension. The expansion of only one of these compartments was accompanied by a mild blood pressure increase or blood pressure did not change significantly.     

Plasma atrial natriuretic peptide in conscious rats with reduced renal mass

The effect of salt intake and reduction of renal mass (RRM) on plasma immunoreactive atrial natriuretic peptide (iANP) levels in conscious rats was studied. Rats were divided into RRM and sham-operated groups, and then further subdivided into groups infused with 1 or 6 mEq of sodium per day. Plasma urea nitrogen increased in the groups with RRM. Plasma sodium, sodium balance, and heart rate did not differ between the sham and RRM groups. Rats with RRM maintained on 1 mEq of sodium per day did not have an elevation of water intake, arterial pressure, or plasma iANP. Rats with RRM maintained on 6 mEq of sodium per day had significantly (P less than 0.05) elevated water intake, arterial pressure, and plasma iANP. Arterial pressure and plasma iANP were correlated (r = 0.800) for rats with RRM on either 1 or 6 mEq of sodium per day. Increased plasma iANP in the RRM group on 6 mEq per day was not caused by either RRM or high sodium alone; it was an effect of RRM plus high salt intake. The increase in plasma iANP in the RRM group may be caused by the increase in arterial pressure, possibly due to an increase in extracellular fluid volume. ANP may not be responsible for the sustained increase in fractional sodium excretion observed in RRM.     

Progesterone is not responsible for the blood pressure fall in late-pregnant New Zealand genetically hypertensive rats

In various models of experimental and genetic hypertension in rats, blood pressure is markedly reduced during late pregnancy. The period during which the blood pressure reduction occurs is also the period when plasma progesterone is maximally elevated, and administration of progesterone to renal hypertensive rats has been reported to reduce blood pressure (J. Armstrong, 1959, Proc. Soc. Exp. Biol. Med. 102:452-455). To test the possibility that elevated plasma progesterone is responsible for the blood pressure reduction in late pregnancy, on Day 14 of pregnancy a group of New Zealand genetically hypertensive (NZGH) rats was ovariectomized and implanted with progesterone-filled capsules, to maintain plasma progesterone at low levels just sufficient to maintain pregnancy, and compared with intact, pregnant NZGH. Ovariectomy did not alter the characteristic course of blood pressure reduction seen in late-pregnant intact NZGH rats. In addition, daily administration of progesterone (15 mg/kg, sc) for 14 days did not alter blood pressure of either nonpregnant NZGH rats or New Zealand normotensive rats with chronic 1-kidney, 1-clip hypertension. It is concluded that blood pressure of NZGH rats is reduced to near normotensive levels in late pregnancy, as reported for other models of rat hypertension, but that elevated plasma progesterone levels are not requisite for that reduction and do not reduce blood pressure of renal hypertensive rats.     

Abnormal regulation of the sympathoadrenal system in deoxycorticosterone acetate-salt hypertensive rats

With the use of circulating norepinephrine (NE) and epinephrine (E) levels, the sympathoadrenal activity as well as its local modulation by adrenoceptors were studied in normotensive (NT) and DOCA-salt hypertensive (HT) rats. In anesthetized hypertensive rats, plasma NE levels were higher, whereas in conscious animals both NE and E levels were found to be increased, suggesting an increased basal sympathoadrenal tone in these animals. The finding of a close correlation between blood pressure levels and NE levels suggests that the elevation of blood pressure may be linked to sympathetic system activity in this experimental model of hypertension. The reactivity of the sympathoadrenal system was also found to be increased in DOCA HT rats. Following a bilateral carotid occlusion of 1 min, which specifically activates the adrenal medulla, the elevation of E levels was found to be potentiated in intact or vagotomized HT rats. Moreover, in response to prolonged or acute hypotension in anesthetized and conscious animals, the elevation in plasma NE and E levels was found to be markedly potentiated in DOCA HT rats. The local modulating adrenoceptor-mediated mechanisms of the sympathoadrenal system appeared to be altered in this model of hypertension. Although it was possible to demonstrate that the E response to carotid occlusion can be greatly potentiated by administration of an alpha2-antagonist (yohimbine) and completely abolished by an alpha2-agonist (clonidine) in NT rats, the E response was found to be unaffected by the same treatments in HT rats, suggesting a reduced sensitivity in the alpha2-mediated inhibitory modulation of the adrenal medulla. Moreover, the acute treatment with a beta-blocker (sotalol) lowered circulating NE levels and blood pressure only in HT rats, suggesting the possibility of a more sensitive beta-receptor-mediated presynaptic facilitatory mechanism on sympathetic fibers of these animals. Finally, it was observed that the functional balance which exists between the activities of sympathetic fibers and the adrenal medulla in normotensive animals appears to be impaired in DOCA HT rats. In conclusion, the present studies suggest that the increased sympathoadrenal tone and reactivity may be due, in part, to a variety of dysfunctions in local adrenoceptor modulatory mechanisms of the sympathoadrenal system in DOCA hypertensive rats.     

Influence of age on saline hypertension in subtotal nephrectomized rats

In uninephrectomised immature and adult male rats 34% renal tissue was removed from the remaining kidney and after 60-days exposure to saline treatment (0.17 mol/l NaCl solution as only drinking fluid) the mean arterial blood pressure, plasma urea concentration, plasma and extracellular fluid volumes were estimated. In comparison with water drinking uninephrectomised age-matched controls it has been found that: in both age groups, the loss of tissue from the remaining kidney was fully replaced by compensatory growth of the renal stump, plasma urea concentration remained unchanged in animals operated on when adult, but increased in animals operated on when immature, the interstitial fluid volume increased in both age groups--the plasma volume as well as blood pressure remained unchanged in animals treated when adult, but increased in animals treated when immature. It is concluded that under conditions of elevated salt intake the loss of renal mass in immature rats was compensated by growth of tissue with a lower excretory ability than in adult ones, this being responsible for the development of hypertension in the younger group.     

Development of an animal model for investigating disparate myocardial effects of obesity and hypertension

An experimental model for investigating the disparate effects of obesity and hypertension on the heart was developed by ligation of the aorta of male Sprague-Dawley rats made obese through ad libitum feeding. Experimental obesity was associated with an increased body fat and cardiac muscle mass, yet a normotensive systemic arterial pressure. Aortic ligation produced an elevated mean arterial pressure and resting heart rate, whereas body weight was similar to that of normotensive lean control rats. Obesity and hypertension together were associated with a significantly increased percent body fat, mean arterial pressure, and left ventricular mass compared with lean controls, whereas pressure and left ventricular weight were greater than those observed in rats with only obesity or hypertension. Cardiac adaptations corrected for body weight indicated that left ventricular weight increased as a function of body weight and body fat, but hypertension produced left ventricular adaptations independent of these variables. These initial studies indicate an additional contribution of hypertension to the left ventricular adaptations of obesity, and this model could therefore be used in future investigations concerning the cardiovascular effects of the simultaneous occurrence of these separate diseases.     

Tissue norepinephrine turnover and cardiovascular responses during intermittent dehydration in the rat.

We investigated the central and peripheral sympathetic responses to intermittent dehydration in rats. The norepinephrine (NE) turnover, a biochemical index correlated with noradrenergic neuronal activity, was measured. The modification of blood pressure was also determined by telemetry during the different cycles of dehydration. Dehydration caused a decrease of NE turnover in A2, A5 and A6 nuclei and in peripheral organs. The vasopressinergic level of dehydrated rats decreased in hypophysis and hypothalamus, and increased in plasma. A repeated gradual increase of arterial blood pressure during the first three days of dehydration, followed by a sudden drop when the rats were rehydrated on the fourth day was observed. In conclusion, our study revealed an increase in blood pressure and in central sympathetic activity during dehydration.     

Enhanced depressor effect of muscimol in the DOCA/NaCl hypertensive rat: evidence for altered GABAergic activity in brain

To elucidate the role of the central gamma-aminobutyric acid (GABA) system in the maintenance of deoxycorticosterone (DOCA)NaCl hypertension, the responses of mean arterial pressure (MAP), plasma norepinephrine (NE), and epinephrine (EP) to intracerebroventricular (ICV) administration of muscimol, a GABA agonist, and the responses of MAP to bicuculline, a GABA antagonist, and to clonidine, an alpha 2-adrenoceptor agonist known to lower blood pressure by inhibiting sympathetic tone, were examined in conscious, unrestrained 4 week DOCA/NaCl hypertensive rats and age-matched uninephrectomized control rats. Muscimol (50-1000 ng/300 g, ICV) caused dose-dependent decreases in MAP which were greater in DOCA/NaCl rats than in controls. Basal plasma NE and EP were significantly higher in DOCA/NaCl rats than in controls. Muscimol (1000 ng/300 g, ICV) induced decreases in plasma EP which were greater in DOCA/NaCl rats than in controls without changing NE levels in either group. Bicuculline (3 micrograms/300 g, ICV) caused increases in MAP which were the same in both groups. The depressor response to clonidine (5 micrograms/300 g) was greater in DOCA/NaCl rats than in controls. These results suggest that the activity of the central GABAergic system is altered in the rat with established DOCA/NaCl hypertension and that the alteration in central GABAergic function may be related to the increased sympathoadrenal activity and the maintenance of hypertension in this model.     

Effects of acute and chronic administration of sotalol on the blood pressure and the sympathoadrenal activity of anesthetized deoxycorticosterone acetate-salt hypertensive rats

Using plasma catecholamine (CA) levels as an index of the sympathoadrenal activity, the effects of chronic and acute beta-blockade on the blood pressure and sympathetic activity were evaluated in deoxycorticosterone acetate (DOCA) - salt hypertensive (HT) rats. The acute administration of one beta-blocker (sotalol, 5 mg/kg) to intact of vagotomized anesthetized HT animals induced a significant decrease in plasma norepinephrine (NE) concentrations and mean arterial pressure (MAP). The amplitude of the decrease of the MAP or NE levels were linearly correlated with the basal NE levels, suggesting that sotalol reduced the blood pressure and sympathetic NE release more efficiently in rats with increased sympathetic activity. Similarly, chronic infusion of sotalol (1.5 mg X day-1 X rat-1) through an osmotic pump for 12 days in DOCA-salt HT rats significantly reduced NE and epinephrine (E) plasma levels compared with those observed in untreated DOCA-salt HT rats. Moreover, the chronic treatment with sotalol significantly reduced the plasma E elevation induced by bilateral carotid occlusion (CO) in vagotomized normotensive (NT) and HT rats. It therefore appears that acute administration of sotalol to HT rats causes a significant reduction in the sympathetic activity which is associated to a decrease in MAP. Although chronic sotalol treatment causes a significant reduction in the sympathoadrenal basal activity and in the adrenal reactivity, this treatment did not prevent the development of DOCA-salt hypertension.     

Adenovirus-mediated human prostasin gene delivery is linked to increased aldosterone production and hypertension in rats

Prostasin has been demonstrated to be an activator of epithelial sodium channels in cultured renal and bronchial epithelial cells. In this study, we evaluated the effects of adenovirus-mediated gene transfer of human prostasin on blood pressure regulation and sodium reabsorption in Wistar rats. Expression of human prostasin mRNA was identified in rat adrenal gland, liver, kidney, heart, lung, and aorta, and immunoreactive human prostasin was detected in the circulation and urine of rats receiving prostasin gene transfer. A single injection of adenovirus carrying the prostasin gene caused prolonged increases in blood pressure for 3-4 wk. Blood pressure increase was accompanied by elevated plasma aldosterone levels and reduced plasma renin activity. The increase in blood pressure and plasma aldosterone levels as well as the reduction of plasma renin activity correlated with the expression of human prostasin transgene. Elevated plasma aldosterone levels were detected at 3 days after gene transfer before the development of hypertension, indicating that stimulation of mineralocorticoid production is the primary target of prostasin. Prostasin gene transfer significantly reduced urinary K(+) excretion but increased urinary Na(+) and kallikrein excretion. Elevated renal kallikrein levels promote natriuresis, which may lead to sodium escape and prevent further increases of blood pressure after prostasin gene transfer. In summary, these results suggest that prostasin participates in blood pressure and electrolyte homeostasis by regulating the renin-angiotensin-aldosterone and kallikrein-kinin systems.     

Erythrocyte ion transport and membrane lipid composition in young and adult rats with NO-deficient hypertension

The aim of our study was to search for abnormalities of sodium and potassium transport in erythrocytes of male Wistar rats subjected to chronic L-NAME treatment (40 mg/kg/day) for 4 weeks either from weaning (4-week-old) or in adulthood (12-week-old). Sodium content, Na(+),K(+)-pump and Na(+),K(+)-cotransport activity, cation leaks as well as membrane cholesterol and phospholipid contents were determined in fresh erythrocytes. Chronic inhibition of NO synthase elicited similar blood pressure rise in both age groups which did not differ in the degree of NO synthase inhibition. No significant ion transport abnormalities were disclosed in erythrocytes of young NO-deficient rats, whereas erythrocyte Na(+) content, outward Na(+),K(+)-cotransport and inward Na(+) leak were significantly reduced in adult hypertensive animals compared to age-matched controls. It should be noted that the erythrocytes of adult control rats were characterized by higher activity of Na(+),K(+)-pump and Na(+),K(+)-cotransport, increased Na(+) and Rb(+) leaks and elevated membrane cholesterol content compared to those of young normotensive controls. Increased Na(+) leak and elevated membrane cholesterol content but reduced membrane phospholipid content were revealed in erythrocytes of adult hypertensive rats when compared to young hypertensive rats. It can be concluded that young and adult Wistar rats did not differ in the extent of NO synthase inhibition and blood pressure rise elicited by chronic L-NAME treatment. Our results exclude the important participation of classical sodium transport abnormalities in the pathogenesis of this NO-deficient form of experimental hypertension.     

Effect of prazosin and yohimbine on systolic blood pressure and on renal norepinephrine content in DOCA-salt rats

We studied the effect of alpha-1 and alpha-2 blockers (prazosin and yohimbine) on systolic blood pressure (SBP) and on renal norepinephrine (NE) content in Sprague-Dawley normotensive and DOCA-salt rats. The administration of desoxycorticosterone acetate (DOCA) to these rats for 6 weeks increased their SBP from 137 to 183 mmHg (p less than .001). This increase was prevented by simultaneous administration of prazosin (p less than .001), yohimbine (p less than .01), or prazosin + yohimbine (p less than .001). DOCA rats on saline and on yohimbine had lower renal NE content (p less than .05 and p less than .001, respectively) than normotensive rats. Renal NE content of DOCA rats on yohimbine decreased with respect to those treated with prazosin (p less than .001) or prazosin + yohimbine (p less than .05). Besides, renal NE content of DOCA rats on prazosin increased when compared to control DOCA rats (p less than .05). However, these drugs showed no effect on SBP and on renal NE content in normotensive rats. These findings further confirm that the alpha adrenoceptor blockade can prevent the hypertension of DOCA-salt rats in such a way that their blood pressure stabilizes at similar levels to those observed in normotensive treated animals.     

Role of the renal nerve in glucocorticoid hypertension

The present study was designed to investigate the involvement of the renal nerve in glucocorticoid hypertension and to assess the role of the renin-angiotensin system in dexamethasone-induced hypertension. The elevated blood pressure in dexamethasone treated rats showing a significant increase in plasma renin concentration (PRC) and activity (PRA) was attenuated dose-dependently by the angiotensin I converting enzyme (ACE) inhibition. Bilateral renal denervation caused a partial decrease in the elevated blood pressure, abolished the increased PRC and PRA, and reduced the dose-dependent decrease in blood pressure with ACE inhibition in dexamethasone treated rats. Although the reduction in body weight and increases in urine volume, urinary sodium excretion and hematocrit were clearly seen following dexamethasone administration, dexamethasone-treated renal denervated rats showed the same degree of change in any of the variables as dexamethasone-treated sham-operated rats. Thus, our results indicate that the stimulation of the renin-angiotensin system through the activation of the renal nerve may be partially responsible for the dexamethasone-induced high blood pressure and, therefore, bilateral renal denervation reduces, partially but significantly, the elevated blood pressure, suggesting that the attenuation of oversecretion of renin contributes to the lowering of the blood pressure.     

Altered peripheral noradrenergic activity in intact and sinoaortic denervated Dahl rats

Development of salt-induced hypertension in Dahl salt-sensitive (S) rats is dependent on sympathetic overactivity which may be partially related to arterial baroreflex dysfunction and, therefore, is regionally selective. Our first experiment was designed to determine which regions have elevated sympathetic activity in Dahl S compared with Dahl salt-resistant (R) rats. Weanling (4-week-old) female Dahl R and S rats were fed low or high salt diets (0.13% and 8% NaCl) until 10 weeks of age. Norepinephrine (NE) synthesis was blocked with alpha-methyl-p-tyrosine, and the fractional decline of NE concentration was measured in various tissues. Dahl S rats with increases in both arterial pressure and left ventricular weight demonstrated increased NE turnover in the sinoatrial node, the atrial appendages, the cardiac ventricles, and the renal cortex. In all of these tissues except the cardiac ventricle, increases were associated with high salt intake. Our second experiment was designed to test if arterial baroreflex dysfunction could account for regional increases in sympathetic activity. Separate groups of Dahl R and S rats fed high salt were subjected to either sham surgery or sinoaortic baroreceptor denervation 1 week prior to turnover determinations. Sinoaortic baroreceptor denervation abolished differences in NE turnover between salt-fed Dahl R and S rats in the cardiac sinoatrial node and the atrial appendages, but not in the cardiac ventricles and the renal cortex. Sinoaortic baroreceptor denervation also abolished differences between salt-fed Dahl S and R rats in the spleen but not the duodenum.(ABSTRACT TRUNCATED AT 250 WORDS)