Effect of acute and chronic renal denervation on renal function after release of unilateral ureteral obstruction in the rat.

The role of the renal nerves in determining renal function after relief of 24-h unilateral ureteral obstruction (UUO) was studied using clearance techniques in anaesthetized rats. Acute renal denervation during the first 1--2 h after relief of UUO resulted in a significant increase in glomerular filtration rate (GFR), renal plasma flow (RPF), urine flow, and sodium and potassium excretion, changes which were not seen in the sham-denervated postobstructive kidney. Acute denervation of sham-operated normal kidneys caused a similar natriuresis and diuresis but with no change in GFR or RPF. Chronic renal denervation 4--5 days before UUO denervated postobstructive controls, while chronic denervation alone was associated with a significantly higher urine flow and sodium excretion rate from the denervated kidney. The effectiveness of renal denervation was confirmed by demonstrating marked depletion of tissue catecholamines in the denervated kidney. It was concluded that renal nerve activity plays a significant but not a major role in the functional changes present after relief of UUO. Chronic renal denervation did not protect against the functional effects of unilateral ureteral obstruction.     

Blood pressure of sinoaortic-denervated dogs is not increased by cardiac denervation

Although blood pressure rises markedly after acute sinoaortic denervation, animals with chronic sinoaortic denervation have normal or only slightly elevated mean arterial pressures. The present study was performed to determine whether reflexes from cardiac receptors exert antihypertensive effects and thereby lower blood pressure in animals with chronic sinoaortic denervation. We made multiple measurements of blood pressures in dogs with chronic sinoaortic denervation before and after their hearts were denervated surgically. Mean arterial pressure after cardiac denervation (100.3 +/- 4.2 mm Hg) was not significantly different from the mean pressures recorded before cardiac denervation in these sinoaortic-denervated dogs (104.8 +/- 3.1 mm Hg). Also, mean heart rate after cardiac denervation (107.4 +/- 5.5 beats/min) did not differ significantly from the mean heart rate recorded before cardiac denervation (107.2 +/- 5.9 beats/min). Cardiac denervation did, however, appear to reduce the lability of both blood pressure and heart rate in sinoaortic-denervated dogs. We conclude that cardiac receptors are not responsible for maintaining arterial pressure within essentially normal limits in animals with chronic sinoaortic denervation.     

Renal nerves and nNOS: roles in natriuresis of acute isovolumetric sodium loading in conscious rats

It was hypothesized that renal sympathetic nerve activity (RSNA) and neuronal nitric oxide synthase (nNOS) are involved in the acute inhibition of renin secretion and the natriuresis following slow NaCl loading (NaLoad) and that RSNA participates in the regulation of arterial blood pressure (MABP). This was tested by NaLoad after chronic renal denervation with and without inhibition of nNOS by S-methyl-thiocitrulline (SMTC). In addition, the acute effects of renal denervation on MABP and sodium balance were assessed. Rats were investigated in the conscious, catheterized state, in metabolic cages, and acutely during anesthesia. NaLoad was performed over 2 h by intravenous infusion of hypertonic solution (50 micromol.min(-1).kg body mass(-1)) at constant body volume conditions. SMTC was coinfused in amounts (20 microg.min(-1).kg(-1)) reported to selectively inhibit nNOS. Directly measured MABPs of acutely and chronically denervated rats were less than control (15% and 9%, respectively, P < 0.005). Plasma renin concentration (PRC) was reduced by renal denervation (14.5 +/- 0.2 vs. 19.3 +/- 1.3 mIU/l, P < 0.005) and by nNOS inhibition (12.4 +/- 2.3 vs. 19.6 +/- 1.6 mlU/l, P < 0.005). NaLoad reduced PRC (P < 0.05) and elevated MABP modestly (P < 0.05) and increased sodium excretion six-fold, irrespective of renal denervation and SMTC. The metabolic data demonstrated that renal denervation lowered sodium balance during the first days after denervation (P < 0.001). These data show that renal denervation decreases MABP and renin secretion. However, neither renal denervation nor nNOS inhibition affects either the renin down-regulation or the natriuretic response to acute sodium loading. Acute sodium-driven renin regulation seems independent of RSNA and nNOS under the present conditions.     

Role of atrial natriuretic peptide in mineralocorticoid escape phenomenon in patients with primary aldosteronism

The withdrawal effect of spironolactone treatment on natriuresis was studied in relation to atrial natriuretic peptide (ANP) in five patients with primary aldosteronism due to adenoma. The patients had been treated with spironolactone for 2-3 months before they were admitted. After admission, blood pressure, body weight, and urinary excretion of sodium were measured daily. Venous samples were obtained twice a week for measurements of plasma levels of ANP, plasma renin activity (PRA), and plasma concentrations of aldosterone (PAC), cortisol, and deoxycorticosterone. The study was performed for 7 days during the treatment with spironolactone and for 18 days after stopping the administration. Plasma volume was determined two times, during the control period and on the 13th day after stopping spironolactone. Urinary sodium excretion decreased initially and returned to the control levels successively. Body weight and plasma volume increased, and blood pressure rose steadily. PRA and the plasma concentrations of cortisol and deoxycorticosterone decreased significantly (P less than 0.05); however, high levels of PAC did not alter significantly. Plasma ANP levels increased significantly (P less than 0.05) from 26 +/- 4 pg/ml during the control period to 195 +/- 47 pg/ml on the 13th day after stopping spironolactone. The data of the urinary sodium excretion showed the escape from sodium-retaining effect of aldosterone, and this escape could be explained by the increase in plasma ANP. Furthermore, ANP might contribute to the decrease in cortisol and deoxycorticosterone in plasma because of the direct inhibitory action of ANP on steroidogenesis.     

Heart atrial auriectomy reduces the diuretic and natriuretic responses to a hypertonic saline load

Acute bilateral atrial auriectomy in anesthetized dogs reduced diuresis and natriuresis induced by both extracellular fluid volume expansion with isotonic saline and a hypertonic saline load. Since a hypertonic saline load, in contrast to isotonic saline infusion, was not accompanied by a significant increase in central venous pressure it is proposed that either increased plasma osmolality or plasma sodium concentration (or both) participate in the modulation of the atrial natriuretic mechanism.     

Ventilatory, circulatory, endocrine, and renal effects of almitrine infusion in man: a contribution to high altitude physiology

Diuresis at altitude was thought to be the result of chemoreceptor stimulation leading to a reduction of cardiac volume overload. This hypothesis was tested in ten young, healthy subjects by infusion of almitrine (0.5 mg.kg-1 body mass within 30 min) assuming analogous sites of action, i.e. arterial chemoreceptors and pulmonary vessels, for almitrine as for hypoxic hypoxia. The results show that almitrine increases ventilation, heart rate, systolic blood pressure, central venous pressure and natriuresis, but fails to increase significantly atrial natriuretic peptide plasma concentration and diuresis. It is concluded: (1) that almitrine has similar sites of action as hypoxic hypoxia at about 5000 m, (2) that natriuresis during arterial chemoreceptor stimulation might reduce cardiac volume overload, (3) that the volume excretion hypothesis, in particular the pathways from the cardiac volume overload to the water diuresis, need, for an understanding of the hypoxia-induced diuresis, further direct investigations at altitude.     

Central venous pressure and plasma arginine vasopressin in man during water immersion combined with changes in blood volume

To investigate the influence of central venous pressure (CVP) changes on plasma arginine vasopressin (pAVP), 8 normal male subjects were studied twice before, during and after immersion to the neck in water at 35.1 degrees +/- 0.1 degrees C (mean +/- SE) for 6 h. After 2 h of immersion, blood volume was either expanded (WIEXP) by intravenous infusion of 2.0 1 of isotonic saline during 2 h or reduced by loss of 0.5 1 of blood during 30 min (WIHEM). The two studies were randomised between subjects. WIEXP increased CVP, systolic arterial pressure (SAP), diuresis, natriuresis, kaliuresis and osmolar clearance compared to WIHEM while haematocrit, haemoglobin concentration and urine osmolality decreased. Heart rate, mean arterial (MAP) and diastolic arterial pressure, plasma osmolality, plasma sodium, plasma potassium and free water clearance did not differ significantly in the two studies. pAVP was significantly higher after 6 h in WIHEM than after 6 h in WIEXP (2.0 +/- 0.2 vs. 1.6 +/- 0.2 pg X ml-1, mean +/- SE; P less than 0.05). pAVP values were corrected for changes in plasma volume due to infusion in order properly to reflect AVP secretion. In conclusion, there was a weak, but significant, negative correlation between CVP and pAVP during the two studies, while during recovery from WIHEM and WIEXP decrements in SAP and MAP correlated significantly and strongly with increases in pAVP. It is therefore concluded that it is the arterial baroreceptors rather than the cardiopulmonary mechanoreceptors which are of importance in AVP regulation in man.     

Determinants of the natriuresis after acute, slow sodium loading in conscious dogs

The relative importance of systemic volume, concentration, and pressure signals in sodium homeostasis was investigated by intravenous infusion of isotonic (IsoLoad) or hypertonic (HyperLoad) saline at a rate (1 micromol Na(+) x kg(-1) x s(-1)), similar to the rate of postprandial sodium absorption. IsoLoad decreased plasma vasopressin (-35%) and plasma ANG II (-77%) and increased renal sodium excretion (95-fold), arterial blood pressure (DeltaBP; +6 mmHg), and heart rate (HR; +36%). HyperLoad caused similar changes in plasma ANG II and sodium excretion, but augmented vasopressin (12-fold) and doubled DeltaBP (+12 mm Hg) without changing HR. IsoLoad during vasopressin clamping (constant vasopressin infusion) caused comparable natriuresis at augmented DeltaBP (+14 mm Hg), but constant HR. Thus vasopressin abolished the Bainbridge reflex. IsoLoad during normotensive angiotensin clamping (enalaprilate plus constant angiotensin infusion) caused marginal natriuresis (9% of unclamped response) despite augmented DeltaBP (+14 mm Hg). Cessation of angiotensin infusion during IsoLoad immediately decreased BP (-13 mm Hg) and increased glomerular filtration rate by 20% and sodium excretion by 45-fold. The results suggest that fading of ANG II is the cause of acute "volume-expansion" natriuresis, that physiological ANG II deviations override the effects of modest systemic blood pressure changes, and that endocrine rather than hemodynamic mechanisms are the pivot of normal sodium homeostasis.     

Reflex responses to reductions in functioning renal mass

Both acute unilateral nephrectomy (AUN) and unilateral ureteral obstruction (UUO) result in an acute increase in cation excretion from the contralateral kidney. AUN results in reflex changes in systemic hemodynamics owing to an acute and transient increase in arterial pressure that activates carotid sinus baroreceptors and constitutes an afferent limb in the reflex; hemodynamic adjustments and increased cation excretion result. The reflex involves participation of the endogenous opioid system, with receptors located primarily in the central nervous system, and requires intact pituitary function because both hypophysectomy and pretreatment with large doses of dexamethasone prevent the postnephrectomy natriuresis. The natriuresis is closely correlated with an increase in the plasma concentration of the NH2-terminal fragment of the pituitary peptide precursor molecule proopiomelanocortin, which suggests that such a peptide could participate directly or indirectly in the postnephrectomy natriuresis. Surgical denervation of either the ipsilateral or the contralateral kidney markedly alters the response to AUN, which prevents the natriuresis and blunts the kaliuresis, and indicates a role for renal neural reflexes. Renorenal reflex pathways also mediate the response of the contralateral kidney to UUO, because denervation of either the ipsilateral (obstructed) or the contralateral kidney abolishes both the natriuresis and kaliuresis usually seen after UUO. This reflex also involves the endogenous opioid system, for it does not occur in rats receiving an i.v. infusion of the opiate receptor antagonist naloxone.     

Studies on the role of the pituitary in the control of atrial natriuretic factor secretion and sodium excretion

Recent work suggests that hypophysectomized (HYPOX) rats show low levels of atrial natriuretic factor (ANF) and an attenuated diuresis and natriuresis to blood volume expansion. The purpose of this was (i) to examine the effect of various hormone replacements on ANF and renal excretion in HYPOX rats and (ii) to compare the renal responses to exogenous ANF in intact and HYPOX rats. Groups of rats received subcutaneous pellet implant of either dexamethasone (DEX), thyroxine (T4), or a placebo. Approximately 1 week later, they were anesthetized and subjected to a 20% blood volume expansion. DEX rats had a higher mean arterial pressure than placebo-treated rats while both MAP and heart rate were higher in T4 rats. Only the DEX rat showed augmented renal responses to volume expansion while no group showed significant changes in plasma ANF concentration during volume expansion. In a second series, groups of HYPOX rats received renal capsular transplants of either six hemi-pituitaries or six pieces of muscle which markedly raised serum prolactin levels in the hemi-pituitary group. The hemi-pituitary rats showed a greater diuresis and natriuresis during volume expansion than the muscle group and also showed a transient increase in plasma ANF. In addition, groups of either intact or HYPOX rats were anesthetized and received intravenous bolus injections of ANF. Both intact and HYPOX rats showed a very similar diuresis and natriuresis to exogenous ANF. However, potassium excretion was markedly reduced in HYPOX rats. The results show that DEX augments the renal responses to volume expansion by some mechanism which does not involve changes in plasma ANF. Thyroxine increases mean arterial pressure and heart rate in HYPOX rats but does not augment the renal or ANF responses to volume expansion. Chronic elevations in prolactin increase the renal response to volume expansion. Finally, the kidneys of HYPOX rats are capable of increasing sodium and water output in response to large doses of exogenous ANF.     

Volume expansion natriuresis during servo control of systemic blood pressure in conscious dogs

The importance of arterial blood pressure (BP) and ANG II for the renal natriuretic response (NaEx) to volume expansion (3.5% body wt) was investigated during converting enzyme blockade (enalaprilate, 2 mg/kg). In separate experiments, BP was clamped either 30 mm Hg above or a few millimeters mercury below baseline by servo-controlled infusion of ANG II or sodium nitroprusside, respectively, so that volume expansion did not change BP. Enalapril decreased BP by 8 mm Hg. Without clamping, volume expansion returned BP to that of preenalapril control and increased NaEx 10-fold (40+/-10 to 377+/-69 micromol/min). During high pressure clamping (133+/-2 mm Hg), peak NaEx after volume expansion was 6% of control experiments. During low pressure clamping, NaEx was 68% of control experiments (45+/-15 to 256+/-64 micromol/min). The results show that 1) in absence of ANG II, volume expansion elicited pronounced natriuresis without increases in BP beyond baseline, 2) in the presence of hypertensive amounts of ANG II, the volume expansion-induced natriuresis was almost eliminated, and 3) nitroprusside prevented the increase in BP but not sodium excretion during volume expansion. ANG II appears to dominate the control of NaEx; however, when absent, volume expansion may still induce marked natriuresis even at constant BP, possibly via nitric oxide-mediated mechanisms.     

Hemodynamic and renal effects of low-dose brain natriuretic peptide infusion in humans: a randomized,placebo-controlled crossover study

Brain natriuretic peptide (BNP) is a cardiac hormone with natriuretic activity. The aim of this study was to investigate the cardiovascular effects of pathophysiological levels of BNP on central hemodynamics, cardiac function, renal hemodynamics and function, and microvascular hemodynamics in healthy subjects. In this double-blind, placebo-controlled crossover study, we intravenously infused BNP (4 pmol. kg-1. min-1) or placebo for 1 h on two separate days in 12 healthy subjects (mean age, 60 +/- 5 yr). Nailfold and conjunctival capillary density, finger-skin (thermoregulatory) microvascular blood flow, and cardiac output were studied before and after infusion using intravital videomicroscopy, laser-Doppler fluxmetry, and echocardiography, respectively. Furthermore, during infusion, we measured the effective renal plasma flow and glomerular filtration rate using p-aminohippurate and inulin clearances. Blood pressure and heart rate were monitored for all measurements. Compared with placebo, BNP significantly decreased stroke volume with a tendency to decrease cardiac output. With subjects in the sitting position, mean arterial pressure decreased and heart rate increased after BNP infusion, whereas with subjects in the supine position, these variables remained unchanged. BNP increased natriuresis, diuresis, glomerular filtration rate, filtration fraction, and filtered load of Na+ compared with placebo, whereas effective renal plasma flow did not change. BNP did not affect the microvascular capillary density of conjunctiva and skin, microvascular blood flow, total skin oxygen capacity, and postocclusive recruitment. These results suggest that BNP has predominantly central and renal hemodynamic effects; however, it does not influence peripheral microcirculation in skin and conjunctiva.     

Natriuresis and carbohydrate-induced antinatriuresis in fasted, hydrated hypertensives.

After an overnight fast and oral hydration with water, hypertensive subjects developed a significant natriuresis (mean urine sodium excretions increased from 130 to 291 mueq/min. The incidence of a natriuresis (greater than 200 mueq sodium excreted per minute) was 75% in the hypertensive group (16 subjects) compared to 27% in a previously studied normotensive group (22 subjects). The incidence of a carbohydrate-induced antinatriuresis (greater than 30% decrease in urinary sodium excretion) was 62% in the hypertensive group compared to 41% in the normotensive group. No decrease in plasma volume (131I-labeled albumin concentration) due to a shift of solute and water intracellularly could be documented to explain the antinatriuretic effect of glucose. An incidental observation was a significant decrease in plasma zinc concentrations after glucose ingestion.     

Natriuresis induced by mild hypernatremia in humans

The hypothesis that increases in plasma sodium induce natriuresis independently of changes in body fluid volume was tested in six slightly dehydrated seated subjects on controlled sodium intake (150 mmol/day). NaCl (3.85 mmol/kg) was infused intravenously over 90 min as isotonic (Iso) or as hypertonic saline (Hyper, 855 mmol/l). After Hyper, plasma sodium increased by 3% (142.0 +/- 0.6 to 146.2 +/- 0.5 mmol/l). During Iso a small decrease occurred (142.3 +/- 0.6 to 140.3 +/- 0.7 mmol/l). Iso increased estimates of plasma volume significantly more than Hyper. However, renal sodium excretion increased significantly more with Hyper (291 +/- 25 vs. 199 +/- 24 micromol/min). This excess was not mediated by arterial pressure, which actually decreased slightly. Creatinine clearance did not change measurably. Plasma renin activity, ANG II, and aldosterone decreased very similarly in Iso and Hyper. Plasma atrial natriuretic peptide remained unchanged, whereas plasma vasopressin increased with Hyper (1.4 +/- 0.4 to 3.1 +/- 0.5 pg/ml) and decreased (1.3 +/- 0.4 to 0.6 +/- 0.1 pg/ml) after Iso. In conclusion, the natriuretic response to Hyper was 50% larger than to Iso, indicating that renal sodium excretion may be determined partly by plasma sodium concentration. The mechanism is uncertain but appears independent of changes in blood pressure, glomerular filtration rate, the renin system, and atrial natriuretic peptide.     

Regulation of arterial pressure: role of pressure natriuresis and diuresis

The importance of the renal pressure natriuresis and diuresis mechanisms in long-term control of body fluid volumes and arterial pressure has been controversial and difficult to quantitate experimentally. Recent studies, however, have demonstrated that in several forms of chronic hypertension caused by aldosterone, angiotensin II (AngII), vasopressin, or norepinephrine and adrenocorticotropin, increased renal arterial pressure is essential for maintaining normal excretion of sodium and water in the face of reduced renal excretory capability. When renal arterial pressure was servo-controlled in these models of hypertension, sodium and water retention continued unabated, causing ascites, pulmonary edema, or even complete circulatory collapse within a few days. Apparently, other mechanisms for volume homeostasis, such as the various natriuretic and diuretic factors that have been postulated, are not sufficiently powerful to maintain fluid balance in the absence of increased renal arterial pressure when renal excretory function is reduced in these forms of hypertension. The intrarenal mechanisms responsible for pressure natriuresis and diuresis are not entirely clear, but they seem to involve small increases in glomerular filtration rate and filtered load as well as reductions in fractional reabsorption in proximal and distal tubules. During chronic disturbances of arterial pressure additional factors, especially changes in AngII and aldosterone formation, act to amplify the effectiveness of the basic renal pressure natriuresis and diuresis mechanisms in regulating arterial pressure and body fluid volumes.     

Effect of stilboestrol on sodium balance,cardiac state,and renin-angiotensin-aldosterone activity in prostatic carcinoma.

A prospective study examined the sequential effects of diethylstilboestrol (stilboestrol) on sodium balance, cardiac state, and renin-angiotensin-aldosterone activity in six patients with metastatic carcinoma of the prostate. Whereas metabolic balance studies did not show evidence of sodium retention during the first seven days of treatment, there was a significant and progressive increase in plasma volume after three months (mean increase 541 ml; p less than 0.01). Stilboestrol increased supine plasma renin and angiotensin II values but the response of renin-angiotensin-aldosterone activity to erect posture was progressively reduced during treatment. No significant changes in blood pressure or indices of cardiac function occurred during the three months of observation. The findings of increased basal renin-angiotensin-aldosterone activity and an increase in plasma volume suggest an important mechanism of the cardiac complications associated with oestrogen treatment.     

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.     

Altered renal sodium handling in spontaneously hypertensive rats (SHR) after hypertonic saline intracerebroventricular injection: role of renal nerves

The mechanism by which blood pressure rises in the SHR strain remains to be elucidated. Also, there is a surprising lack of experimental data on the natriuretic mechanisms induced by intracerebroventricular (ICV) injection of hyperosmotic saline (HoS) in SHR. In normotensive animals ICV injection of HoS causes coordinated responses including natriuresis and inhibition of renal sympathetic nerve activity. In the present study, we hypothesized that presumable blunting of the sympathoinhibitory response to centrally injected HoS may contribute to a lack of suppression of efferent renal nerve outflow in SHR. To test this hypothesis, the present study evaluates the influence of renal denervation after central HoS injection at increasing concentration on urinary sodium handling in SHR compared with age-matched normotensive WKy rats. The study confirmed previous data showing pronounced natriuretic response to centrally HoS stimuli but also demonstrated that the creatinine clearance (C(Cr)) and fractional sodium excretion responses diminished as graded NaCl concentrations were increased in WKy rats but not in SHR. In SHR, increased FE(Na) obtained by central administration of 0.90 M NaCl was produced by increases in proximal (FEP(Na)) and post-proximal fractional urinary sodium rejection without changes in C(Cr), indicating a direct tubular effect. Renal denervation caused significant antinatriuresis by decreased C(Cr) and increased FEP(Na) reabsorption in WKy but not in SHR. This study suggests that natriuresis observed only after higher centrally HoS stimuli with a rightward shift of dose-response curve provides evidence of a down-regulation of target organ responsiveness of periventricular areas of genetic hypertensive rats.     

兔室旁核对血量扩张引起促纳排泄与利尿的作用

在室旁核 (PVN)假损毁兔与PVN损毁兔血量扩张 (VE)引起尿流量增加 ,峰值分别为 0 5 9± 0 0 9与0 3 1± 0 0 3ml/min (P <0 0 1) ,排钠量增加峰值分别为 66 76± 6 74与 3 6 0 5± 3 4 4μmol/min (P <0 0 1) ,而在PVN假损毁兔与PVN完好兔对VE的反应无显著差别 (P >0 0 5 ) ,表明PVN损伤可明显减弱VE引起的促钠排泄与利尿效应。颈迷走神经切断并不能改变PVN损伤的上述作用。双侧肾神经切断兔损毁PVN对VE引起促钠排泄效应无显著影响 ,但显著减弱其利尿效应 (P <0 0 2 )。PVN损毁对VE时肾小球滤过率 (GFR)与肾血浆流量 (RPF)无显著影响。结果表明PVN参与VE通过迷走传入神经引起促钠排泄与利尿反应的调节 ,而肾交感传出神经参与其中促钠排泄的作用     

Effects of adrenalectomy and aldosterone on the action of centrally administered rat atrial natriuretic peptide-(99-126)

Intracerebroventricular (i.v.t.) administration of rat atrial natriuretic peptide-(99-126) (rANP) increases urinary volume and sodium excretion, but the mechanism is undefined. A diminished mineralocorticoid effect on the kidneys may explain the natriuretic phenomenon. This hypothesis was tested by i.v.t. rANP injection (1.25 micrograms/5 microliters) in conscious, hydrated rats pretreated beforehand with d-aldosterone (20 micrograms/kg, i.p.). Although the absolute amount of sodium excreted was reduced, aldosterone did not affect rANP-induced sodium output at 1 and 3 h. Rats which were sham-operated or bilaterally adrenalectomized (ADX) after four days were pretreated with aldosterone and given an oral water load followed by i.v.t. rANP or saline. In ADX rats natriuresis and diuresis after rANP were still evident. Our results indicate that the natriuretic effect of i.v.t. rANP is unrelated to plasma levels of mineralocorticoids. Likewise, diuresis and natriuresis can occur in the absence of the adrenal glands.