Renal sodium excretion after oral or intravenous sodium loading in sodium-deprived normotensive and spontaneously hypertensive rats

Spontaneously hypertensive rats (SHR) and normotensive Wistar-Kyoto (WKY) rats that had been on a low sodium diet for 3 days were given 1.5 mmol sodium chloride kg^-1 body weight either orally or intravenously. The rats receiving an oral sodium load showed a greater natriuresis than those receiving the same saline load intravenously. No increase of renal sodium excretion was observed when the rats received a hypertonic mannitol solution orally. The cumulative sodium excretion during the 8 h following oral loading was two to three times larger in SHR than in WKY, whereas no difference between strains could be demonstrated after giving saline intravenously. Furthermore, after switching from normal to low sodium diet the rate of decrease of renal sodium excretion was greater in SHR than in WKY rats. It is proposed that there exists a gastrointestinal sensory mechanism for sodium controlling the renal sodium excretion. Furthermore, it is suggested that the function of this mechanism differs between SHR and WKY.     

Delayed effects of enalapril on structural characteristics of the glomerular apparatus in the kidneys of NISAG rats

Structural characteristics of renal glomeruli were studied in adult hypertensive NISAG rats (hereditary stress-induced hypertension) receiving antihypertensive drug enalapril, an inhibitor of angiotensin-converting enzyme, on days 28–58 of life. Treatment with enalapril (25 mg/kg perorally) in the early period of postnatal ontogeny produced delayed hypotensive and nephroprotective effects. __________ Translated from Byulleten’ Eksperimental’noi Biologii i Meditsiny, Vol. 141, No. 2, pp. 124–127, February, 2006     

The effect of enalapril on the cardiac remodelling in ovariectomized spontaneously hypertensive rats

Angiotensin-converting enzyme inhibitors reduce the blood pressure (BP) and inhibit the generation of the angiotensin II from the inactive angiotensin I. Ten 28-week-old spontaneously hypertensive rats (SHRs) had their ovaries bilaterally removed and five rats were left intact and studied for 7 additional weeks: intact group, ovariectomized group (ovx SHRs) and ovariectomized + enalapril group (ovx + en). BP was higher in ovx SHRs and lower in treated ovx SHRs. Left ventricular (LV) mass index was greater in untreated ovx SHRs and smaller in ovx + en group. The LV cardiomyocyte (cmy) mean cross-sectional area, measured by stereology, was greater in ovx SHRs and smaller in both intact and ovx + en SHRs. Ovx significantly decreased the density of intramyocardial blood vessels (ive), but administration of enalapril was able to restore the density of the ive to that seen in intact group. The worst ive:cmy ratio was found in untreated ovx SHRs, the intact group showed a 90% greater ratio, and the treated ovx group showed a 150% greater ratio than the untreated ovx group. In conclusion, ovariectomy, in SHRs, causes cardiac hypertrophy and an unfavourable myocardial remodelling. Of the spectrum of changes seen, the major effect of enalapril appears to be mediated via an increase in the density of ive.     

Effect of enalapril injected in the early period of postnatal ontogeny on structure of adrenal glands in mature hypertensive NISAG rats

Blood pressure in 6-month hypertensive NISAG rats daily treated with enalapril in the early postnatal period was lower than in control rats. Enalapril produced significant morphological alterations only in the zona glomerulosa of the adrenal cortex. The volumes of this area and the corresponding endocrine cells were lower than in the control. Enalapril produced a delayed modifying effect on the structure of the adrenal zona glomerulosa by moderating hyperplasic alterations, which are characteristic of intact mature NISAG rats. __________ Translated from Byulleten’ Eksperimental’noi Biologii i Meditsiny, Vol. 141, No. 2, pp. 133–136, February, 2006     

依那普利对自发性高血压大鼠心肌ACE和ACE2表达的影响

 目的 观察自发性高血压大鼠(spontaneously hypertensive rats, SHR)心肌的血管紧张素转换酶(angiotensin-converting enzyme, ACE)和ACE2的表达,以及依那普利干预的影响。方法 将15只SHR随机分为2组：SHR对照组(n=7)和依那普利组(n=8),分别给以安慰剂、依那普利15mg.kg-1.d-1灌胃干预4周。干预结束后处死大鼠,分离左心室,行RT-PCR、western blot蛋白质免疫印迹检测。同步取10只WKY大鼠作为正常血压对照组。结果SHR心肌的ACE的mRNA和蛋白质的表达都显著高于)WKY组(1.68±0.34 vs 0.33±0.12, P＜0.05;1.21±0.14 vs 0.71±0.11, P＜0.05),而ACE2 的mRNA和蛋白质表达皆明显低于WKY组(0.50±0.15 vs 1.16±0.24, P＜0.05; 0.71±0.24 vs 1.22±0.14, P＜0.05)。依那普利明显降低ACE的mRNA和蛋白质表达(0.44±0.19 vs 1.68±0.34, P＜0.01; 0.87±0.13 vs 1.21±0.14, P＜0.05),提升ACE2的mRNA表达(1.77±0.49 vs 0.50±0.15, P＜0.05),对ACE2的蛋白表达无明显影响(0.42±0.22 vs 0.71±0.24, P＞0.05)。结论 SHR心肌ACE明显升高,ACE2显著降低,有利于血压上调。依那普利能降低ACE,提升ACE2,可能是血管紧张素转换酶抑制剂(angiotensin-converting enzyme inhibitors, ACEI)的降压机制之一。     

Differential haemodynamic effects of atrial natriuretic peptide (ANP) in normotensive and spontaneously hypertensive rats

Central haemodynamic parameters and cardiac performance were measured in conscious spontaneously hypertensive rats (SHR) and normotensive Wistar Kyoto (WKY) control rats after a 10-min infusion of rat ANP (103-125), 1 micrograms kg-1 min-1. Mean Arterial blood pressure (MAP) decreased by approximately 10% in both groups of rats. Heart rate (HR) increased slightly in both strains during the infusion. In the normotensive group the fall in MAP was due to a reduction in cardiac output (CO) while in the SHR there was a decrease in CO as well as in total peripheral resistance (TPR). The ANP infusion also reduced central blood volume (CBV) and stroke volume (SV) in both groups of rats. The reduction in CBV and CO was significantly more pronounced in the WKY strain. Left ventricular end diastolic pressure (LVEDP) and cardiac contractility (dP/dt) did not change while central venous pressure (CVP) was slightly decreased in the WKY group as a result of the ANP infusion. We conclude that ANP reduces MAP in normotensive animals by a reduction in CO. In the SHR a reduction in TPR also contributes to the fall in MAP. Atrial natriuretic peptide did not exert any negative inotropic effects, but the reduction of CO was due to an increased venous compliance.     

Renoprotective effects of valsartan and enalapril in STZ-induced diabetes in rats

Effects of the angiotensin II type 1 (AT1) receptor antagonist valsartan and the angiotensin-converting enzyme (ACE) inhibitor enalapril were studied in streptozotocine (STZ)-induced diabetes in rats on the basis of microalbuminuria (Ma) and renal morphology. Five groups of Wistar rats were used, one group was the non-diabetic control, one group consisted of untreated STZ-diabetics and 3 groups of STZ-diabetics were treated with either enalapril and/or valsartan for 30 days. Blood glucose (BG) and Ma levels, body and kidney weight and glomerular size were measured. Immunohistochemical staining with an anti-transforming growth factor-beta1 (TGF-beta1) antibody was performed as well. In STZ-diabetics, BG and Ma levels were significantly increased when compared with the non-diabetic group. Although Ma levels in the valsartan-treated group was found to be higher than those in the non-diabetics group after 15 days of treatment, in all treated diabetic groups Ma levels were significantly decreased as compared with STZ-diabetics at the end of the experiment. Thickening of the glomerular and tubular basement membranes, increased mesangial matrix and glomerular size were found in the untreated diabetic group. All these changes were less in the treated groups. A significant increase in TGF-beta1 immunoreactivity was found in glomeruli of untreated STZ-diabetics as compared with non-diabetics. Again, TGF-beta1 expression was decreased in the treated groups as compared with untreated STZ-diabetics. We conclude that valsartan and enalapril have renoprotective effects in diabetic nephropathy. A combined therapy has an advantage because lower dosages of these drugs can be used. Their beneficial effects are related to a blockade of the renin-angiotensin system (RAS) and a decrease in TGF-beta1 expression in glomeruli.     

The distribution of sodium in aortic walls from spontaneously hypertensive and normotensive rats.

The contents of exchangeable sodium, bound sodium and total water and the extracellular space of thoracic aortas from normotensive and spontaneously hypertensive rats were measured. The aortas from the hypertensive rats contained more sodium than those from the normotensive animals while the total water content and extracellular space in the two groups were the same. The capacity to bind sodium in an osmotically inactive form was greater in the aortas from the hypertensives than in those from the normotensives. The difference in binding capacity was of the same order of magnitude as the difference in sodium content, indicating that the excess sodium in the thoracic aortas from the hypertensive rats was osmotically inactive and thus unable to cause water logging.     

Renal dopamine and noradrenaline excretion during CNS‐induced natriuresis in spontaneously hypertensive rats: influence of dietary sodium

Abnormalities in dopamine (DA) and noradrenaline (NA) activities and sodium handling may be involved in the pathogenesis of hypertension. The present study was designed to investigate whether any differences exist between normotensive Wistar–Kyoto rats (WKY) and spontaneously hypertensive rats (SHR) in urinary excretion of DA, NA and sodium after 15 weeks on a low, medium or high sodium diet and during a subsequent elevation of the cerebroventricular fluid sodium concentration (CNS‐induced natriuresis). Seven features were noted: (1) Basal sodium and DA excretion after the diet regimen was correlated to the dietary sodium content in both strains, except that sodium and DA excretion in SHR showed no further increase after the high sodium diet over and above that after medium sodium diet. (2) For any given sodium diet, SHR excreted more DA and NA as compared with WKY. (3) Blood pressure in SHR, as opposed to that in WKY, was higher after medium and high sodium diet than after low sodium diet. (4) During CNS‐induced natriuresis NA excretion decreased or remained unchanged in WKY, but increased in SHR. (5) The DA/NA excretion ratio during CNS‐induced natriuresis increased in WKY while decreased in SHR, which would not favour a natriuretic/vasodilatory response in the latter. (6) The ability of SHR to respond with CNS‐induced natriuresis was attenuated after high sodium diet. (7) The magnitude of CNS‐induced natriuresis was in both strains correlated to the sodium diet; the higher the dietary sodium content, the greater the natriuretic response. In conclusion, the study shows some clear differences in the catecholamine and sodium handling between WKY and SHR which may be involved in the pathogenesis of hypertension in SHR. Furthermore, increased sodium in the diet sensitizes the brain and kidney to increase the ability to respond with natriuresis for a given sodium stimulus.     

Blood pressure and heart rate responses to mental stress in spontaneously hypertensive (SHR) and normotensive (WKY) rats on various sodium diets

Normotensive (WKY) and hypertensive rats (SHR) were, from 5 to 12 weeks of age, given ‘low’ (LNa), ‘control’ and ‘high’ (HNa) Na diets (0.5, 5 and 50 mmol-100 g^-1 food, respectively, during weekly recordings of body weight, conscious indirect systolic blood pressure (SBP) and heart rate (HR). During the last week, mean arterial pressure (MAP) and HR responses to standardized stress stimuli (air jet) were recorded before and after sequential cardiac nerve blockade. While resting, SBP was about equal in all WKY groups, but it was significantly reduced in SHR-LNa (152 mmHg versus 174 and 178 mmHg in SHR controls and HNa; P < 0.05). In both LNa groups HR was elevated nearly 25% compared with controls, being in SHR 513 versus 419 bpm (P < 0.01) and in WKY 489 versus 393 bpm (P < 0.01). Cardiac nerve blockade indicated that this HR elevation was about equally due to elevations of sympathetic activity and ‘intrinsic’ pacemaker activity. SHR-LNa also showed attenuated MAP elevations to acute mental stress. There were, however, no significant differences between groups concerning haematocrit or plasma Na-K levels. The results suggest that SHR have a greater salt requirement than WKY, as Na restriction to one-tenth of normal led to a considerable MAP reduction in SHR despite compensatory sympathetic activation, and also to attenuated pressor responses to mental stress. Further, the cardiovascular effects in SHR were much more extensive when on a low-Na diet than when Na intake was increased tenfold above normal.     

ACE inhibition has adverse renal effects during dietary sodium restriction in proteinuric and healthy rats

Angiotensin-converting enzyme inhibitors (ACEi) provide renoprotection. A low sodium diet enhances their efficacy. However, the added effect of sodium restriction on proteinuria and blood pressure is not invariably associated with better preservation of renal morphology, suggesting that the combination of ACEi with a low sodium diet can elicit renal structural abnormalities. To test this hypothesis, the effects of ACEi in combination with a control (CS) or a low sodium (LS) diet were investigated in healthy rats and in adriamycin nephrotic rats. After 3 weeks of treatment, rats were sacrificed and kidneys examined for renal structural abnormalities. In healthy rats, ACEi reduced blood pressure: the fall in blood pressure was significantly greater in the ACEi/LS group. Renal morphology was normal in the ACEi/CS group but severe interstitial damage was found in the ACEi/LS group. This was associated with increased interstitial macrophage influx and up-regulation of osteopontin, alpha-smooth muscle actin, and collagen III expression. In addition, ACEi/LS induced an increase in the total medial area of afferent arterioles. In nephrotic rats, ACEi/LS reduced both blood pressure and proteinuria, whereas only blood pressure was reduced in the ACEi/CS group. Mild interstitial damage was present in the ACEi/CS group but, strikingly, pronounced tubulo-interstitial abnormalities occurred in the ACEi/LS group, similar to those seen in ACEi/LS healthy rats, with similar changes in afferent arteriolar walls. In conclusion, the combination of ACEi/LS elicits pronounced renal interstitial abnormalities in healthy and nephrotic rats, despite a significant reduction of proteinuria in the latter. Considering their occurrence in healthy rats, these renal adverse effects cannot be due to specific characteristics of adriamycin nephrosis. Further studies should elucidate the mechanisms underlying these observations and their impact on long-term renoprotection.     

Reflex inhibition of sympathetic activity during volume load in awake normotensive and spontaneously hypertensive rats

The reflex inhibition of the sympathetic activity in the splanchnic nerves was recorded upon volume expansion with blood in awake spontaneously hypertensive rats (SHR) and in normotensive Wistar-Kyoto rats (WKR) at an age of 16–20 weeks. At 10% blood volume expansion SHR showed a significantly greater nerve inhibition (43 %) in comparison with WKR (33 %). This augmented reflex response was not caused by the arterial baroreceptors, because the sensitivity of the arterial baroreceptor reflex arch, if anything, tended to be lower in SHR and the increase in arterial blood pressure upon volume load was also lower in SHR. It is suggested that the reason for this increased reflex inhibition in SHR is an augmented low pressure receptor response. The mechanism behind this is discussed. The most likely explanation is a decreased distensibility of the venous system, the systemic andlor the pulmonary veins.     

Satiation evoked by distension of the small intestine in water deprived rats

Rats with chronic Thiry-Vella fistulae were deprived for 23 hours and studied in a free drinking situation. The intestine was distended or electrically stimulated in some of the sessions compared to non-stimulated and sham-stimulated experiments. The cumulative water intake of every 3 min, and the behaviour at 30 sec intervals were recorded. The intestine distended rats drank considerably less than the non-stimulated controls, and the behaviour characteristic of satiety had occurred earlier. This effect was eliminated by local intestinal Tetracaine infusion but not by the infiltration of the abdominal skin. The possible role of the gut distension in satiation is discussed.     

Haemodynamic changes induced by short- and long-term sodium chloride or sodium bicarbonate intake in deoxycorticosterone-treated rats

The contribution of chloride to the haemodynamic changes of salt-dependent deoxycorticosterone (DOC) hypertension was studied in young Wistar rats subjected to dietary loading with sodium chloride (NaCl) or sodium bicarbonate (NaHCO₃). Mean arterial pressure (MAP), cardiac output, systemic resistance (TPR) and arterial rigidity (estimated from pulse pressure/stroke volume ratio, PP/SV) were determined in conscious chronically cannulated rats. DOC-induced increase of MAP and TPR appeared earlier in NaCl-loaded than in NaHCO₃-loaded rats. After 4–6 weeks of hypertensive treatment MAP, TPR and PP/SV ratio were higher in DOC-treated rats fed NaCl diet than in those fed NaHCO₃ diet. In contrast, after a long-term hypertensive regimen (lasting for 7–9 weeks) there was no significant difference in either MAP or TPR between rats loaded with NaCl or NaHCO₃. On the other hand, DOC hypertension induced by a long-term feeding of NaHCO₃ diet was not associated with an increase of arterial rigidity which was characteristic for DOC-NaCl hypertensive rats. Thus, a sufficiently long selective dietary sodium loading is capable to increase the systemic resistance but not to alter the arterial rigidity. This was also confirmed by a comparison of blood pressure-matched DOC hypertensive rats fed NaCl or NaHCO₃ diets. These animals did not differ in the degree of systemic resistance elevation but the arterial rigidity was increased only in NaCl-loaded rats.     

Induction of cardiac angiotensin I-converting enzyme with dietary NaCl-loading in genetically hypertensive and normotensive rats

We have recently shown that the angiotensin I converting enzyme (ACE) gene is linked to NaCl-loaded blood pressure in the stroke-prone spontaneously hypertensive rat (SHRSP), and that high-NaCl loading selectively stimulates ACE in the aorta of SHRSP but not in normotensive Wistar-Kyoto (WKY) rats. We therefore investigated the relationship between cardiac ACE and the development of hypertension and left ventricular hypertrophy in response to normal- and high-NaCl diet in these rats. ACE mRNA and ACE activity were measured in left ventricular tissue after completion of hemodynamic characterization of the animals. While SHRSP rats increased blood pressure (P<0.0001) and heart rate (P<0.005) in response to high NaCl, blood pressure remained unchanged in WKY. Similarly, relative left ventricular weight increased only in SHRSP after high NaCl (P<0.002). A significant two- to threefold increase of cardiac ACE mRNA and fourfold stimulation of ACE enzyme activity in response to high NaCl was found in both WKY and SHRSP rats (P<0.005). The induction of ACE gene expression was significantly more pronounced in SHRSP compared to WKY (P<0.02), whereas no significant strain differences in left ventricular ACE activity were found after either normal- or high-NaCl diet. Thus, arterial blood pressure and left ventricular weight remained unchanged in the WKY rats despite the activation of left ventricular ACE activity after high-NaCl exposure. These results demonstrate that left ventricular ACE activity is equally upregulated in response to high-NaCl in the normotensive and hypertensive strain, independently from the development of hypertension. We conclude that the pretranslational induction of left ventricular ACE with high-NaCl loading may be important both for the regulation of cardiac angiotensins and kinins and for local therapeutic ACE inhibition in the heart during high-salt status.Abbreviations ACE Angiotensin I-converting enzyme - Ang Angiotensin - LVH Left ventricular hypertrophy - PCR Polymerase chain reaction - SHRSP Stroke-prone spontaneously hypertensive rat - WKY Wistar-Kyoto     

The intestinal tract and the pathophysiology of arterial hypertension: an experimental study on Dahl rats

Salt depleted rabbits and humans excrete an oral sodium load more quickly via the kidneys than an intravenous one. This has been ascribed to the presence of a sodium sensor in the gastrointestinal tract which in some way can influence renal function. The purpose of this study was to investigate this response in the Dahl rats. Renal and faecal sodium excretion was followed in the two strains of rats (normotensive, saltresistant (SR/Jr) and hypertensive, saltsensitive (SS/Jr) rats). After 4 days on a low salt diet they were given NaCl(l.5 mmol kg^-1 body wt) either by gavage or intravenously. SR/Jr rats showed an increased renal sodium excretion both after oral and intravenous sodium repletion. The excretion was 2–3 times greater after the oral than after the intravenous administration. The SS/Jr rats augmented their renal sodium excretion only after the oral load, although the sodium excretion was significantly less than in SR/Jr rats. In fact, during the first 8 h after giving sodium orally the renal excretion of sodium was on an average eight times larger in the SR/Jr than in the SS/Jr rats. Renal excretion of sodium was similar in the two strains after intravenous administration. We conclude that the hypertensive SS/Jr rats have great difficulties in excreting an oral sodium load, a phenomenon that may be of importance in the pathophysiology of arterial hypertension in this strain of rats.     

Naloxone effects on blood pressure,analgesia and diuresis in spontaneous hypertensive and normotensive rats

Studies were performed in unanesthetized normotensive and spontaneously hypertensive rats (SHR) to compare the effects of naloxone. In normotensive Wistar rats, naloxone did not change blood pressure (BP) and nociceptive threshold, but it induced a dose-related diuretic response. Whereas in SHR naloxone decreased nociceptive threshold and lowered BP when given intracerebroventricularly, it failed to significantly modify diuresis. These differences between hypertensive and normotensive rats in their responses to naloxone may be explained by the fact that vasopressin (VP) levels and opioid activity are different in SHR.     

Trophic effects of hypophyseal hormones on resistance vessels and the heart in normotensive and renal hypertensive rats

Folkow , B., Isaksson , O. G. P., Karlström , G., Lever , A. F. & Nordlander , M. 1992. Trophic effects of hypophyseal hormones on resistance vessels and the heart in normotensive and renal hypertensive rats. Acta Physiol Scand 144 , 291–306. Received 20 June 1991, accepted 7 October 1991. ISSN 0001–6772. Department of Physiology, University of Goteborg, Sweden, and MRC Blood Pressure Unit, Western Infirmary, Glasgow, Scotland, UK. Arterial pressure is an important determinant of cardiovascular structure and relates positively to it. The purpose of this study was to determine whether pituitary hormones influence the relation of pressure and structure. Male Sprague-Dawley rats, aged 5 weeks, were studied in three groups: the first underwent hypophysectomy; the second was hypophysectomized but received replacement therapy with growth hormone and thyroxine; the third served as controls. Four days later half of each group underwent unilateral renal artery clipping, the other half serving as normotensive controls. For 5 weeks estimates were made of systolic blood pressure, heart rate, body weight and plasma renin activity. Rats were then killed; left ventricular, kidney and adrenal weights were determined and, using hindquarter perfusion, estimates were made of resistance at maximal dilatation (reflecting inner radius), and of maximal pressor response (reflecting wall thickness). Results: (1) Hypophysectomy in non-clipped rats reduced growth rate, systolic blood pressure and heart rate while plasma renin activity rose. As related to pressure and to body weight, resistance at maximal dilatation, maximal pressor response, left ventricular weight remained at the juvenile values of a 5-week-old rat. Hormone replacement restored values to those of control rats aged 11 weeks. (2) Clipping in the control group rats increased systolic blood pressure more than in hypophysectomized and growth hormone and thyroxine receiving hypophysectomized groups even though plasma renin activity remained higher in hypophysectomized than in control rats. Plasma renin activity was highest in hypophysectomized rats with highest pressure. (3) Systolic blood pressure related positively to left ventricle weight, resistance at maximal dilatation, maximal pressor response and calculated wall thickness to inner radius ratios in all groups. However, these regressions were all, like renal structural adaptation, considerably depressed in the hypophysectomized group. Hormone replacement restored the relation of structure and pressure towards that of control group rats. Thus, growth hormone and thyroxine influence maturation of the normal cardiovascular system and greatly enhance its structural upward resetting in hypertension.