Age-dependent degradation of calpastatin in kidney of hypertensive rats

Hypertensive rats from the Milan strain show a significant decrease in calpastatin activity as compared with normotensive control animals. Calpastatin deficiency is age-related and highly relevant in kidney, heart, and erythrocytes and of minor entity in brain tissue. In normotensives the changes during aging in the levels of calpastatin activity and mRNA are consistent with an increase of calpastatin protein. In hypertensive rats such a relationship during aging is not observed, because a progressive accumulation of mRNA is accompanied by a lower amount of calpastatin protein as compared with control rats. Together with the low level of calpastatin in kidney of hypertensive rats, a progressive accumulation of an active 15-kDa calpastatin fragment, previously shown to represent a typical product of calpain-mediated calpastatin degradation, is also observed. Evidence for such intracellular proteolysis by Ca(2+)-activated calpain is provided by the normalization of the calpastatin level, up to that of control animals, in hypertensive rats treated with drugs known to reduce both blood pressure and intracellular Ca(2+) influx. Further evidence is provided by the disappearance, in these conditions, of the 15-kDa calpastatin fragment. These data allow the conclusion that calpastatin degradation is a relevant part of the overall mechanism for regulating calpain activity.     

Different susceptibility of red cell membrane proteins to calpain degradation.

The presence of low levels of calpastatin activity in erythrocytes of hypertensive rats affects regulation of calpain activity so it is highly susceptible to activation within physiological fluctuations in [Ca2+]. Under identical conditions, in red cells of normotensive rats, calpain activation is efficiently controlled by the high levels of calpastatin activity, and a progressive increase in proteinase activity can only be observed in parallel with a decrease in the level of calpastatin. In intact erythrocytes from hypertensive rats exposed to small variations in [Ca2+], degradation of anion transport protein (band 3) and Ca(2+)-ATPase appears as a primary event indicating that these two transmembrane proteins are probably early recognized as targets of intracellular calpain activity. Furthermore, band 3 protein seems to be structurally modified in erythrocytes from hypertensive rats, as indicated by its increased susceptibility to degradation in the presence of 10-50 microM Ca2+. In addition, when exposed to progressive and limited increases in [Ca2+], erythrocytes from hypertensive rats, but not those from normotensive rats, show a high degree of fragility that can be restored to normal values by inhibition of calpain. These results indicate that, within fluctuations in [Ca2+] close to physiological values, regulation of calpain activity is efficiently accomplished in normal erythrocytes but is completely lost in cells from hypertensive animals. Regulation is of critical importance in maintaining normal structural and functional properties of selective red cell membrane and cytoskeletal proteins, among which band 3 and Ca(2+)-ATPase appear to be the substrates with highest susceptibility to digestion by calpain.     

Decreased level of calpain inhibitor activity in kidney from Milan hypertensive rats

Rat kidney contains two different calpain isozymes distinguishable on the basis of their Ca2+ requirement and of their activation mechanisms. The two calpain isozymes are present in comparable amounts in kidney of normotensive and hypertensive rats of the Milan strain. Conversely, the level of the natural inhibitor of calpain is significantly decreased in kidney of hypertensive rats as compared to control normotensive rats. This deficiency is more pronounced in the cortical region than in other kidney fractions. These results taken together with previous observations indicating the existence of an identical defect in red cells from the same hypertensive rat strain, (Pontremoli, S., Melloni, E., Salamino, F., Sparatore, B., Viotti, P., Michetti, M., Duzzi, L., and Bianchi, G. (1986) Biochem. Biophys. Res. Commun. 138, 1370-1375) emphasize the possible role of an unbalanced intracellular proteolytic system in the development of genetically determined hypertension.     

Effect of hypertension on angiotensin-(1-7) levels in rats with different angiotensin-I converting enzyme polymorphism

To determine circulating angiotensin-(1-7) [Ang-(1,7)] levels in rats with different angiotensin converting enzyme (ACE) genotypes and to evaluate the effect of hypertension on levels of this heptapeptide, plasma levels of angiotensin II (Ang II) and Ang-(1-7) were determined by HPLC and radioimmunoassay in (a) normotensive F0 and F2 homozygous Brown Norway (BN; with high ACE) or Lewis (with low ACE) rats and (b) in hypertensive F2 homozygous male rats (Goldblatt model). Genotypes were characterized by PCR and plasma ACE activity measured by fluorimetry. Plasma ACE activity was 2-fold higher (p < 0.05) in homozygous BN compared to homozygous Lewis groups. In the Goldblatt groups, a similar degree of hypertension and left ventricular hypertrophy was observed in rats with both genotypes. Plasma Ang II levels were between 300-400% higher (p < 0.05) in the BN than in the Lewis rats, without increment in the hypertensive animals. Plasma Ang-(1-7) levels were 75-87% lower in the BN rats (p < 0.05) and they were significantly higher (p < 0.05) in the hypertensive rats from both genotypes. Plasma levels of Ang II and Ang-(1-7) levels were inversely correlated in the normotensive rats (r = -0.64; p < 0.001), but not in the hypertensive animals. We conclude that there is an inverse relationship between circulating levels of Ang II and Ang-(1-7) in rats determined by the ACE gene polymorphism. This inverse relation is due to genetically determined higher ACE activity. Besides, plasma levels of Ang-(1-7) increase in renovascular hypertension.     

Characterization of the calpastatin defect in erythrocytes from patients with essential hypertension

In erythrocytes of patients with essential hypertension the level of calpastatin activity was found to be significantly lower than in red cells of normotensive subjects (1). We now demonstrate, by Western blot analysis, that the decreased inhibitory activity is due to a corresponding decrease in the amount of the inhibitor protein. This is also supported by the observation that calpastatins isolated and purified from erythrocytes of normotensive and hypertensive patients, have identical specific activity. Data are presented indicating that the decreased level of calpastatin cannot be ascribed to an accelerated decay of the inhibitor during the erythrocyte life span. Taken together the previous and present results further emphasize that an umbalanced proteolytic system may represent one of the molecular mechanisms responsible for those membrane abnormalities underlying the development of essential hypertension and its clinical complications.     

A review of changes in vascular smooth muscle functions in hypertension: isolated tissue versus in vivo studies

The role of altered vascular smooth muscle function in the etiology of essential hypertension has been extensively studied by a number of investigators. The results obtained from in vivo studies do not always correlate with results from in vitro studies and it is not always apparent whether the results reflect differences related to hypertension or to the genetic background of the animal model. In vitro and perfused vascular bed studies in our laboratory have utilized the spontaneously hypertensive rat (SHR), the normotensive Wistar Kyoto rat (WKY), genetically related crossbred rats (F1, F2, and BC1), and also Dahl salt-sensitive (DS) and salt-resistant (DR) rats. The role of altered smooth muscle function in relation to the development of the elevated blood pressure (BP) of the SHR or DS rat was studied and emphasis was placed on determining the role of altered neuronal uptake1 (U1) in hypertensives in masking elevated postsynaptic sensitivity to noradrenaline. In addition, the relationship between postsynaptic sensitivity to cations and BP was assessed. Such studies have indicated that alterations in postsynaptic sensitivity, U1 activity, and sensitivity to cations are not entirely consistent with the etiology of hypertension in the SHR and DS rat but may simply reflect genetic strain differences between the hypertensive and normotensive animals.     

Increased Na pump activity in the kidney cortex of the Milan hypertensive rat strain

The (Na+,K+)-ATPase activity from the kidney cortex of the Milan hypertensive rat strain (MHS) and the corresponding normotensive control (MNS) was measured both in active solubilized enzyme preparations and in isolated basolateral membrane vesicles. Kinetic analysis of the purified enzyme showed that the Vmax value was significantly higher in MHS rats. The difference between MHS and MNS was not linked to a different number of sodium pumps, but was related to the molecular activity of the enzyme. Using basolateral membrane vesicles, an increased ATP-dependent ouabain-sensitive sodium transport was also demonstrated in MHS rats. These results support the hypothesis that a higher tubular sodium reabsorption may be involved in the pathogenesis of hypertension in this rat strain.     

Influence of ovariectomy on cardiac oxidative stress in a renovascular hypertension model

The aim of this study was to evaluate the potential influence of endogenous ovarian hormones on cardiac oxidative stress in renovascular hypertension. Female Wistar rats (N = 10 per group) were divided among 4 groups: (i) normotensive control; (ii) hypertensive control; (iii) normotensive ovariectomized; and (iv) hypertensive ovariectomized rats. To induce hypertension, 2-kidney 1-clip (2K1C) Goldblatt's method was followed. Blood pressure (BP) was enhanced (25%) in 2K1C and it was not further altered in hypertensive ovariectomized animals. Lipid peroxidation (measured by thiobarbituric acid reactive substances; TBARS) increased in heart homogenates after ovariectomy (253%) and was additionally augmented when associated with hypertension (by 28%). Superoxide dismutase and catalase activities were similar in both hypertensive groups. Hypertension enhanced glutathione peroxidase activity (75%), but the association with ovariectomy prevented this change. Total radical trapping antioxidant potential (TRAP) decreased in hypertensive rats (34%) and was recovered when associated with ovariectomy. However, this adaptation seems not to be sufficient to avoid the increased oxidative damage in ovariectomized hypertensive animals. These results suggest a protective role for physiological ovarian hormones in the cardiac oxidative stress induced by 2K1C hypertension.     

Kidney kallikrein and phospholipase activities in Milan spontaneously hypertensive rats

Renal kallikrein and phospholipase activities were evaluated in a strain of spontaneously hypertensive rats developed by Dr. Bianchi in Milan (MHR). MHR showed lower than normal kallikrein and phospholipase activities before, at 3 weeks of age and following the development of hypertension. Kallikrein and phospholipase activities were directly correlated both in normotensive and spontenously hypertensive rats. The data suggest that MHR have a genetic defect in kallikrein and phospholipase activities, which may play a pathogenetic role in the development of high blood pressure.     

Effect of experimentally-induced hypertension on angiotensin converting enzyme activity in the aortic endothelium and smooth muscle cum adventitia of the Sprague Dawley rat.

The effect of experimentally-induced hypertension on the angiotensin converting enzyme (ACE) activity in the endothelium and smooth muscle cum adventitia of the Sprague Dawley rats was investigated. The ACE activity in both tissues of the 1-clip 2-kidney renovascular hypertensive rats and the deoxycorticosterone acetate/salt hypertensive rats were significantly higher than those of the normotensive control. These findings (i) support the suggestion that the 1-clip 2-kidney renovascular hypertensive rat represents a model of renin- and angiotensin-dependent hypertension and that the increased vascular ACE activity could play a role in the maintenance of hypertension (ii) provide new information regarding the association of increased vascular ACE activity and hypertension in the mineralocorticoid/salt treated hypertensive rats which may account for the finding by others that captopril is effective in preventing the development of hypertension in this low renin model of hypertension. On the other hand, the data also bring forth the possibility that the observed increase in vascular ACE activity could be the result of hypertension.     

Ontogenetic development of isoproterenol subsensitivity of myocardial adenylate cyclase and beta-adrenergic receptors in spontaneously hypertensive rats

[3H]Dihydroalprenolol binding and adenylate cyclase activity in the myocardial membranes of Kyoto Wistar normotensive rats and spontaneously hypertensive rats were compared at various stages of postnatal development ranging from 2 to 36 weeks. Basal as well as agonist-stimulated myocardial adenylate cyclase activity was consistently decreased in spontaneously hypertensive rats as compared to normotensive rats as early as 2 weeks of age with significant differences (P < 0.05) observed after 6 weeks of age. When results were expressed as percent stimulation over the basal activity, only isoproterenol plus GTP-stimulated enzyme activity was reduced by 25--30% in spontaneously hypertensive rats, suggesting a specific loss of stimulation by isoproterenol in hypertensive animals. The number of [3H]dihydroalprenolol binding sites of KD for dihydroalprenolol binding were comparable between spontaneously hypertensive and normotensive rats at 3, 6 and 12 weeks of age. The competition of isoproterenol with [3H]dihydroalprenolol for the specific binding sites showed that the affinity of isoproterenol binding was decreased 3--4-fold in spontaneously hypertensive compared with normotensive rats. With postnatal development in age, basal as well as agonist-stimulated activities decreased progressively in both spontaneously hypertensive and normotensive rats. Similarly, the number of [3H]dihydroalprenolol binding sites decreased with the development in age, whereas affinity of dihydroalprenolol binding increased up to 12 weeks of age. These results therefore suggest that adenylate cyclase activity and the number of beta-adrenergic receptors in rat heart, decrease with age and that in hypertension, specific decrease in isoproterenol stimulation of cyclase appears at all stages of development.     

Captopril normalises systolic blood pressure in rats with hypertension induced by fetal exposure to maternal low protein diets

Recent studies have demonstrated that the feeding of low protein diets to rats during pregnancy induces hypertension in their offspring. Maternal-diet-induced hypertension has been previously associated with elevated pulmonary angiotensin converting enzyme (ACE) activity. In the present study, the importance of the renin angiotensin system, and in particular ACE, in the maintenance of the hypertensive state, is investigated. Pulmonary and plasma ACE activity were determined in rats of different ages, following in utero exposure to 18 (control) or 9% (deficient) casein diets. No maternal diet induced changes in pulmonary ACE were noted, but at 4 and 13 weeks of age, plasma ACE activity was increased by 34 and 134%, respectively in 9% casein exposed rats relative to controls (P<0.001). Thirteen-week-old rats had significantly raised systolic blood pressure (28 mmHg, P<00.05), and tended to have higher diastolic blood pressure (not significant). These hypertensive animals had slightly raised plasma angiotensin II concentrations (30% higher, not significant), but similar renin activities, when compared with normotensive controls. Treatment of normotensive and hypertensive rats with the ACE inhibitor captopril demonstrated that higher plasma ACE activity may play a major role in the maintenance of maternal-diet-induced hypertension. Whilst normotensive rats showed no significant response to drug treatment, systolic blood pressure in the hypertensive rats fell rapidly to the level observed in the normotensive control group. Blood pressure remained at this lower level until treatment was withdrawn, at which time pressure began to increase slowly, but steadily. A period of 7–8 weeks was required following cessation of captopril administration for the restoration of hypertension.The data are consistent with the hypothesis that components of the renin-angiotensin system, and in particular plasma ACE, are involved in the maintenance of maternal-diet-induced hypertension.     

Feeding blueberry diets inhibits angiotensin II-converting enzyme (ACE) activity in spontaneously hypertensive stroke-prone rats

Feeding flavonoid-rich blueberries to spontaneously hypertensive stroke-prone rats (SHRSP) lowers blood pressure. To determine whether this is due to inhibition of angiotensin-converting enzyme (ACE) activity, as seen with other flavanoid-rich foods, we fed blueberries to SHRSP and normotensive rats and analyzed ACE activity in blood and tissues. After 2 weeks on a control diet, the hypertensive rats showed 56% higher levels of ACE activity in blood as compared with the normotensive rats (p < 0.05). Feeding a 3% blueberry diet for 2 weeks lowered ACE activity in the SHRSP (p < 0.05) but not the normotensive rats. ACE activity in plasma of SHRSP was no longer elevated at weeks 4 and 6, but blueberry feeding inhibited ACE in SHRSP after 6 weeks. Blueberry diets had no effect on ACE activity in lung, testis, kidney, or aorta. Our results suggest that dietary blueberries may be effective in managing early stages of hypertension, partially due to an inhibition of soluble ACE activity.     

Enhanced Assymetrical Noradrenergic Transmission in the Olfactory Bulb of Deoxycorticosterone Acetate-Salt Hypertensive Rats

The ablation of olfactory bulb induces critical changes in dopamine, and monoamine oxidase activity in the brain stem. Growing evidence supports the participation of this telencephalic region in the regulation blood pressure and cardiovascular activity but little is known about its contribution to hypertension. We have previously reported that in the olfactory bulb of normotensive rats endothelins enhance noradrenergic activity by increasing tyrosine hydroxylase activity and norepinephrine release. In the present study we sought to establish the status of noradrenergic activity in the olfactory bulb of deoxycorticosterone acetate (DOCA)-salt hypertensive rats. Different steps in norepinephrine transmission including tyrosine hydroxylase activity, neuronal norepinephrine release and uptake were assessed in the left and right olfactory bulb of DOCA-salt hypertensive rats. Increased tyrosine hydroxylase activity, and decreased neuronal norepinephrine uptake were observed in the olfactory bulb of DOCA-salt hypertensive rats. Furthermore the expression of tyrosine hydroxylase and its phosphorylated forms were also augmented. Intriguingly, asymmetrical responses between the right and left olfactory bulb of normotensive and hypertensive rats were observed. Neuronal norepinephrine release was increased in the right but not in the left olfactory bulb of DOCA-salt hypertensive rats, whereas non asymmetrical differences were observed in normotensive animals. Present findings indicate that the olfactory bulb of hypertensive rats show an asymmetrical increase in norepinephrine activity. The observed changes in noradrenergic transmission may likely contribute to the onset and/or progression of hypertension in this animal model.     

Multinuclear NMR studies of intracellular cations in perfused hypertensive rat kidney.

We have investigated hypertension-associated alterations in intracellular cations in the kidney by measuring intracellular pH, free Mg2+, free Ca2+, and Na+ concentrations in perfused normotensive and hypertensive rat (8-14 weeks old) kidneys using 31P, 19F, and double quantum-filtered (DQ) 23Na NMR. The effects of both anoxia and ischemia on the 23Na DQ signal confirmed its ability to detect changes in intracellular Na+. However, there was a sizable contribution of the extracellular Na+ to the 23Na DQ signal of the kidney. The intracellular free Ca2+ concentration, measured using 19F NMR and 5,5'difluoro-1,2-bis(2-aminophenoxy)ethane N,N,N',N'-tetraacetic acid, also increased dramatically during ischemia; the increase could be partly reversed by reperfusion. No significant differences were found between normotensive and hypertensive kidneys in the ATP level, intracellular pH, intracellular free Mg2+, and the 23Na DQ signal or in the extent of the extracellular contribution to the 23Na DQ signal. Oxygen consumption rates were also similar for the normotensive (5.02 +/- 0.46 mumol of O2/min/g) and hypertensive (5.47 +/- 0.42 mumol O2/min/g) rat kidneys. The absence of a significant difference in intracellular pH, Na+ concentration, and oxygen consumption between normotensive and hypertensive rat kidneys suggests that an alteration in the luminal Na+/H+ antiport activity in hypertension is unlikely. However, a highly significant increase (64%, p less than 0.01) in free Ca2+ concentration was found in perfused kidneys from hypertensive rats (557 +/- 48 nM, blood pressure = 199 +/- 5 mmHg, n = 6) compared with normotensive rats (339 +/- 21 nM, blood pressure = 134 +/- 6, n = 4) indicating altered renal calcium homeostasis in essential hypertension. An increase in intracellular free Ca2+ concentration without an accompanying change in the intracellular Na+ suggests, among many possibilities, that the Ca2+/Mg(2+)-ATPase may be inhibited in the hypertensive renal tissue.     

Ion transport in erythrocytes of Prague hypertensive rat

The Prague hypertensive rat is a unique strain exhibiting genetic hypertension in which a hypertensive line (PHR) was bred in parallel with a normotensive one (Prague normotensive rat--PNR) from the same parental pair. Sodium efflux from Na(+)-loaded erythrocytes into Mg2(+)-sucrose medium was measured in these two strains as well as in spontaneously hypertensive rats (Okamoto-Aoki, SHR) and in normotensive outbred Wistar rats. Kinetic parameters--maximal velocity and apparent dissociation constant (reflecting the affinity for internal sodium)--were calculated. It was found that PHR as well as SHR had a higher Na+ leak and a decreased activity of the ouabain-sensitive Na+ transport as compared to Wistar rats. Furosemide-sensitive Na+ transport was substantially lower in erythrocytes of both hypertensive strains (PHR and SHR) than in the respective normotensive strains (PNR and Wistar).     

Ouabain-sensitive and -insensitive ATPase activities in the kidney and the liver of spontaneously hypertensive rats.

Ouabain-sensitive and-insensitive ATPase activities were measured in the kidneys and the kidneys and the liver of male and female rats of the Lyon hypertensive (LHS) and Lyon normotensive strain (LNS). At the age of 48 +/- 2 weeks, hypertensive rats exhibited a significantly higher blood pressure and body weight than age-matched normotensive rats. Ouabian-insensitive ATPase activity was decreased in the kidney, but not in the liver of hypertensive rats compared to normotensive rats. Ouabian-sensitive ATPase activity was non significantly decreased in the kidney of hypertensive rats.     

The role of prostaglandins in hypertension. I. The release of prostaglandins by aorta strips of renal, DOCA-salt, and spontaneously hypertensive rats

The release of prostaglandin-like (PG-like) material by aorta strips of normotensive and hypertensive rats has been studied in vitro. When incubated in an oxygenated Krebs solution kept at 37 degrees C, aorta strips removed from 8- and 12-week-old spontaneously hypertensive (SH) rats generate 1.2-2.5 times more PG-like material than aorta strips from age-matched normotensive Wistar (NW) rats. The overproduction of PG-like material by aorta strips of SH rats did not precede the development of hypertension in SH rats. Aorta strips derived from renal and DOCA-salt hypertensive rats produced 1.5-3 times more PG-like material than aorta strips from NW rats. The production of PG-like material by aorta strips of renal and DOCA-salt hypertensive rats was largely reduced when hypertension was interrupted in these animals, thus suggesting that the alteration taking place in the arteries of hypertensive rats (namely increased production of PGs) during the development of hypertension was reversible. The production of PG-like material by aorta strips of hypertensive rats was inhibited by indomethacin. Analysis of the PG-like material by bioassays and thin-layer chromatography suggests the presence of PGE2 and PGE1. The possible involvement of these PGs in the pathogenesis of hypertension in rats is discussed.     

Acute angiotensin II increases plasma F2-isoprostanes in salt-replete human hypertensives

Angiotensin (Ang) II induces oxidative stress in vitro and in animal models of hypertension. We tested the hypothesis that Ang II increases oxidative stress in human hypertension, as assessed by plasma F2-isoprostane concentrations. Plasma F2-isoprostanes, hemodynamic and endocrine parameters were measured at baseline and following a 55 min infusion of 3 ng/kg/min Ang II in 13 normotensive and 13 hypertensive volunteers ingesting a high- (200 mmol/d) or low- (10 mmol/d) sodium diet. Mean arterial pressure (MAP) and body mass index were higher in hypertensive subjects. Ang II infusion increased MAP (p<.001) and plasma aldosterone concentrations (p<.001) and decreased plasma renin activity (p<.001) and renal plasma flow (p<.001) to a similar extent in both groups. Plasma F2-isoprostane concentrations were similar at baseline. There was no effect of Ang II on F2-isoprostane concentrations during low-salt intake in either group (normotensive 51.7 +/- 7.1 to 53.7 +/- 6.5 pg/ml and hypertensive 52.2 +/- 8.2 to 56.2 +/- 10.0 pg/ml; mean +/- SE). During high-salt intake, Ang II increased F2-isoprostane concentrations in the hypertensive group (52.3 +/- 7.2 to 63.2 +/- 10.4 pg/ml, p=0.010) but not in the normotensive group (54.2 +/- 4.4 to 58.9 +/- 6.6 pg/ml, p=0.83). Acute Ang II infusion increases oxidative stress in vivo in hypertensive humans. The renin-angiotensin system may contribute to oxidative stress in human cardiovascular disease.     

高血压大鼠不同血管平滑肌肌球蛋白磷酸化和脱磷酸化酶的变化

本文比较了正常和高血压大鼠不同动脉血管肌球蛋白轻链激酶（ＭＬＣＫ）和依赖Ｃａ＾２＋的钙调素磷酸酶（Ｃａ＾２＋／ＣａＭ－ＰＰ）活性的变化。结果表明：在自发性高血压大鼠（ＳＨＲ）不同血管ＭＬＣＫ的活性不同,依次为主动脉（Ａ）〉尾动脉（ＣＡ）〉肠系膜动脉（ＭＡ）;而在ＷＫＹ大鼠,该酶在不同血管的活性依次为Ａ〈〈ＣＡ〈〈ＡＭ。在ＷＫＹ大鼠,ＭＡ Ｃａ＾２＋／ＣａＭ－ＰＰ活性明显高于ＳＨＲ。在肾性高血压大鼠