Incidence of multinucleated and polyploid aortic smooth muscle cells cultured from different age groups of spontaneously hypertensive rats.

Cell size and incidence of multinucleated, polyploid cells in cultured aortic smooth muscle cells from different age groups of spontaneously hypertensive rats (SHR) and normotensive Wistar-Kyoto rats (WKY) were compared. Smooth muscle cells from SHR were generally larger than those from WKY, and the percentage of multinucleated smooth muscle cells was always higher in SHR than WKY in the three age groups of rats studied (3-4, 10-12, and 28-30 weeks). In smooth muscle cells from the 3- to 4-week group, there was a positive correlation between cell diameter and the percentage of multinucleated smooth muscle cells. Microdensitometric measurements also showed that the incidence of polyploid smooth muscle cells was always higher in SHR than WKY in the three age groups. There was a positive correlation between DNA density and nuclear area measurements in all the age groups of SHR and WKY. We conclude that cultured aortic smooth muscle cells from different age groups of SHR and WKY contained heterogeneous populations of cells and that, under our culture conditions, the polyploidy of the smooth muscle cells found in vivo was maintained in the SHR and WKY.     

Dependence of the number of vesicles in vascular smooth muscle cells on the presence of noradrenaline in the extracellular space

Noradrenaline (NA) effect on the number of vesicles in smooth muscle cells was investigated in small mesenteric arteries of spontaneously hypertensive rats (SHR), aged 8 or 12 weeks, and age-matched normotensive Wistar-Kyoto (WKY) rats. The presence of NA in the incubation medium resulted in an increase in the number of vesicles in SHR of both age groups, but not in WKY. The results are discussed in view of the relationship between the vesicles and Ca transport in smooth muscle cells.     

Influence of chronic nadolol treatment on blood pressure and vascular changes in spontaneously hypertensive rats.

Chronic treatment of spontaneously hypertensive rats (SHR) and Kyoto-Wistar normotensive rats (WKY) with nadolol was carried out from gestation until 28 weeks of age. Nadolol treatment caused some lowering of blood pressure but did not prevent the development of hypertension or cardiac hypertrophy in the SHR, in spite of significant beta-blockade. The lumen of large mesenteric arteries from control SHR was smaller than from WKY, and nadolol treatment increased the lumen size in the SHR. An increased number of smooth muscle cell layers present in the control SHR as compared with WKY was reduced slightly by nadolol treatment. However, the changes produced by nadolol did not reach the levels of control and treated WKY. In the aorta, the incidence of polyploid smooth muscle cells was higher in the SHR than the WKY in the control group. Nadolol treatment reduced the percentage of polyploid cells in both SHR and WKY, so that the difference between these two groups of animals was eliminated in the treated groups. The tissue level of norepinephrine in the plasma, heart, mesenteric arteries, and adrenal glands in the SHR and WKY was not affected by the treatment. We suggest that the ineffectiveness of nadolol in preventing hypertension development may be due to its lack of effect in preventing primary changes in the resistance arteries, and that the development of polyploidy of smooth muscle cells may be mediated by beta-receptors.     

Increased medial smooth muscle cell length is responsible for vascular hypertrophy in young hypertensive rats

Large mesenteric arteries from 3- to 4-wk-old spontaneously hypertensive rats (SHR) showed medial hypertrophy and an increased contractile response to various agonists before significant blood pressure increase. Here we determined the cellular nature of this vascular hypertrophy. Large mesenteric arteries from SHR and Wistar-Kyoto (WKY) rats were fixed at maximal relaxation either with an in situ perfusion fixation or an in vitro fixation method. With the use of morphometric protocols and confocal microscopy, the volume of the medial wall and lumen, numerical density of smooth muscle cell nuclei in the medial layer, and smooth muscle cell and nuclear length were measured. Both methods of fixation yielded similar results, showing significant medial volume expansion in SHR than WKY without lumen change. Numerical density of medial smooth muscle cells was significantly less in SHR than WKY, and their total number per 100 microm length were similar between the strains. Average smooth muscle nuclear and cell length from SHR was significantly longer than that of WKY. Regression analysis showed that the increase in smooth muscle cell length explained 80% of the medial volume increase. We concluded that increased smooth muscle cell length in prehypertensive SHR is responsible for increased medial volume in the mesenteric arteries.     

Studies of arterial smooth muscle relaxation in younger (16-18 week) and older (28-31 week) spontaneously hypertensive rats

Both isometric and isotonic relaxation rates have previously been reported to be decreased in caudal arterial and mesenteric resistance arterial smooth muscle from 16- to 21-week-old spontaneously hypertensive rats (SHR) compared with muscle from age-matched normotensive Wistar-Kyoto rats (WKY). An increased maximum velocity of shortening (Vmax) and an increased shortening ability (delta Lmax) have also been reported for arterial smooth muscle from 16- to 21-week-old SHR. It has been suggested that both increased narrowing and prolonged narrowing of arteries contribute to the development of hypertension. However, SHR Vmax is not different from WKY Vmax when studying arterial muscle from older (28- to 31-week-old) rats. Thus increased arterial narrowing ability cannot be a contributing factor to the maintenance of hypertension. In this study the role of relaxation rate in the maintenance of hypertension was examined by comparing the relaxation rates of isometric and isotonic contractions of caudal arterial strips from 16- to 21-week-old SHR (n = 9) and WKY (n = 8) and from 28- to 31-week-old SHR (n = 7) and WKY (n = 5). While relaxation rates were lower for 16- to 21-week-old SHR compared with age-matched WKY preparations for both isometric and isotonic contractions, only isometric relaxation rates were found to be different in 28- to 31-week-old SHR compared with 28- to 31-week-old caudal arterial muscle (p less than 0.05). Vmax tended to normalize from a once-elevated velocity, while isometric relaxation rate remained decreased in SHR with ageing and (or) with progression of the hypertensive condition.(ABSTRACT TRUNCATED AT 250 WORDS)     

Changes of beta-adrenoceptors in the aortic muscle cells of spontaneously hypertensive rats

The characteristics of [125I]monoiodocyanopindolol (ICYP) binding to beta-adrenoceptors of cultured aortic smooth muscle cells derived from 4-week-old spontaneously hypertensive rats (SHR) and the Wistar-Kyoto normotensive rats (WKY) were examined. During optimization of the binding assays, we found that the specific binding of ICYP by intact cells was masked by a high level of nonspecific ICYP accumulation in intact cells presumably owing to the lipophilic nature of ICYP. Optimal specific ICYP binding requires that the cells be gently lysed with hypotonic dilution followed by a freeze-and-thaw cycle. Under most experimental conditions tested, the total number of ICYP binding sites in WKY aortic muscle cells was considerably and consistently smaller than that in SHR cells. There was no difference in the Kd values for ICYP binding to SHR and WKY cells. However, when ICYP binding was carried out using crude membrane fractions with well-defined plasma membrane content isolated from aortic muscle strips of adult rats, we found no difference in the number of beta-adrenoceptor sites between SHR and WKY. Morphological evidence indicated that cultured SHR aortic muscle cells contained a greater proportion of larger cells with multinuclear features. These results suggest that an increase in the number of beta-adrenoceptor density per cell in SHR may be associated with cellular hypertrophy of aortic smooth muscle cells. We conclude that under cultured conditions, a higher incidence of polyploid smooth muscle cells in the SHR as compared with WKY was expressed earlier than under in vivo conditions. Therefore, the interpretation of results obtained from cultured cell studies in relation to under in vivo conditions should be exercised with caution.     

A comparative study on defense systems for lipid peroxidation by free radicals in spontaneously hypertensive and normotensive rat myocardium.

1. Antiperoxidation ability and lipid peroxidation in myocardium were examined in spontaneously hypertensive rats (SHR) and normotensive Wistar-Kyoto rats (WKY) at 6 and 16 weeks of age. 2. Glutathione peroxidase activity was higher in SHR at 6 weeks of age, but lower at 16 weeks compared to that in WKY. alpha-Tocopherol content was lower in SHR at both 6 and 16 weeks of age than in WKY. 3. In vitro formation of free malondialdehyde was more pronounced in SHR myocardium than in WKY. 4. Coincidence of lower antiperoxidation ability and higher peroxidation of membrane phospholipid indicate myocardial cell vulnerability in SHR hypertrophied myocardium.     

The relationship between altered blood vessel structure, hypertension, and the sympathetic nervous system

The relationship between sympathetic innervation and arterial medial development has been examined in normotensive, hypertensive, and diabetic rats. Using the jejunal artery as a model, the number of nerve fibres innervating the artery as determined from fluorescent preparations, and the medial thickness and lumen diameter as measured from resin embedded specimens were correlated from animals prepared in various ways. The rats used were normal Sprague-Dawley (SD), SD with induced hypertension, SD with diabetes induced with streptozotocin, SD sympathectomized with 6-hydroxydopamine, spontaneously hypertensive rats (SHR), SHR treated with capsaicin to prevent hypertension development, Wistar Kyoto rats (WKY), and WKY treated with capsaicin. Examination of the jejunal arteries from these rats at 12 weeks of age following normal development, or 8 weeks of hypertension development, or 8 and 12 weeks of diabetes, showed that increased innervation occurred in the SHR under all conditions, and in the diabetic rats after 8 weeks of diabetes. Medial hypertrophy occurred in the SHR and in the SD hypertensive only. It is concluded that the special relationship which exists between the sympathetic innervation and arterial media in the SHR does not occur during hypertension development in the SD rat, nor is it necessary for normal medial development in the SD rat. The sympathetic innervation does appear to have a trophic influence on vascular smooth muscle of diabetic rats, at least in the early stages of the disease.     

Dietary sodium intake and age in spontaneously hypertensive rats: effects on blood pressure and sympathetic activity

Spontaneously hypertensive rats (SHR) and Wistar-Kyoto rats (WKY) were placed on sodium restricted diets (9 and 17 mumol/g) or on a regular sodium diet (101 mumol/g) at 2, 4, 7, or 10 weeks of age, and continued until 16 weeks of age. Severe sodium restriction (9 mumol/g) initiated at 2 or 4 weeks of age prevented hypertension development in SHR and severely retarded growth. Hypertension development was attenuated when 9 mumol/g was initiated at 7 weeks of age, and was not affected when started at 10 weeks of age. Mean arterial pressure (MAP) in WKY receiving 9 mumol Na/g initiated at 2 and 4 weeks of age was below normal, but was not affected when this diet was given at 7 or 10 weeks of age. Less severe sodium restriction (17 mumol Na/g) resulted in a reduction in hypertension development when initiated at 2, 4, and 7 weeks of age, but not at 10 weeks of age. MAP was normal in WKY receiving 17 mumol Na/g at all ages of diet initiation. When the 9 or 17 mumol Na/g diet were initiated at 2, 4, and 7 weeks of age, the response of blood pressure to hexamethonium administration was blunted in SHR relative to both WKY receiving the same diet, and to control SHR receiving 101 mumol Na/g. We conclude that both WKY and SHR require a minimum amount of dietary sodium for normal growth and for the achievement of normal BP in WKY, and hypertension in SHR. This sodium requirement decreases with age. SHR and WKY exhibit similar sensitivities to sodium intake with respect to body weight, but the effects on BP are more pronounced in SHR. The BP lowering effects of dietary sodium restriction may be due to a blunting of the pressor effectiveness of the sympathetic nervous system.     

Atrial natriuretic polypeptide (ANP) in the development of spontaneously hypertensive rats (SHR) and stroke-prone SHR (SHRSP)

In order to investigate the pathophysiological role of atrial natriuretic polypeptide (ANP) in genetic hypertensive rats, the atrial content and plasma concentration of ANP were measured by a sensitive radioimmunoassay (RIA) for rat ANP in 5-, 10- and 20-week-old spontaneously hypertensive rats (SHR) and stroke-prone SHR (SHRSP) and compared to age-matched Wistar Kyoto rats (WKY). Atrial content of immunoreactive ANP (ir-ANP) tended to be higher in SHR and was already significantly higher in SHRSP than in WKY at 5 weeks of age. Atrial content in the hypertensive strains became significantly higher than in WKY when hypertension developed at 10 and 20 weeks. On the other hand, plasma ir-ANP in SHR was significantly lower than in WKY at 5 weeks, however, it became significantly higher in both SHR and SHRSP than in WKY at 10 and 20 weeks. These findings suggest that ANP release may increase to compensate for the elevation of blood pressure in SHR and SHRSP and that biosynthesis of ANP may be concomitantly stimulated, resulting in an increase in atrial ANP.     

Differential stimulation of growth related metabolism in cultured smooth muscle cells from SHR and WKY rats by combinations of EGF and LDL

We have reported previously that vascular smooth muscle cells from spontaneously hypertensive rats (SHR) were more responsive to epidermal growth factor (EGF) than their normotensive derived Wistar Kyoto (WKY) controls. This differential responsiveness is evident for several cellular processes including activation of S6-kinase, elevation of intracellular pH and stimulation of both phosphoinositide metabolism and DNA synthesis. Quiescent smooth muscle cells exposed to low density lipoprotein (LDL) exhibited a similar differential responsiveness (SHR greater than WKY) in terms of S6-kinase activation, which was time- and dose-dependent (10(-10)-10(7) M), but neither cell type responded appreciably to LDL in terms of a stimulation in [3H]-thymidine incorporation. Exposure of the same cells to EGF and LDL in combination elicited a marked synergistic stimulation in DNA synthesis, the extent of which was greater for SHR than WKY. The sensitivity of both cell types to EGF was increased in the presence of LDL, although cells from hypertensive animals still exhibited their greater (vs. WKY) sensitivity. In both cell types, activation of nuclear protooncogenes c-fos and c-myc by LDL was minimal, whereas oncogene induction by EGF was approximately five-fold greater for SHR-derived cells compared to those from WKY animals. No marked synergistic effect on the time-dependent induction of either entity was observed for cells exposed to EGF and LDL simultaneously, and the response of SHR-cells remained greater than WKY-cells.     

Decreased velocity of shortening in arterial smooth muscle from older (28- to 31-week-old) spontaneously hypertensive rats

An increased maximum velocity of shortening (Vmax) and increased shortening ability (delta Lmax) have been reported for caudal arterial smooth muscle from 16- to 18-week-old spontaneously hypertensive rats (SHR) compared with age-matched Wistar-Kyoto (WKY) control rats. It is known that hypertension results in hypertrophy of vascular smooth muscle. It is plausible that the faster Vmax of 16- to 18-week-old SHR arterial smooth muscle may slow down with age due to hypertrophy. The force-velocity (F-V) study done previously on caudal arterial strips from 16- to 18-week-old SHR and WKY rats was repeated on preparations from 28- to 31-week-old rats. An electromagnetic muscle lever was employed in recording force-velocity data. Analysis of these data revealed that the 28- to 31-week-old SHR (n = 7) mean F-V curve was not different from the 28- to 31-week-old WKY (n = 5) mean F-V curve (p greater than 0.05), and the shortening ability of 28- to 31-week-old SHR arterial muscle was significantly depressed compared with 28- to 31-week-old WKY arterial muscle (p less than 0.01). In conclusion, (i) although Vmax is faster in younger (16- to 18-week-old) SHR compared with age-matched WKY caudal arterial smooth muscle, SHR Vmax is not different from WKY Vmax in the older (28- to 31-week-old) rats. (ii) Shortening ability is greater in 16- to 18-week-old SHR caudal arterial strips compared with 16- to 18-week-old WKY strips, but is significantly depressed in 28- to 31-week-old SHR compared with 28- to 31-week-old WKY preparations.(ABSTRACT TRUNCATED AT 250 WORDS)     

Platelet-derived growth factor AA homodimer stimulates protein synthesis rather than DNA synthesis in vascular smooth muscle cells from spontaneously hypertensive rats but not from normotensive rats.

Platelet-derived growth factor (PDGF) AB and BB isoforms were potent mitogens for cultured vascular smooth muscle cells from spontaneously hypertensive rats (SHR) and normotensive Wistar-Kyoto rats (WKY). PDGF-AA promotes protein synthesis in a dose-dependent manner in SHR cells, whereas DNA synthesis was stimulated only slightly. However, this isoform did not activate either DNA or protein synthesis in WKY cells. PDGF-AA stimulated tyrosine phosphorylation of its receptor protein and phospholipase C-gamma 1 in SHR cell but not in WKY cells. These results indicate that vascular smooth muscle cell of SHR is uniquely responsive to PDGF-AA, presumably due to abnormality in receptor expression, in its hypertrophic response.     

Diminished expression of dihydropteridine reductase is a potent biomarker for hypertensive vessels

To identify the new targets for hypertension, we analyzed the protein expression profiles of aortic smooth muscle in spontaneously hypertensive rats (SHR) of various ages during the development of hypertension, as well as in age‐matched normotensive Wistar–Kyoto (WKY) rats, using a proteomic analysis. The expressions of seven proteins were altered in SHR compared with WKY rats. Of these proteins, NADH dehydrogenase 1α, GSTω1, peroxi‐redoxin I and transgelin were upregulated in SHR compared with WKY rats. On the other hand, the expression of HSP27 and Ran protein decreased in SHR. The diminution of dihydrobiopterin reductase, an enzyme located in the regeneration pathways of tetrahydrobiopterin (BH4), was also prominent in SHR. The results from a PCR analysis revealed that the expression of BH4 biosynthesis enzymes – GTP cyclohydrolase‐1 and sepiapterin reductase – decreased and increased, respectively, in SHR compared with WKY rats. The level of BH4 was less in aortic strips from SHR than from WKY rats. Moreover, treatment with BH4 inhibited aortic smooth muscle contraction induced by serotonin. These results suggest that the deficiency in BH4 regeneration produced by diminished dihydrobiopterin reductase expression is involved in vascular disorders in hypertensive rats.     

Prolonged isobaric relaxation time in small mesenteric arteries of the spontaneously hypertensive rat

Prolonged isometric relaxation in hypertensive aortic and caudal arterial smooth muscle has been demonstrated; however, isobaric relaxation in resistance arteries is more pertinent to studies in hypertension. A comparative study of mesenteric arterial isobaric relaxation times was made using spontaneously hypertensive rats (SHR), normotensive Wistar-Kyoto rats (WKY), and MK-421 treated SHR (treatment commenced at 8 weeks of age and was maintained until sacrifice). Relaxation rates of vessels constricting against a range of pressures and achieving different degrees of narrowing or changes in circumference were analyzed. Comparisons were made between SHR, WKY, and MK-421 treated SHR arteries that had constricted from the same initial circumference and against the same magnitude of pressure. The SHR mesenteric arteries relaxed at a slower rate than did the WKY vessels. The normotensive MK-421 treated SHR showed the same prolonged relaxation rate as did the untreated SHR preparations. Thus the slower rate of relaxation in SHR arteries does not appear to be a consequence of the hypertension. Such prolonged time for narrowing would function to increase the average peripheral resistance and thus may contribute to the initiation and maintenance of increased blood pressure.     

Erectile dysfunction in spontaneously hypertensive rats: pathophysiological mechanisms

Hypertensive men have a higher prevalence of erectile dysfunction (ED) than the general population. Experimental evidence of ED in hypertensive animals is scarce. This study evaluates the erectile function of spontaneously hypertensive rats (SHR) and age-matched normotensive Wistar-Kyoto rats (WKY) in vivo by the increase in intracavernosal pressure after electrical stimulation of the cavernous nerve (CN) and by isometric tension studies on corporal strips. Frequency-dependent erectile responses to CN stimulations were reduced in SHR. Phenylephrine induced lower corporal contractions in SHR although pD2 values were similar to WKY. Endothelium-dependent relaxations to ACh were impaired significantly in SHR, and indomethacin improved these relaxations in both WKY and SHR, the latter thus reaching values similar to WKY. Corporal relaxations to sodium nitroprusside were enhanced in SHR. Thus a dysfunctional alpha-adrenergic contraction of the corporal smooth muscle, an increased cyclooxygenase-dependent constrictor tone, and/or a defect in endothelium-dependent reactivity are associated with the altered erectile mechanisms in SHR. Drugs targeting endothelial dysfunction may delay the occurrence of ED as a complication of hypertension.     

Lifelong hyperarousal in the spontaneously hypertensive rat indicated by operant behavior

Instrumental conditioning techniques were used to obtain objective evidence of differences in behavioral arousal between the spontaneously hypertensive rat (SHR) and the normotensive ancestral Wistar Kyoto (WKY) strain. Subjective emotionality ratings previously indicated that the genetically hypertensive rats were more active and aggressive than their normotensive cousins. In a lengthy series of operant conditioning sessions using a small number of adult female SHR and WKY rats, hyperarousal in the SHR was confirmed by their significantly higher response outputs on either response contingent or time contingent schedules of reinforcement. Conditioned emotionality tests during this series of experiments also suggested hyperarousal and aggressiveness in the SHR, since the fear-conditioned stimulus suppressed bar-pressing in the SHR much less than in the WKY. Further experiments with young prehypertensive SHR rats provided the same evidence of hyperresponsivity in the SHR compared to the WKY strain. Furthermore, these young SHR failed to develop hypertension by the end of the study (14 weeks of age), while their nonconditioned SHR cousins had become clearly hypertensive by the same age. This suggests that factors related to the conditioning methods modified the development of high blood pressure in this animal model of essential hypertension.     

Blood pressure responsiveness during the development of hypertension in the conscious spontaneously hypertensive rat

Blood pressure responsiveness to iv noradrenaline and angiotensin II was studied in conscious, freely moving, age-matched spontaneously hypertensive (SHR) and Wistar-Kyoto (WKY) rats from 4 to 16 weeks of age. At 4 and 6 weeks the SHR showed small, but nonsignificant increases in responsiveness compared with WKY to both noradrenaline and angiotensin II. At 8 weeks they exhibited similar responses to the WKY. Subsequently, at 12 and 16 weeks decreased responsiveness to noradrenaline (nonsignificant) and angiotensin II (p less than 0.05 at 12 and 16 weeks) was observed in SHR versus WKY. At 16 weeks of age, hexamethonium caused potentiation of the blood pressure response to noradrenaline and angiotensin II, but to the same degree in the two strains. Captopril at this age did not elicit potentiation to noradrenaline or angiotensin II in either strain. These results indicate that there is no rise in blood pressure responsiveness to circulating pressor agents, parallel to the development of hypertension in SHR. Increased receptor occupancy or more active attenuating reflexes in SHR versus WKY appear not to be involved in the absence of hyperresponsiveness in intact conscious SHR at 16 weeks of age.     

Influence of age on inotropic response to insulin and insulin-like growth factor I in spontaneously hypertensive rats: role of nitric oxide.

Insulin-like growth factor-1 (IGF-1) and insulin stimulate cardiac growth and contractility. Recent evidence suggests a relationship between essential hypertension, left ventricular hypertrophy, and circulating IGF-1 levels. Advanced age alters cardiac function in a manner similar to hypertension. The aim of this investigation was to evaluate the effects of IGF-1 and insulin on the force generating capacity of cardiac muscle in hypertension and the influence of age on this response. Contractile responses to IGF-1 and insulin were examined using papillary muscles from Wistar-Kyoto rats (WKY) and spontaneously hypertensive rats (SHR) at 10 and 25 weeks of age. Muscles were electrically stimulated at 0.5 Hz, and contractile properties, including peak tension development (PTD), time-to-peak tension, time-to-90% relaxation, and the maximal velocities of contraction and relaxation, were evaluated. PTD was similar in WKY and SHR myocardium at both age groups. At 10 weeks of age, IGF-1 (1-500 ng/ml) caused a dose-dependent increase in PTD in WKY but not SHR myocardium, whereas insulin (1-500 nM) had no effect on PTD in either group. At 25 weeks of age, the positive inotropic effect of IGF-1 was attenuated in the WKY group, and IGF-1 exerted no inotropic action in the SHR group. Pretreatment with the nitric oxide synthase inhibitor, N-omega-nitro-L-arginine methyl ester (L-NAME, 100 microM), did not alter the IGF-1-induced positive inotropic response in 10-week-old WKY myocardium, whereas it unmasked a positive inotropic action in muscles from age-matched SHR animals. At 25 weeks of age, L-NAME abolished IGF-1-induced a positive inotropic response in WKY myocardium, and did not unmask an IGF-induced inotropic response in SHR myocardium. Our results suggest that alterations in nitric oxide modulation of IGF-1-induced contraction may underlie resistance to this inotropic peptide with advancing age, and/or hypertension.