Circulatory events following spontaneous muscle exercise in normotensive and hypertensive rats

In previous studies we have shown that spontaneously hypertensive rats (SHR) develop a running behaviour and, secondary to the running behaviour, develop an endorphin-mediated analgesic effect. In the present study the role of the central endorphin system in the cardiovascular responses to spontaneous exercise in normotensive Wistar Kyoto rats (WKY) and SHR was investigated. The experimental design allowed us to record mean arterial pressure (MAP) and heart rate (HR) continuously for more than 1 week without interfering with the daily activities of the animals. They were active in running wheels during the dark period (19.00-07.00 h) and the activity was accompanied by a marked rise in HR. In SHR, a clear depression of blood pressure lasting for about for about 50 min was noted following each running period. The MAP during the post-running depression was 131.4 +/- 1.6 mmHg which was significantly lower than the pre-running control value (145.2 +/- 2.3 mmHg, P less than 0.01). In contrast, MAP in the post-running period in WKY was not significantly different from the pre-running values. In addition, the depression period of SHR had a mean post-running length of 49.7 +/- 3.4 min, which is significantly longer than in the WKYs (37.8 +/- 3.5 min, P less than 0.05). In control rats, naloxone infusion had no effect on blood pressure but a marked bradycardia was observed. In nine running SHR receiving a naloxone infusion, their MAP during the depression period was not different from the control pressure. Our study indicates that endorphin systems are involved in the regulating of blood pressure and HR during muscle exercise in SHR. These systems trigger the transient depression of blood pressure observed immediately after a running period in the SHR.     

Chronic absence of baroreceptor inputs prevents training-induced cardiovascular adjustments in normotensive and spontaneously hypertensive rats

We investigate whether arterial baroreceptors mediate the training-induced blood pressure fall and resting bradycardia in hypertensive (SHR) and normotensive rats (WKY). Male SHR and WKY rats, submitted to sino-aortic denervation (SAD) or sham surgery (SHAM group), were allocated to training (T; 55% of maximal exercise capacity) or sedentary (S) protocols for 3 months. Rats were instrumented with arterial and venous catheters for haemodynamic measurements at rest (power spectral analysis) and baroreceptor testing. Kidney and skeletal muscles were processed for morphometric analysis of arterioles. Elevated mean arterial pressure (MAP) and heart rate (HR) in SHAM SHRS were accompanied by increased sympathetic variability and arteriolar wall/lumen ratio [+3.4-fold on low-frequency (LF) power and +70%, respectively, versus WKYS, P < 0.05]. Training caused significant HR (∼9% in WKY and SHR) and MAP reductions (−8% in the SHR), simultaneously with improvement of baroreceptor reflex control of HR (SHR and WKY), LF reduction (with a positive correlation between LF power and MAP levels in the SHR) and normalization of wall/lumen ratio of the skeletal muscle arterioles (SHR only). In contrast, SAD increased pressure variability in both strains of rats, causing reductions in MAP (−13%) and arteriolar wall/lumen ratio (−35%) only in the SHRS. Training effects were completely blocked by SAD in both strains; in addition, after SAD the resting MAP and HR and the wall/lumen ratio of skeletal muscle arterioles were higher in SHRT versus SHRS and similar to those of SHAM SHRS. The lack of training-induced effects in the chronic absence of baroreceptor inputs strongly suggests that baroreceptor signalling plays a decisive role in driving beneficial training-induced cardiovascular adjustments.     

Hyper-responsiveness of adrenal sympathetic nerve activity in spontaneously hypertensive rats to ganglionic blockade, mental stress and neuronglucopenia

 Previous investigations indicate that the spontaneously hypertensive rat (SHR) has elevated sympathetic tone at rest. The present study aimed to determine whether SHR has exaggerated sympatho-adrenal activation in response to various sympathetic stimuli. The mean blood pressure (MBP), heart rate (HR) and preganglionic adrenal sympathetic nerve activity (SNA) were recorded from conscious, unrestrained SHR and from its normotensive control, the Wistar-Kyoto rat (WKY) (n=7, respectively).Ganglionic blockade (trimethaphan, 5 mg/kg) reduced MBP identically in both groups of rats. It did not change HR in SHR, but increased HR significantly in WKY (P<0.05). The adrenal SNA increased in both groups, but the magnitude of the increase was more than threefold greater in SHR (P<0.05). Mental stress caused by air-jet induced significantly greater tachycardia (threefold) and sympatho-adrenal activation (tenfold) in SHR than in WKY rats. In SHR the inhibition of glycolysis (2-deoxy-d-glucose, 500 mg/kg) also produced a profound activation of adrenal SNA (sevenfold) and the increased adrenal SNA was not paralleled by an increased HR. We conclude that a variety of sympathetic stimuli, including ganglionic blockade, mental stress and neuronglucopenia, cause exaggerated activation of preganglionic adrenal SNA in SHR compared with WKY, indicating that adrenal SNA in SHR is hyper-responsive. Received: 26 May 1998 / Received after revision: 30 July 1998 / Accepted: 11 August 1998     

Interaction between "mental stress" and baroreceptor reflexes concerning effects on heart rate, mean arterial pressure and renal sympathetic activity in conscious spontaneously hypertensive rats

Spontaneously hypertensive rats (SHR) and normotensive Wistar Kyoto rats (WKY) were compared concerning the interactions between cortico-hypothalamic alerting responses and baroreflex influences on neurogenic cardiovascular control. For this purpose mean arterial pressure (MAP), heart rate (HR) and renal sympathetic nerve activity (RSNA) were continuously recorded during night time in conscious, otherwise undisturbed rats. Baroreceptor sensitivity was assessed as percentage HR and RSNA reductions per mmHg MAP elevation when a standardized phenylephrine infusion was performed. A state of acute "mental stress" could be induced by a likewise standardized sudden blowing of air. These two opposing influences on neurogenic cardiovascular control were also experimentally superimposed in various ways and the effects on MAP, HR and RSNA followed. During "rest" RSNA was higher in SHR than in WKY and it also increased more during "mental stress". The baroreflex sensitivity was clearly reduced in SHR and WKY concerning HR reduction (0.44 +/- 0.06 vs. 0.78 +/- 0.08%/mmHg; p less than 0.01) but not so concerning RSNA, which was similar in SHR and WKY (2.6 +/- 0.2 vs. 2.9 +/- 0.4%/mmHg). If expressed (HR + 1 +/- 3%; p less than 0.025 vs. SHR and RSNA + 11% +/- 10, p less than 0.01 vs. SHR). These results) (0.10 +/- 0.02 vs. 0.06 +/- 0.01 microV/mmHg; p less than 0.12). Also single fibre recordings in anaesthetized rats showed the same principle difference between SHR and WKY.(ABSTRACT TRUNCATED AT 250 WORDS)     

Brainstem oxytocinergic modulation of heart rate control in rats: effects of hypertension and exercise training

Oxytocinergic brainstem projections participate in the autonomic control of the circulation. We investigated the effects of hypertension and training on cardiovascular parameters after oxytocin (OT) receptor blockade within the nucleus tractus solitarii (NTS) and NTS OT and OT receptor expression. Male spontaneously hypertensive rats (SHR) and Wistar–Kyoto (WKY) rats were trained (55% of maximal exercise capacity) or kept sedentary for 3 months and chronically instrumented (NTS and arterial cannulae). Mean arterial blood pressure (MAP) and heart rate (HR) were measured at rest and during an acute bout of exercise after NTS pretreatment with vehicle or OT antagonist (20 pmol of OT antagonist (200 nl of vehicle)^–1). Oxytocin and OT receptor were quantified (³⁵S-oligonucleotide probes, in situ hybridization) in other groups of rats. The SHR exhibited high MAP and HR ( P < 0.05). Exercise training improved treadmill performance and reduced basal HR (on average −11%) in both groups, but did not change basal MAP. Blockade of NTS OT receptor increased exercise tachycardia only in trained groups, with a larger effect on trained WKY rats (+31 ± 9 versus +12 ± 3 beats min⁻¹ in the trained SHR). Hypertension specifically reduced NTS OT receptor mRNA density (–46% versus sedentary WKY rats, P < 0.05); training did not change OT receptor density, but significantly increased OT mRNA expression (+2.5-fold in trained WKY rats and +15% in trained SHR). Concurrent hypertension- and training-induced plastic (peptide/receptor changes) and functional adjustments (HR changes) of oxytocinergic control support both the elevated basal HR in the SHR group and the slowing of the heart rate (rest and exercise) observed in trained WKY rats and SHR.     

Blood pressure and heart rate responses to mental stress in spontaneously hypertensive (SHB) 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 X 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 less than 0.05). In both LNa groups HR was elevated nearly 25% compared with controls, being in SHR 513 versus 419 bpm (P less than 0.01) and in WKY 489 versus 393 bpm (P less than 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.     

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.     

Left ventricular hypertrophy improves cardiac performance in spontaneously hypertensive rats

Cardiac function was studied in spontaneously breathing, adult spontaneously hypertensive rats (SHR) and Wistar-Kyoto normotensive rats (WKY). By rapid intravenous blood infusion, the relation between left ventricular end-diastolic pressure (LVEDP) and stroke volume (SV) was determined while the cardiac nervous control was pharmacologically blocked. Since SV is greatly influenced by the level of afterload (mean arterial pressure, MAP), SV was also determined at increased MAP (constriction of abdominal aorta) and at decreased MAP (vasodilation by hydralazine). At low LVEDP levels, a righward shift of the Frank-Starling relationship was observed in SHR. This rightward shift seems mainly to depend on the increased MAP present in SHR since it was less prominent if MAP was lowered to normotensive levels in SHR. Maximal SV during volume infusion was similar in SHR and WKY, despite a much higher MAP in SHR. When peak SV was instead compared at similar MAP levels for both (either at ‘normotensive’ or ‘hypertensive’ levels) it was always significantly greater in SHR, and was increased largely in proportion to their increased left ventricular weight. This indicates that the left ventricular hypertrophy present in SHR is, at least at this stage, a physiological adaptation of the heart to increase its performance, in order to maintain a normal SV and hence cardiac output, despite an increased arterial pressure.     

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.     

血压波动性与奥美沙坦改善高血压靶器官损伤的关系研究

目的观察血压波动性与奥美沙坦改善高血压靶器官损伤的关系。方法24只雄性21周龄SHR大鼠,随机分为生理盐水组（SHR）,奥美沙坦组（Olm）,以WKY大鼠为阴性对照。灌胃给药12周后,记录24h清醒动脉血压、心率、血压波动性（BPV）、测定ABR功能（BRS）;按照预先制定的标准对高血压靶器官损伤（TOD）进行半量化的评估。结果SHR的24h收缩压（SBP）、舒张压（DBP）及收缩压波动性（SBPV）、舒张压波动性（DBPV）显著高于对照WKY大鼠及Olm组（P〈0．01）,心率三者间无明显差异。BRS功能非常显著低于WKY大鼠（P〈0．01）,显著低于Olm组（P〈0．05）。SHR靶器官损伤明显,TOD评分显著高于对照组WKY大鼠及Olm组（P〈0．01）。直线相关分析结果表明：SHR的TOD得分与SBP及DBP呈正相关（P〈0．05）;与BPV也呈正相关（JP〈0．01）;与BRS呈负相关（P〈0．01）。BRS及BPV的相关系数明显高于SBP及DBP。结论BPV的增高、BRS的降低可以导致高血压靶器官损伤。降低BPV,改善ABR功能是奥美沙坦治疗高血压的机制之一。     

Sodium appetite as well as 24-h variations of fluid balance, mean arterial pressure and heart rate in spontaneously hypertensive (SHR) and normotensive (WKY) rats, when on various sodium diets

Young SHR and WKY rats were compared, first, concerning sodium (Na) appetite during 'rest', mild social stress and ACTH injections, second, concerning the diurnal patterns of water intake, urine output, mean arterial pressure (MAP) and heart rate (HR) while on various Na diets: 0.5 mmol Na(LNa), 5 or 12-13 mmol Na (CNa), 50 (HNa) or 120 mmol Na (vHNa) per 100 g food. Sodium appetite and water intake were about 50% higher in SHR than in WKY (4-4.5 vs 2.5-3 mmol Na per 100 g body wt day-1). It was modestly increased by both social stress and ACTH, and more so in WKY, thereby approaching that in SHR. Concerning the various Na diets and their influences, daytime resting MAP was modestly lowered in LNaSHR and slightly increased in vHNaSHR compared with CNaSHR but largely equal in all WKY groups. Food-water consumption was concentrated to the active night period, but even high Na-water intakes caused no signs of sustained hypervolaemia, because each intake bout was in both SHR and WKY eliminated by urine within 30-40 min. However, particularly the vHNa diet in SHR also increased the frequency of drinking, and each bout caused transient, evidently neurogenic MAP and HR increases which occurred too rapidly to be consequences of blood volume expansion. As a result, the diurnal MAP-HR patterns in SHR varied markedly with the Na diets, in vHNa group resulting in considerably raised average diurnal MAP levels even though resting daytime MAP was here nearly the same as in CNaSHR. These findings illustrate how largely continuous diurnal recordings are needed to judge correctly the relationships between, for example, Na intake, volume equilibrium and MAP. Finally, the relevance of these results in rats for also judging the control of Na balance in man is discussed.     

Interaction between “mental stress” and baroreceptor reflexes concerning effects on heart rate,mean arterial pressure and renal sympathetic activity in conscious spontaneously hypertensive rats

Spontaneously hypertensive rats (SHR) and normotensive Wistar Kyoto rats (WKY) were compared concerning the interactions between cortico-hypothalamic alerting responses and baroreflex influences on neurogenic cardiovascular control. For this purpose mean arterial pressure (MAP), heart rate (HR) and renal sympathetic nerve activity (RSNA) were continuously recorded during night time in conscious, otherwise undisturbed rats. Baroreceptor sensitivity was assessed as percentage HR and RSNA reductions per mmHg MAP elevation when a standardized phenylephrine infusion was performed. A state of acute “mental stress” could be induced by a likewise standardized sudden blowing of air. These two opposing influences on neurogenic cardiovascular control were also experimentally superimposed in various ways and the effects on MAP, HR and RSNA followed. During “rest” RSNA was higher in SHR than in WKY and it also increased more during “mental stress”. The baroreflex sensitivity was clearly reduced in SHR and WKY concerning HR reduction (0.44±0.06 vs. 0.78±0.08%/mmHg; p<0.01) but not so concerning RSNA, which was similar in SHR and WKY (2.6±0.2 vs. 2.9±0.4%/mmHg). If expressed (HR + 1±3%; p<0.025 vs. SHR and RSNA + 11%±10, p<0.01 vs. SHR). These results) (0.10±0.02 vs. 0.06±0.01 μV/mmHg; p<0.12). Also single fibre recordings in anaesthetized rats showed the same principle difference between SHR and WKY. Addition of “mental stress” during phenylephrine baroreflex activation clearly increased both HR (24±7%) and RSNA (114±21 %) in SHR, while almost no change then occurred in WKY (HR + 1±3%; p<0.025 vs. SHR and RSNA + 11%±10, p<0.01 vs. SHR). These results suggest that a modestly accentuated cortico-hypothalamic activity ordinarily prevails in SHR, explaining the suppressed baroreflex control of heart rate and the augmented sympathetic activity to e.g. renal and splanchnic areas. Further, environmental alerting stimuli induce in SHR more powerful defence reactions which, unlike the situation in WKY, readily overcome baroreflex inhibitory influences on sympathetic activity.     

Cerebral function during hypotensive haemorrhage in spontaneously hypertensive rats and Wistar Kyoto rats

Studies on cerebral function during cerebral ischaemia are usually performed on conscious animals after ligation of a major vessel supplying the brain. In this work, we studied somatosensory evoked potentials (SEP) in chloralose-anaesthetized Wistar Kyoto (WKY) and spontaneously hypertensive rats (SHR) during hypotensive haemorrhage, with the main emphasis on the SHR which are more vulnerable. The main purpose was to see whether haemorrhaged SHR could be used for studies of cerebral function during relative cerebral ischaemia in anaesthetized rats. The mean arterial pressure (MAP) was rapidly lowered to 45-50 mm Hg and maintained at that level by adjustments of bleeding and transfusion. This resulted in pronounced sympathetic inhibition and bradycardia in all rats. In SHR, this sympatho-inhibitory response was usually reversed after about 20 min. In one group of hypertensive rats (SHRt, n = 24), MAP was raised to 75 mm Hg by partial re-transfusion, when heart rate (HR) had returned to the pre-bleeding level and MAP was maintained at that level for the rest of the experiment. All the other rats (SHR, n = 12; WKY, n = 11) were kept at 45-50 mm Hg for 32 min, after which WKY were bled further to a MAP of 30 mm Hg for 8 min. SEP amplitudes decreased after haemorrhage in all groups but more so in SHR. In the WKY group, SEP were only modestly attenuated during the first 32 min, but after further bleeding to 30 mm Hg the amplitudes were reduced to the same extent as in SHR. Some SHR showed flat SEP immediately upon haemorrhage and were excluded from the SHRt group.(ABSTRACT TRUNCATED AT 250 WORDS)     

Cardiac design and pressure-volume characteristics of the left ventricle in normotensive (WKY) and hypertensive (SHR) rats after various dietary sodium treatments

Normotensive (WKY) and hypertensive rats (SHR) from 5 to 13-14 weeks of age were given 'low' (LNa; 0.5 mmol Na 100 g-1 food), 'control' (CNa; 5 or 12 mmol), 'high' (HNa; 50 mmol) and in SHR also 'medium low' (mLNa; 2 mmol) and 'very high' (vHNa; 120 mmol) sodium diets, to explore how such 240-fold variations in Na intake affect cardiac design. This was assessed in isolated perfused, temporarily-arrested hearts by recordings of left ventricular (LV) diastolic pressure-volume relationships (P/V), LV and RV weights, and by calculations of the ratio between LV wall thickness and internal radius (w/ri), after in vivo recordings of awake mean arterial pressure (MAP) and heart rate (HR). In WKY, where MAP was the same in all diet groups, the HNa group showed an increased w/ri due to a 20% reduction of LV diastolic volume, with signs of reduced wall compliance compared with CNa. The LNa WKY showed less marked changes in the same direction. In the SHR LNa group, where MAP was lowered about 20 mmHg, LV diastolic volume was reduced nearly 20% at a modest w/ri increase, while HNa and Cna SHR had equal MAP, LV weights, P/V and w/ri relationships. However, in vHNa SHR, where MAP was elevated about 25 mmHg, the LV showed a mainly eccentric hypertrophy with 15% increase of diastolic volume at a slight increase of w/ri. These differentiated, and in WKY and SHR partially differing structural cardiac adaptations consequent to changes in Na intake, can hardly be ascribed only to the respective pre- and afterload alterations, suggesting that also altered neuro-hormonal profiles may have contributed with 'trophic' influences.(ABSTRACT TRUNCATED AT 250 WORDS)     

哌唑嗪对自发性高血压大鼠下丘脑nNOS表达的影响

目的研究哌唑嗪延缓自发性高血压大鼠(SHR)病理生理进程是否与调控下丘脑内神经元型一氧化氮合酶(nNOS)的表达有关。方法 8周龄雄性SHR,持续给予哌唑嗪1个月后,检测平均动脉压(MAP)和心率(HR)以及进行肾脏组织化学染色,并应用免疫荧光染色结合显微图像分析及Western blot测定下丘脑nNOS的表达水平。结果与未给药同龄SHR相比,给药SHR组MAP和HR明显降低,肾脏纤维化损害程度减轻,下丘脑nNOS蛋白水平升高,室旁核和视上核内nNOS阳性神经元含量增加,但均未达到正常同龄Wistar大鼠水平。结论哌唑嗪可能通过调节下丘脑nNOS发挥中枢降压作用,进而部分逆转自发性高血压发病进程。     

Cardiovascular effects of central 6-OHDA treatment: a comparison of indirect and direct measurements

The effect of intracerebro-ventricular treatment with 6-hydroxydopamine on blood pressure and heart rate was studied in spontaneously hypertensive rats (SHR) and normotensive Wistar-Kyoto controls (WKY). When measured with the indirect tail-cuff method, the development of hypertension was found to be markedly inhibited in 6-OHDA treated SHR, while blood pressure was slightly lower in treated WKY. Heart rate was lower in both strains, although the greatest effect was found in SHR. In contrast, direct measurement via an arterial cannula indicated significantly lower blood pressure in 6-OHDA treated SHR only. Heart rate was by this method found to be not different between the SHR groups, but was increased in treated WKY. These results indicate that the mild stress of indirect blood pressure determinations has a marked influence on the results found.     

Changes in sleep patterns in spontaneously hypertensive rats

STUDY OBJECTIVES: To explore whether spontaneous hypertension is associated with a change in sleep pattern in rats. DESIGN: Adult male spontaneously hypertensive rats (SHR) were compared to normotensive Wistar-Kyoto rats (WKY) on their normal daytime sleep pattern. PARTICIPANTS: Ten WKY and 10 SHR. INTERVENTIONS: All rats had electrodes implanted for polygraphic recordings. Weeks later, a 5-hour daytime sleep-weakfulness recording session was analyzed. MEASUREMENTS AND RESULTS: Electroencephalogram and electromyogram signals were subjected to continuous power spectral analysis, from which mean power frequency of the electroencephalogram and power of the electromyogram were quantified. Active waking (AW), quiet sleep (QS), and paradoxical sleep (PS) were defined every 8 seconds from corresponding mean power frequency and electromyogram power readings. Analysis of heart-rate variability was derived from the electrocardiogram signals. Macrostructural analysis of sleep revealed that SHR were characterized by fewer QS and PS episodes and eventually shorter accumulated QS and PS times as compared to WKY. SHR also had more QS-to-AW transitions but fewer QS-to-PS transitions. Microstructural analysis revealed that SHR were associated with more-frequent interruptions during QS. Analysis of heart-rate variability indicated that SHR had similar R-R intervals and lower high-frequency (0.6-2.4 Hz) power but a higher ratio of low-frequency (0.06-0.6 Hz) power to high-frequency power during the daytime recording as compared to WKY. CONCLUSIONS: As compared to WKY, SHR may have less sleep time, poorer sleep quality, and a greater tendency to wake up from QS. Such changes in sleep may be concomitant with cardiac autonomic changes. Our methodology offers a convenient yet effective way to study the constitution, sequence, and interruption of sleep in the rat.     

自发性高血压大鼠血浆一氧化氮浓度的变化

目的　观察自发性高血压大鼠 (SHR)血浆NO浓度的变化 ,探讨NO与高血压发生发展的关系。方法　颈总动脉插管测定大鼠血压 ,硝酸银还原法测定SHR血浆中NO的含量。结果　 (1)血压变化 :各时期WKY大鼠血压无显著性差异 ;高血压组大鼠血压随着月龄增加逐渐升高 ,均明显高于WKY大鼠 (P <0 0 1)。 (2 )血浆NO浓度的变化 :WKY大鼠血浆NO浓度各时期无显著性差异 ;高血压组大鼠血浆NO浓度在 3m、6m时间点明显高于WKY大鼠 ,但在 12m时间点却较WKY大鼠明显降低 (P<0 0 1) ,同组内与 3m、6m时间点比较亦显著减少 (P <0 0 1)。相关分析显示 ,在 3m、6m时间点高血压大鼠血浆NO浓度与血压之间呈正相关 (P <0 0 1) ,在 12m时间点与血压呈负相关 (P <0 0 1)。结论　随着高血压发生和发展 ,血浆NO升高 ,而在高血压后期 ,NO的变化不明显 ,这种变化可能与高血压的发生发展有关。     

不同年龄高血压大鼠血管平滑肌中ERK和MKP-1的表达

目的：研究不同年龄的自发性高血压大鼠（SHR）和Wistar Kyoto大鼠（WKY）主动脉平滑肌中丝裂原活化蛋白激酶（MAPK）及其磷酸酶（MKP-1）的表达及其与高血压的关系。 方法： 用tail-cuff测量大鼠尾动脉血压；分别用Western blotting法和RT-PCR法半定量测定血管平滑肌中磷酸化细胞外信号调节激酶（p-ERK）和MKP-1的蛋白表达以及MKP-1 mRNA的含量。 结果： （1）SHR的血压自8周龄起明显高于WKY（P<0.01），且随年龄增长而升高（P<0.05）至14周以后趋于稳定；（2）SHR主动脉平滑肌中的p-ERK表达明显高于同年龄的WKY（P<0.01），随年龄增长而递增（P<0.05），与血压呈正相关；（3）SHR主动脉平滑肌中MKP-1蛋白明显高于同龄WKY，而mRNA的表达在5周龄时明显高于WKY，之后均随年龄的增长而递减（P<0.05），与血压和ERK呈负相关，而WKY下降不明显。 结论： MKP-1在高血压的发生和发展过程中起重要作用，其表达逐渐下降可能是导致ERK激活增加，从而导致血管平滑肌细胞增殖、血压升高的重要原因。     

Metabolic and blood pressure response to feeding activity is enhanced in freely moving spontaneously hypertensive rats

Atrial temperature (Tat), heat production (M), mean arterial blood pressure (BP), and feeding (FA) and locomotor (LA) activities were measured over a 24-h period in spontaneously hypertensive rats (SHR) and their normotensive controls (Wistar Kyoto rats; WKY) at an ambient temperature of 24 degrees C. Clear day-night changes in all variables were observed in both groups except for BP and LA in SHR. During the day (0600-1800 h), SHR moved more frequently and seemed to eat more food than WKY. However, the total amount of food consumed for the 2 consecutive days was the same in both SHR and WKY. Compared with WKY, average M and BP during the day and at night and FA and LA during the day were significantly higher in SHR. The responses of Tat for a 24-h period, M during the day and for a 24-h period, and BP during the day to FA were significantly enhanced in SHR. There were no such significant differences of responses in Tat, M, and BP to LA between SHR and WKY. The results suggest that SHR is hyper-responsive in metabolism and blood pressure to feeding activity, particularly in the daytime, but not to locomotion.