Endothelial NO synthase activity in nucleus tractus solitarii contributes to hypertension in spontaneously hypertensive rats

NO is implicated as a major modulator of central nervous circuits regulating cardiovascular activity. Based on previous data, we hypothesized that overactivity of endothelial NO synthase (eNOS) within the nucleus tractus solitarii (NTS) could contribute to the hypertension in the spontaneously hypertensive rat (SHR). Using real-time PCR, we found that endogenous eNOS mRNA was greater in the NTS of mature, but not juvenile prehypertensive SHRs compared with aged-matched Wistar Kyoto (WKY) rats. To test the functional significance of this, we chronically blocked eNOS activity in the NTS in the adult SHR by in vivo adenoviral-mediated gene transfer of a dominant-negative form of eNOS; data were compared with WKY rats. This resulted in a fall in arterial pressure in the SHR but not WKY rats. In both rat strains, cardiac baroreceptor reflex gain and the high-frequency spectral component of heart rate variability increased. Thus, endogenous eNOS activity in the NTS plays a major role in determining the set point of arterial pressure in the SHR and contributes to maintaining high arterial blood pressure in this animal model of human hypertension.     

Endogenous digitalislike circulating substances in spontaneously hypertensive rats

Circulating digitalislike compounds have been proposed to be involved in some Na+-dependent types of experimental hypertension and in human essential hypertension. The level of circulating Na+-K+ pump inhibitor(s) was investigated in the spontaneously hypertensive rat of the Okamoto strain (SHR), its normotensive control, Wistar-Kyoto rat (WKY), and the regular Wistar rat using the following criteria: the ability of whole plasma to inhibit the total active Na+ efflux from Wistar rat erythrocytes and to cross-react with digoxin antibodies and the ability of plasma extracts to inhibit Na+,K+-adenosine triphosphatase (ATPase) activity of membranes from rat kidney. SHR plasma inhibited the net Na+ efflux from Wistar erythrocytes by up to 27% compared with WKY or Wistar plasma. For a given number of cells, the inhibition increased with the amount of available plasma. Cross-reactivity with digoxin antibodies was twice as high in SHR as in WKY or Wistar plasma. It was already enhanced in 3- to 4-week-old rats. Plasma extracts from SHR significantly inhibited Na+,K+-ATPase activity when compared with WKY extracts (75.6 +/- 2.6 vs 89.3 +/- 2.4 mumol Pi/mg/hr; p less than 0.01) but did not differ from Wistar plasma extracts. These results strongly suggest that circulating digitalislike compound(s) are present in elevated amounts in SHR as early as 3 to 4 weeks of age, but their exact participation in blood pressure elevation or maintenance remains to be clarified.     

Long-term arterial pressure in spontaneously hypertensive rats is set by the kidney.

OBJECTIVES: We investigated whether arterial pressure in spontaneously hypertensive rats (SHR) can be normalized by a kidney graft from normotensive histocompatible donors. In addition, the effect of differential genetic predisposition to hypertension of recipients of an SHR kidney on the development of post-transplantation hypertension was studied. METHODS: SHR were transplanted with a kidney from congenic rats (BB.1K) homozygous for a 2 cM segment of SHR chromosome 20, including the major histocompatibility complex class Ia and class II genes. BB.1K and F1 hybrids (F1H, SHR x Wistar-Kyoto rats) were transplanted with an SHR kidney and the development of renal post-transplantation hypertension was monitored. RESULTS: Thirty days after renal transplantation, mean arterial pressure (MAP) was 116 +/- 4 mmHg in SHR with a BB.1K kidney (n = 8) versus 168 +/- 2 mmHg in sham-operated SHR (n = 10); P < 0.001. Cumulative renal sodium balance (mmol/100 g body weight) over 21 days after bilateral nephrectomy was 6.8 +/- 0.6 in SHR with a BB.1K kidney versus 10.8 +/- 1.6 in sham-operated SHR (P < 0.05). Within 60 days of transplantation, MAP increased in BB.1K and in F1H transplanted with an SHR kidney (n = 7 per group) by 38 +/- 5 mmHg and 43 +/- 8 mmHg, respectively. CONCLUSIONS: In SHR, arterial pressure can be normalized by a kidney graft from normotensive donors. The genetic predisposition of the recipients to hypertension does not modify the rate and the extent of the arterial pressure rise induced by an SHR kidney graft.     

自发性高血压大鼠压力反射敏感性与血压变异性的关系

目的研究自发性高血压大鼠（ＳＨＲ）动脉血压变异性（ＢＰＶ）和压力反射敏感性（ＢＲＳ）的改变及二者间相关性。方法清醒、自由活动状态下测定ＳＨＲ及对照ＷＫＹ大鼠２４小时收缩压（ＳＢＰ）、舒张压（ＤＢＰ）、心率（ＨＲ）及其各自变异性的改变；单次静脉注射去氧肾上腺素（５μｇ／ｋｇ）以测定压力反射对心率的控制功能（ＢＲＳＨＲ）；化学切除自主神经阻断压力反射传出通路后，比较静注去氧肾上腺素后的升压曲线下面积差异，测定压力反射对血压的控制功能（ＢＲＳＢＰ）。结果ＳＨＲ的血压及血压变异性显著高于ＷＫＹ大鼠，ＢＲＳ明显降低；ＢＲＳ与ＳＨＲ和ＷＫＹ大鼠的ＢＰＶ呈负相关，其中ＢＲＳＢＰ与ＢＰＶ的相关系数高于ＢＲＳＨＲ与ＢＰＶ的相关系数；ＢＲＳＨＲ或ＢＲＳＢＰ与心率及心率变异性间均无相关性。结论压力反射敏感性与血压变异性间呈负相关关系，其中ＢＲＳＢＰ为反映压力反射功能的较敏感指标。     

自发性高血压大鼠运动降压与动脉压力反射敏感性的相关性

目的：探讨运动训练对自发性高血压大鼠（SHR）动脉压力反射（BRS）敏感性的影响及血压与BRS的相关性。方法：雄性SHR大鼠和正常血压Wistar大鼠各20只被随机各分成常态（安静）组和运动组,每组10只。两运动组大鼠进行8周跑台训练（20m／min,60min／d,6d／周）。采用尾套法测量清醒大鼠的收缩压（SBP）和心率（HR）。静脉注射苯肾上腺素（PE）和硝普钠（NP）分别诱发降压反射和升压反射,以反射前后的心率与平均动脉压变化值之比（HR／MAP）作为降压反射敏感性（BRS-PE）和升压反射敏感性（BRS-NP）指标。结果：8周运动结束时,SHR运动组静息SBP[（163．6±10．7）mmHg比（180．0±8．5）mmHg]和HR[（345．0±9．8）次／min比（368．4±13．3）次／mini较SHR常态组显著下降,P均〈0．01。Wistar运动组静息SBP与常态组无明显差异（P〉0．05）,但HR较常态组显著下降[（343．9±10．2）次／min比（362．2±13．0）次／min,P〈0．05]。SHR运动组的BRS．PEE（1．32±0．22）bpm／mmHg比（0．89±0．13）bpm／mmHg]和BRS—NP[（1．21±0．26）bpm／mmHg比（0．60±0．09）bpm／mmHg]较SHR常态组明显提高,P均〈0．01,但仍低于Wistar常态组的~RSVBRS—PE：（1．96±0．23）bpm／mm—Hg,BRS．NP：（1．32±0．17）bpm／mmHg]。Pearson线性相关分析显示,SHR常态组和运动组的平均动脉压与BRS呈显著负相关（r=-0．734,P〈0．01）。结论：运动训练能显著降低SHR的血压,它与运动改善压力反射敏感性有关,提示增强的压力反射功能可能是高血压运动疗法的重要机制。     

Renal kallikrein activity in spontaneously hypertensive rats

To assess possible roles of the renal kallikrein-kinin system in the development of spontaneous hypertension, we determined daily excretion of urinary total and active kallikrein in 6-week-old spontaneously hypertensive rats (SHR) and Wistar-Kyoto (WKY) rats for up to 2 weeks. We also evaluated the effect of aprotinin, a reversible inhibitor of kallikrein and other serine proteases, on the development of hypertension in the 6-week-old SHR on ordinary intakes of sodium or on sodium loading with 1% NaCl for up to 2 weeks. Active kallikrein was determined by its kininogenase activity, and the generated kinins were radio-immunologically measured. Total kallikrein was also determined by measuring kininogenase activity after inactive kallikrein had been activated with trypsin (200 micrograms/ml). Urinary active kallikrein excretion was significantly reduced in 7-week-old SHR (1.5 +/- 0.2 microgram/day compared to 2.8 +/- 0.3 micrograms/day in WKY, P less than 0.05) and in 8-week-old SHR (1.6 +/- 0.2 microgram/day compared to 3.2 +/- 0.4 micrograms/day in WKY, P less than 0.01). Urinary total kallikrein excretion was also reduced in the 7- and 8-week-old SHR whereas the ratio of active to total kallikrein did not change. In addition, renal contents of total and active kallikrein were significantly lower in the 8-week-old SHR than in the controls.(ABSTRACT TRUNCATED AT 250 WORDS)     

Portal hypertension ameliorates arterial hypertension in spontaneously hypertensive rats

Systemic hemodynamic effects of portal hypertension in arterial hypertension and their relationship to serum bile acid levels were investigated using spontaneously hypertensive rats 2 and 15 weeks after partial portal vein ligation (SHR-PVL) or sham operation (SHR-SH) and normotensive controls. Mean arterial pressure in SHR-PVL at 2 weeks was decreased to normal due to a decrease in peripheral resistance. Mean arterial pressure and peripheral resistance in SHR-PVL at 15 weeks did not differ from SHR-SH. Resolution of this arterial hypotensive effect and systemic hyperdynamic circulation was associated with decreased portal-systemic shunting. Bile acid levels were increased in both SHR-PVL groups. These results suggest that an endogenous circulating vasodilator(s) associated with portal hypertension ameliorates the systemic vasoconstriction in SHR. Bile acids, while not direct mediators of these hemodynamic events, may be prototypic of this vasodilator. This arterial hypertensive model may aid further investigation of the mechanisms contributing to the hyperdynamic state in portal hypertension.     

Dietary sodium restriction, blood pressure and sympathetic activity in spontaneously hypertensive rats

Spontaneously hypertensive rats (SHR) and Wistar-Kyoto (WKY) rats were started at birth on sodium diets ranging from severely deficient (9 mumol) to a regular intake (101 mumol Na+/g food). Blood pressure and sympathetic activity were assessed at 6 and 16 weeks of age. At either age, SHR on 9 mumol Na+ failed to develop hypertension. Spontaneously hypertensive rats on 17 mumol Na+ exhibited significant blunting of the hypertension; SHR on 26 mumol showed a small amelioration. At 6 weeks, basal plasma noradrenaline was similar in SHR and WKY on 9 and 101 mumol Na+, whereas plasma adrenaline was increased in SHR at the lowest sodium level. At 16 weeks, both catecholamines were significantly increased in SHR on the 9 and 17 mumol sodium diet versus SHR on the control diet. Blood pressure responsiveness to noradrenaline was significantly decreased on 9 mumol Na+, but to a similar extent in both strains. In contrast, the blood pressure lowering effect of ganglionic blockade was markedly blunted in SHR on 9 mumol Na+ and to a lesser extent on 17 mumol Na+ (both for percentage and absolute decrease) and 26 mumol Na+ (only for absolute fall); however, this did not occur in WKY over the diet-range used. We conclude that a sodium-deficient diet from birth prevents/blunts the development of hypertension in SHR, at least partly by decreasing the pressor effect of the sympathetic nervous system.     

Opposing adrenergic actions of intravenous metformin on arterial pressure in female spontaneously hypertensive rats.

OBJECTIVE: Intravenous (i.v.) injection of the antidiabetic drug metformin rapidly lowers mean arterial pressure (MAP) in spontaneously hypertensive rats (SHR). However, if autonomic ganglia or alpha-adrenoceptors are first blocked then metformin rapidly raises MAP in SHR. This study was conducted to further characterize the adrenergic mechanisms of these opposing i.v. actions of the drug. METHODS: Conscious, undisturbed female SHR with indwelling vascular catheters were used to measure acute effects of i.v. metformin (100 mg/kg; before and after sustained ganglionic blockade, GB, with chlorisondamine, 5 mg/kg) on: (1) circulating levels of catecholamines, (2) MAP after pharmacologic modulation of beta- as well as alpha-adrenoceptors and (3) all the above in the absence as well as presence of the adrenal medulla. RESULTS: Plasma norepinephrine (NE) and epinephrine (E) levels (pg/ml) were rapidly increased by i.v. metformin (8 SHR, p < 0.05) both before GB (delta NE = +146 +/- 41; delta E = +119 +/- 31) and after GB (delta NE = +79 +/- 24; delta E = +120 +/- 32). Similar increases in plasma NE (though not E) were seen in SHR without adrenal medullae. Blockade of beta-adrenoceptors with propranolol (pro; 3 mg/kg, 8 SHR) enhanced the rapid depressor response to i.v. metformin before GB (delta MAP, mmHg: -38 +/- 4 with pro vs -17 +/- 3 without pro; p < 0.05) and attenuated the rapid pressor response to i.v. metformin after GB (delta MAP, mmHg: +8 +/- 3 with pro vs +30 +/- 4 without pro; p < 0.05). Results were similar in SHR without adrenal medullae. Finally, if baseline MAP under GB was raised back to hypertensive levels with i.v. infusion of either NE or phenylephrine then i.v. metformin did not raise but rather reduced MAP in SHR. CONCLUSION(S): The acute depressor action of i.v. metformin in female SHR (1) is most likely due to a direct vasodilator action which includes inhibition of alpha-receptor-mediated vasoconstriction and (2) is buffered by an acute beta-receptor-mediated pressor action likely due to a direct metformin-induced release of NE from postganglionic sympathetic nerve endings.     

Sympathetic nerve activity and blood pressure in normotensive backcross rats genetically related to the spontaneously hypertensive rat

The genetic basis of hyperactivity of the sympathetic nervous system (SNA) in spontaneously hypertensive rats (SHR) was assessed by measuring SNA in animals derived from a backcross (BC) breeding program designed to isolate single gene differences causing changes in blood pressure. Selective breeding of the male hypertensive rats with inbred normotensive female Wistar/Lewis rats yielded progeny with a range of blood pressures, but whose group mean pressures were lower than the group mean pressures of the original SHR. Progressive generations had progressively lower group mean pressures. There was a positive correlation between SNA and mean arterial pressure in BC rats. These results indicate that the genetic defect in SHR may be abnormality in SNA, and the hypertension in these animals is a secondary result of this primary defect. Baroreceptor function was also assessed in SHR and in BC rats. In young (8 to 24 weeks old) SHR, baroreceptor function was similar to that in BC rats, whereas SNA was markedly increased. Only in older (24 to 40 weeks old) SHR was there an abnormality in the gain of baroreceptors. The development of hypertension in SHR therefore appears to be due to increased SNA resulting from a defect in the central nervous system. Changes in baroreceptor function are secondary to the hypertension and occur after the hypertension is established.     

Renal renin-angiotensin system activity in naturally reared and cross-fostered spontaneously hypertensive rats

BACKGROUND: Young (4 week) spontaneously hypertensive rats (SHR) exhibit greater renal responses to angiotensin II (Ang II) than normotensive Wistar Kyoto (WKY) rats. SHR pups cross-fostering to a WKY dam at birth (SHRX) are less sensitive to Ang II and have lower adult blood pressure. The aim of this study was to compare renal renin-angiotensin system activity in young naturally reared and cross-fostered SHR pups. METHODS: SHR and WKY rats were reared either by their natural mothers or by a foster mother of the opposite strain. At 5, 10, and 15 days of age, renal tissue renin activity and Ang II concentration were measured by radioimmunoassay. Renin-secreting cells were identified by in situ hybridization and AT(1) receptor expression was compared using Western blots. Ang II-mediated cAMP generation was measured in isolated proximal tubules. CONCLUSIONS: Tissue renin activity and numbers of renin-secreting cells did not differ, but Ang II was higher in SHRX. The AT(1) receptor expression was significantly lower in SHRX compared with SHR. Basal and Ang II-stimulated cAMP was lower in SHR tubules compared with WKY and SHRX tubules.Cross-fostering reversed the increased renal sensitivity of the SHR to Ang II. These data suggest that renal AT(1) receptor expression can be manipulated during the postnatal period and that this may affect adult blood pressure.     

Restraining influence of A2 neurons in chronic control of arterial pressure in spontaneously hypertensive rats

OBJECTIVES: The role of A2 noradrenergic neurons in regulating cardiovascular homeostasis chronically is poorly understood. We aimed to genetically target A2 neurons and induce expression of a potassium channel to reduce their electrical excitability and study how this impacts on long-term blood pressure control. METHODS: We used a lentiviral vector with PRSx8 promoter for targeting noradrenergic neurons to express a human inwardly rectifying potassium channel, hK(ir)2.1. The dorsal vagal complex containing the A2 cell group was microinjected with the PRSx8-hK(ir)2.1 lentivirus in both normotensive Wistar rats and spontaneously hypertensive rats fitted with radio telemetry devices. RESULTS: In Wistar rats expression of hKir2.1 increased lability of arterial pressure between 7 to 21 days post-injection with mean arterial pressure not increasing significantly until day 21 (+11+/-1 mmHg; p<0.001; dark phase). Urine output and water intake were both decreased. In contrast, in spontaneously hypertensive rats not only the lability of arterial pressure but also the mean arterial pressure increased by day 7 and persisted during the 21 day recording period (+13+/-1 mmHg; p<0.001 at day 21). In contrast to Wistar rats, body fluid homeostasis was un-affected in hypertensive rats. Neither cardiac baroreceptor reflex gain nor heart rate variability changed in either rat strain. Plasma osmolality levels were also unaffected. CONCLUSIONS: Our data indicate a role for A2 neurons in the chronic regulation of arterial pressure independent of the cardiac baroreceptor reflex. The activity of A2 neurons may constitute an essential part of the central circuitry underpinning chronic regulation of arterial pressure in both, normo- and hypertensive rats.     

Thromboxane synthesis and blood pressure in spontaneously hypertensive rats

The present study examines effects of administration of OKY 046, an inhibitor of thromboxane synthesis, for 100 days on systemic blood pressure and renal function in spontaneously hypertensive rats and in normotensive control rats. Untreated spontaneously hypertensive rats had higher values for thromboxane excretion in the urine and higher values for blood pressure than did normotensive control rats. Administration of OKY 046 decreased systolic and mean arterial blood pressure and urinary excretion of thromboxane and protein in spontaneously hypertensive rats. Administration of OKY 046 decreased thromboxane excretion in the urine of normotensive control rats but had no effect on blood pressure or protein excretion. Renal function, as assessed by the clearances of inulin and p-aminohippuric acid, was greater in spontaneously hypertensive rats treated with OKY 046 than in those receiving vehicle alone. In normotensive control rats, OKY 046 administration did not affect renal function. These results suggest that increased renal synthesis of thromboxane may play a role in the pathogenesis of the elevated blood pressure of spontaneously hypertensive rats.     

Cytochrome P450 1B1 contributes to increased blood pressure and cardiovascular and renal dysfunction in spontaneously hypertensive rats

Purpose

We investigated the contribution of cytochrome P450 (CYP) 1B1 to hypertension and its pathogenesis by examining the effect of its selective inhibitor, 2,4,3′,5′-tetramethoxystilbene (TMS), in spontaneously hypertensive rats (SHR).

Methods

Blood pressure (BP) was measured bi-weekly. Starting at 8 weeks, TMS (600 μg/kg, i.p.) or its vehicle was injected daily. At 14 weeks, samples were collected for measurement.

Results

TMS reversed increased BP in SHR (207?±?7 vs. 129?±?2 mmHg) without altering BP in Wistar-Kyoto rats. Increased CYP1B1 activity in SHR was inhibited by TMS (RLU: aorta, 5.4?±?0.7 vs. 3.7?±?0.7; heart, 6.0?±?0.8 vs. 3.4?±?0.4; kidney, 411?±?45 vs. 246?±?10). Increased vascular reactivity, cardiovascular hypertrophy, endothelial and renal dysfunction, cardiac and renal fibrosis in SHR were minimized by TMS. Increased production of reactive oxygen species and NADPH oxidase activity in SHR, were diminished by TMS. In SHR, TMS reduced increased plasma levels of nitrite/nitrate (46.4?±?5.0 vs. 28.1?±?4.1 μM), hydrogen-peroxide (36.0?±?3.7 vs. 14.1?±?3.8 μM), and thiobarbituric acid reactive substances (6.9?±?1.0 vs. 3.4?±?1.5 μM). Increased plasma levels of pro-inflammatory cytokines and catecholamines, and cardiac activity of extracellular signal-regulated kinase, p38 mitogen-activated protein kinase, c-Src tyrosine kinase, and protein kinase B in SHR were also inhibited by TMS.

Conclusions

These data suggests that increased oxidative stress generated by CYP1B1 contributes to hypertension, increased cytokine production and sympathetic activity, and associated pathophysiological changes in SHR. CYP1B1 could be a novel target for developing drugs to treat hypertension and its pathogenesis.     

Pathogenesis of acute arterial fat deposition in spontaneously hypertensive rats.

The selectively-bred substrains of spontaneously hypertensive rats with a greater vulnerability to vascular lesions rapidly developed arterial fat deposition within 1 or 2 weeks as well as a greater hypercholesterolemic response when fed on high fat cholesterol diet including 20% of suet, 5% of cholesterol and 2% of cholic acid. The ring-like arterial fat deposition at the branches of superior mesenteric arteries and cerebrobasal arteries, which was found to be good indices for the deposition of intrarenal or coronary arteries, was not observed in normotensive rats fed on high fat cholesterol diet for 3 months, greatly delayed in SHR under antihypertensive treatment and accelerated by 1% salt loading in drinking water. The horseradish peroxidase infused intravenously 1 to 4 hours before sacrifice leaked in ring-like forms which corresponded to the fat deposit in mesenteric arteries. The incorporation of 3H-proline infused 4 hours before sacrifice was enhanced in the mesenteric arteries with the fat deposition. These results clearly indicated that hypertension was a great contributory factor to rapid arterial fat deposition, which was caused by an increased vascular permeability and enhanced the arterial collagen formation, the initiation process of arterio- or atherosclerosis.     

Autonomic control of the diurnal variation in arterial blood pressure and heart rate in spontaneously hypertensive and Wistar-Kyoto rats

The relative influences of sympathetic and parasympathetic neural modulation on mean arterial pressure (MAP) and heart rate (HR), and their respective variabilities, were studied in young spontaneously hypertensive rats (SHR) and Wistar-Kyoto rats (WKY). An on-line computerized system was used for continuous intra-arterial measurements of MAP and HR in unrestrained rats. In addition, the autonomic nervous control of MAP and HR was studied in ageing SHR and WKY. Both WKY and SHR showed diurnal rhythms with regard to MAP and HR. The MAP variability was higher in SHR than in WKY during both daytime (inactive) and night-time (active), and did not change in response to either beta 1-adrenoceptor- or cholinergic blockade. Structural vascular changes, with a resultant increase in reactivity, may explain the elevated MAP variability in SHR. HR variability was clearly reduced in SHR; this was not influenced by vagal blockade, whereas HR variability was significantly reduced in WKY. This pattern is suggested to be due to a reduced tonic vagal discharge in SHR, as part of a persistent, mild defence reaction. The initial reduction in vagal activity will in turn eliminate vagally mediated tachycardias. Furthermore, administration beta 1-blockade to SHR of different ages caused a greater fall in MAP and HR than in WKY, indicating an increased dependence upon the sympathetic nervous system in SHR with age.