氯沙坦联合螺内酯对预N-硝基-L-精氨酸甲酯诱导高血压模型大鼠肾脏纤维化及心室重塑的影响

摘要 目的：探讨氯沙坦联合螺内酯对预N-硝基-L-精氨酸甲酯（N''-nitro-L-arginine-methylesterhydrochloride,L-NAME）诱导高血压模型大鼠肾脏纤维化及心室重塑的影响。方法：选择8周龄Wistar大鼠为研究对象,通过给予0.1 %的L-NAME饮用水诱导高血压模型。将大鼠根据随机数字表法分为三组：对照组,诱导组和联合治疗组。通过超声心动图比较室间隔厚度和左心室后壁厚度。CODATM8无创血压系统监测大鼠心脏功能。通过蛋白印迹分析大鼠肾切片中I型胶原、III型胶原和CTGF的蛋白表达。Masson的三色染色评估肾脏组织胶原含量沉积。通过RT-PCR分析大鼠心脏肥大标志物和转录因子心房利钠肽（Atrial natriuretic peptide,ANP）和脑利钠肽（Brain natriuretic peptide,BNP）的表达。通过免疫组化和免疫比浊法分析大鼠肾小球硬化指数和白蛋白尿。结果：模型组较对照组大鼠室间隔厚度和左心室后壁厚度、MAP和心脏/体重比、I型胶原、III型胶原和CTGF的蛋白表达、ANP和BNP的mRNA表达、肾小球硬化指数和白蛋白尿以及SMA和TGF-β1的蛋白表达均显著增加,FS显著降低（P<0.05）,联合治疗组较模型组室间隔厚度和左心室后壁厚度、MAP和心脏/体重比、I型胶原、III型胶原和CTGF的蛋白表达、ANP和BNP的mRNA表达、肾小球硬化指数和白蛋白尿以及SMA和TGF-β1的蛋白表达均显著降低,FS显著增加（P<0.05）。结论：氯沙坦联合螺内酯可减轻L-NAME诱导的高血压大鼠模型中心脏重塑和肾脏纤维化的发生。     

Enhanced expression of the Epithelial Sodium Channel in neutrophils from hypertensive patients

Hypertension (HTN), i.e. abnormally high blood pressure, is a major risk factor for heart attack, stroke, and kidney failure. The Epithelial Sodium Channel (ENaC), one of the main transporters regulates blood pressure by tightly controlling the sodium reabsorption along the nephron. Recently, we have shown an α-ENaC overexpression in platelets from hypertensive patients compared to platelets from normotensive subjects, suggesting it makes a contribution to the activation state of platelets and the physiopathology of hypertension. However, the involvement of the α-ENaC localized in neutrophils to this disease remains unknown. Neutrophils are the first leukocytes to be recruited to an inflammatory site and are equipped with a strong ability to eliminate intra- or extracellular pathogens using reactive oxygen species or antibacterial proteins contained in their granules.Using the Western blotting (Wb), flow cytometry, and qRT-PCR approaches; we determined α-ENaC neutrophil overexpression at the protein and messenger RNA (mRNA) levels. By confocal and cytometry analysis, we determined the α-ENaC distribution and the heterogeneity of HTN neutrophils population, respectively. Immunoprecipitation and Wb assays demonstrated the presence of both α-ENaC and caveolin-1 phosphorylated forms, compared with neutrophils from healthy individuals. Although neutrophils from hypertensive subjects circulating in an activated state were exhibiting important oxidative stress and modifications registered by confocal, atomic force, and scanning electron microscope, they conserved their defense capabilities. The features described above for neutrophils from hypertensive patients could be attributed to α-ENaC overexpression, as its drug inhibition diminished their activation state modulating the actin cytoskeleton reorganization triggered during the activation process.     

Early calcium handling imbalance in pressure overload-induced heart failure with nearly normal left ventricular ejection fraction

Heart failure with preserved ejection fraction (HFpEF) is a common clinical syndrome associated with high morbidity and mortality. Therapeutic options are limited due to a lack of knowledge of the pathology and its evolution. We investigated the cellular phenotype and Ca²⁺ handling in hearts recapitulating HFpEF criteria. HFpEF was induced in a portion of male Wistar rats four weeks after abdominal aortic banding. These animals had nearly normal ejection fraction and presented elevated blood pressure, lung congestion, concentric hypertrophy, increased LV mass, wall stiffness, impaired active relaxation and passive filling of the left ventricle, enlarged left atrium, and cardiomyocyte hypertrophy. Left ventricular cell contraction was stronger and the Ca²⁺ transient larger. Ca²⁺ cycling was modified with a RyR2 mediated Ca²⁺ leak from the sarcoplasmic reticulum and impaired Ca²⁺ extrusion through the Sodium/Calcium exchanger (NCX), which promoted an increase in diastolic Ca²⁺. The Sarcoplasmic/endoplasmic reticulum Ca²⁺ ATPase (SERCA2a) and NCX protein levels were unchanged. The phospholamban (PLN) to SERCA2a ratio was augmented in favor of an inhibitory effect on the SERCA2a activity. Conversely, PLN phosphorylation at the calmodulin-dependent kinase II (CaMKII)-specific site (PLN-Thr17), which promotes SERCA2A activity, was increased as well, suggesting an adaptive compensation of Ca²⁺ cycling. Altogether our findings show that cardiac remodeling in hearts with a HFpEF status differs from that known for heart failure with reduced ejection fraction. These data also underscore the interdependence between systolic and diastolic “adaptations” of Ca²⁺ cycling with complex compensative interactions between Ca²⁺ handling partner and regulatory proteins.     

Hoe 140 abolishes the blood pressure lowering effect of taurine in high fructose-fed rats

Summary. High fructose feeding induces moderate increases in blood pressure of normal rats, associated with hyperinsulinemia, insulin resistance and impaired glucose tolerance. Increased vascular resistance, and sodium retention have been proposed to contribute to the blood pressure elevation in this model. Taurine, a sulphur-containing amino acid has been reported to have antihypertensive and antinatriuretic actions. In addition, taurine is shown to increase the excretion of nitrite and kinin availability and hence would be expected to improve the vascular tone. In the present study, the involvement of kinins in the blood pressure lowering effect of taurine was investigated by coadministration of Hoe 140, a kinin B₂ receptor antagonist along with taurine. The effects of taurine on plasma and urinary concentrations of sodium and tissue kallikrein activity were studied in high fructose-fed rats. Fructose-fed rats had elevated blood pressure and decreased levels of sodium in urine. Treatment with 2% taurine in drinking water prevented the blood pressure elevation and coadministration of Hoe 140 abolished this effect of taurine in high fructose-fed rats. The findings confirm the antinatriuretic action of taurine and also suggest a role for the kinins in the mechanism of taurine action in diet-induced hypertension.     

Blood-brain barrier disruption in the hypothalamus of young adult spontaneously hypertensive rats

Vascular permeability and endothelial glycocalyx were examined in young adult spontaneously hypertensive rats (SHR), stroke-prone SHR (SHRSP), and Wistar Kyoto rats (WKY) as a control, in order to determine earlier changes in the blood-brain barrier (BBB) in the hypothalamus in chronic hypertension. These rats were injected with horseradish peroxidase (HRP) as an indicator of vascular permeability. Brain slices were developed with a chromogen and further examined with cationized ferritin, a marker for evaluating glycocalyx. Staining for HRP was seen around vessels in the hypothalamus of SHR and SHRSP, but was scarce in WKY. The reaction product of HRP appeared in the abluminal pits of endothelial cells and within the basal lamina of arterioles, showing increased vascular permeability in the hypothalamus of SHR and SHRSP, whereas there were no leaky vessels in the frontal cortex of SHR and SHRSP, or in both areas of WKY. The number of cationized ferritin particles binding to the capillary endothelial cells was decreased in the hypothalamus of SHR and SHRSP, while the number decreased in the frontal cortex of SHRSP, compared with those in WKY. Cationized ferritin binding was preserved in some leaky arterioles, while it was scarce or disappeared in other leaky vessels. These findings suggest that BBB disruption occurs in the hypothalamus of 3-month-old SHR and SHRSP, and that endothelial glycocalyx is markedly damaged there without a close relationship to the early changes in the BBB.     

Increased levels of superoxide in brains from old female rats

Hypertension, aging and a range of neurodegenerative diseases are associated with increased oxidative damage. The present study examined whether superoxide (O₂^•-) levels in brain are increased during aging in female rats, and the role of superoxide dismutase (SOD) and oestrogen in regulating O₂^•- levels.

Young adult (3 month) and old (11 month) female spontaneously hypertensive stroke prone rats (SHRSP) and normotensive Wistar-Kyoto rats (WKY) were studied. O₂^•- levels were measured in brain homogenates by lucigenin chemiluminescence and SOD expression by Western blotting. Ageing significantly increased brain O₂^•- levels in WKY (cortex +216%, hippocampus +320%, striatum +225%) and to a greater extent in SHRSP (cortex +540%, hippocampus +580%, striatum +533%). Older SHRSP showed a decline in cortical Cu/Zn SOD expression compared to young adult SHRSP. Oestrogen did not attenuate O₂^•- levels.

The results show a significant age-dependent increase in brain O₂^•- levels which is exaggerated in SHRSP. The excess cortical O₂^•- levels in the SHRSP may be associated with a down-regulation of Cu/Zn SOD but are not related to a decrease in oestrogen.     

Angiotensin II receptor binding in the locus ceruleus of spontaneously hypertensive rats and Wistar-Kyoto rats: A quantitative autoradiographic study with references to hypertension and cardiac/testicular hypertrophy

The locus ceruleus (LC) contains a high density of angiotensin II (All) receptors. The role of All receptors at the LC in genetic hypertension and organ function is unclear. Spontaneously hypertensive (SHR) rats and Wistar-Kyoto (WKY) rats were studied, and blood pressure of animals was measured using the tail-cuff method. Animals were decapitated and the heart weight (HW) and testicular weight (TW) of animals measured. All receptor binding was carried out by incubating the LC tissue sections with 200 pM [¹²⁵I]-All receptor ligand, and measured using quantitative autoradiography. Results showed that the HW/BW ratio was significantly higher in SHR rats than WKY rats. However, the TW/BW ratio was higher in SHR rats than WKY rats only at two hypertensive stages, whereas All receptor binding capacity in the LC was also statistically higher in SHR rats than WKY rats. Results indicated that cardiac and testicular hypertrophies were related to higher All receptor binding in the LC of SHR rats, when compared with WKY rats. Interestingly, the literature shows that there is an LC-testes axis. In conclusion, this study indicated that All receptors in the LC are associated with genetic hypertension, and testicular weight could be a reasonable index for essential hypertension.     

Excitatory action of lead on rat sympathetic preganglionic neurons in vitro and in vivo

Lead exposure elicited an increase in blood pressure and was considered to be a cardiovascular risk factor. The involvements of sympathetic nervous system and circulating catecholamines have been implicated in lead-induced hypertension. This study examined the effects of PbCl(2) on sympathetic preganglionic neurons (SPNs) in vitro and in vivo. In vitro electrophysiological study showed that superfusion of a low concentration (5 microM) of PbCl(2), which had no effects on membrane potential and spontaneous discharge rate, enhanced excitatory postsynaptic potentials (EPSPs) in some of the SPNs examined but inhibited inhibitory postsynaptic potentials (IPSPs) in other SPNs tested. A higher concentration (50 microM) of PbCl(2) inhibited both EPSPs and IPSPs in all SPNs examined. In vivo study showed that intrathecal injection of PbCl(2) (10 and 100 nmol) via an implanted cannula to the T7-T9 segments of urethane-anesthetized rats increased both the heart rate and mean arterial pressure. The pressor and tachycardic responses of intrathecal PbCl(2) (100 nmol) were attenuated by pretreatment with intravenous administration of hexamethonium (10 mg/kg) or intrathecal AP-5 (DL-2-amino-5-phosphonovaleric acid, 100 nmol), but were not significantly antagonized by prior intrathecal administration of CNQX (6-cyano-7-nitroquinoxaline-2,3-dione, 100 nmol). Taken together, these results demonstrated that lead may exert a stimulatory effect on SPNs, which may result from the enhancement of EPSPs and inhibition of IPSPs by low concentrations of lead.     

Sodium and ATP affinities of the cardiac (Na,K)-ATPase in relation to nitric oxide synthesis in spontaneously hypertensive rats

The (Na,K)-ATPase is hypothesized to be involved in systemic vascular hypertension through its effects on smooth muscle reactivity and cardiac contractility. Investigating the kinetic properties of the above enzyme we tried to assess the molecular basis of alterations in transmembraneous efflux of Na(+) from cardiac cells in spontaneously hypertensive rats (SHR) with increased synthesis of nitric oxide (NO). In the investigated group of SHR the systolic blood pressure was increased by 64% and the synthesis of NO was increased by 60% in the heart. When activating the cardiac (Na,K)-ATPase with substrate, its activity was higher in SHR in the whole concentration range of ATP. Evaluation of kinetic parameters revealed an increase of the V(max) (by 37%) probably due to increased affinity of the ATP-binding site as indicated by the lowered K(m) value (by 38%) in SHR. During activation with Na(+), we observed no change in the enzyme activity below 10 mmol/l of NaCl whereas in the presence of higher concentrations of NaCl the (Na,K)-ATPase was stimulated. The value of V(max) increased (by 64%), however the K(Na) increased (by 106%), indicating an adaptation of the Na(+)-binding site of the enzyme to increased [Na(+)](i). Thus the (Na,K)-ATPase in our SHR group is able to extrude the excessive Na(+) from myocardial cells more effectively also at higher [Na(+)](i), while the enzyme from controls is unable to increase its activity further. This improvement of the (Na,K)-ATPase function is supported also by increased affinity of its ATP-binding site probably due to enhanced NO-synthesis.