Bernard Jover

Simvastatin Prevents Angiotensin II–Induced Cardiac Alteration and Oxidative Stress

The influence of the HMG-CoA reductase inhibitor simvastatin was assessed on the cardiovascular alterations and production of free radicals associated with chronic angiotensin II (Ang II) infusion. Simvastatin (60 mg/kg per day PO) or placebo were given concomitantly for 10 days in Sprague-Dawley rats infused with Ang II (200 ng/kg per minute SC, osmotic pump). In addition, simvastatin or placebo was also given in vehicle-infused rats. Tail-cuff pressure and albuminuria were measured before and at the end of the treatment period. Cardiac weight, carotid structure, production of reactive oxygen species (ROS, by chemiluminescence) by polymorphonuclear leukocytes and aortic wall as well as protein and lipid oxidation products were determined at the end of the study. Ang II increased tail-cuff pressure by 56±12 mm Hg and simvastatin blunted the development of hypertension by ≈70% (19±5 mm Hg). Increases in heart weight index and carotid cross-sectional area induced by Ang II were obliterated by simvastatin (3.18±0.09 versus 3.46±0.11 mg/g body wt and 0.125±0.010 versus 0.177±0.010 mm2, respectively). The Ang II–induced increases in leukocyte and aortic production of ROS as well as protein and lipid oxidation products were prevented by simvastatin. No effect of simvastatin was detected in non–Ang II–infused rats. These results indicate that simvastatin prevented the development of hypertension and cardiovascular hypertrophy together with inhibition of the induced angiotensin II production of ROS. Therefore, inhibition of HMG CoA reductase by statins may have a beneficial effect on cardiovascular alterations through its antioxidant action in experimental Ang II–dependent hypertension.

Prevention and Reversal by Enalapril of Target Organ Damage in Angiotensin II Hypertension

Angiotensin-converting enzyme inhibitors (ACE-Is) prevent target organ damage in several models of hypertension. The aim of this study was to assess the influence of the ACE-I enalapril (10 mg/kg-1 per day, gavage) on the cardiovascular alterations and production of free radicals induced by chronic infusion of angiotensin II (Ang II, 200 ng/kg-1 per minute, SC) in Sprague-Dawley rats. Enalapril was given concomitantly for the 10 days of Ang II infusion (prevention) or from day 10 to 17 of Ang II infusion (intervention). The influence of the NADPH oxidase inhibitor apocynin (600 mg/L-1 in drinking water) was evaluated. mg/L-l in drinking water) was evaluated. Enalapril and apocynin had no effect on hypertension in the prevention and intervention studies. Enalapril prevented the increase in heart weight index (HWI), carotid cross-sectional area (CSA) and albuminuria induced by Ang II. Enalapril reduced HWI and albuminuria whereas CSA I was not affected in the intervention study. Apocynin had effects comparable to enalapril. Both enalapril and apocynin reduced the overproduction of superoxide anion by the left ventricle and rise in advanced oxidation protein products induced by C Ang II. Therefore, the antioxidant but not the antihypertensive effect of enalapril may participate in the prevention and treatment of the Ang II-induced cardiovascular and renal alterations.

Effects of Spironolactone and Fosinopril on the Spontaneous and Chronic Ventricular Arrhythmias in a Rat Model of Myocardial Infarction

We documented chronic ventricular arrhythmias in a first group of 58 rats after myocardial infarction (MI), then assessed the effects of spironolactone and fosinopril on morphological indexes and arrhythmias in a second group (n = 33). Rats underwent Holter monitoring at 2 months after MI. Treatment was randomly given from 1 until 4 months after MI: placebo in 12 rats (P), fosinopril in 9 (F) and spironolactone + fosinopril in 12 (SF). The score of ventricular premature beats (VPBs) was related to the MI size and the delay from MI (p < 0.01). VPB’s reduction/increase required to demonstrate anti/pro-arrhythmic effects were 55 and 59%. Mass indexes were lower in F and SF (p = 0.01). VPB’s difference (4 months vs. 1) was positive in P, significantly lower in F and negative in SF (p = 0.04). In this relevant model of spontaneous and chronic ventricular arrhythmias, SF association did not increase mortality but lowered the arrhythmic score.

Losartan prevents thromboxane A2/prostanoid (TP) receptor mediated increase in microvascular permeability in the rat

We explored the putative inhibitory effects of losartan, a potent nonpeptide, AT1 receptor antagonist, against thromboxane A2 (TxA2)/prostanoid (TP) receptor-mediated transcapillary shift of plasma fluid and proteins. The effects of the TP receptor agonist U-46619 (1.25 or 10 microg/kg intravenously) on hematocrit (Hct), albumin extravasation (AE), and mean arterial pressure (MAP) were evaluated in anesthetized Sprague-Dawley rats. U-46619 dose-dependently increased Hct (by 4.5% +/- 0.7% and 7.5% +/- 1.0% at the low and high dose, respectively; both P < .05 v vehicle-infused group) and decreased MAP (by 7.9% +/- 4.1% and 16.8% +/- 5.7% at the low and high dose, respectively; P = NS and P < .05 v vehicle-infused group, respectively). In these experiments, using a quantitative Evans blue technique, we showed that U-46619 dose-dependently increased AE in kidney, lung, spleen, and testis (by approximately 31%, 172%, 52%, and 57% at the highest dose) but not in adipose tissue, brain, liver, mesentery, and skeletal muscle. In the heart, AE was maximally increased by the low dose of U-46619. The U-46619 (10 microg/kg)-induced increases in Hct and AE and decreases in MAP were blocked by pretreatment with the TP receptor antagonist SQ 29,548 (2.5 mg/kg intravenously + 2.5 mg/kg/h) and the high dose of losartan (40 mg/kg intravenously). The low dose of losartan (10 mg/kg intravenously) did not significantly alter the responses to U-46619 except for the AE, which was reduced in some but not all tissues. Furthermore, the U-46619-induced changes in Hct (+6.3% +/- 1.7%), MAP (-13.9% +/- 8.4%) and AE were not affected in rats pretreated with the converting-enzyme inhibitor enalapril. Thus, selective activation of TP receptors by U-46619 induced plasma fluid and protein exudation; these responses were specifically attenuated by the relatively high dose of losartan, suggesting that this compound acts as a TP receptor antagonist in this experimental model.

Carbon monoxide increases inducible NOS expression that mediates CO-induced myocardial damage during ischemia-reperfusion

We investigated the role of inducible nitric oxide (NO) synthase (iNOS) on ischemic myocardial damage in rats exposed to daily low nontoxic levels of carbon monoxide (CO). CO is a ubiquitous environmental pollutant that impacts on mortality and morbidity from cardiovascular diseases. We have previously shown that CO exposure aggravates myocardial ischemia-reperfusion (I/R) injury partly because of increased oxidative stress. Nevertheless, cellular mechanisms underlying cardiac CO toxicity remain hypothetical. Wistar rats were exposed to simulated urban CO pollution for 4 wk. First, the effects of CO exposure on NO production and NO synthase (NOS) expression were evaluated. Myocardial I/R was performed on isolated perfused hearts in the presence or absence of S-methyl-isothiourea (1 μM), a NOS inhibitor highly specific for iNOS. Finally, Ca(2+) handling was evaluated in isolated myocytes before and after an anoxia-reoxygenation performed with or without S-methyl-isothiourea or N-acetylcystein (20 μM), a nonspecific antioxidant. Our main results revealed that 1) CO exposure altered the pattern of NOS expression, which is characterized by increased neuronal NOS and iNOS expression; 2) cardiac NO production increased in CO rats because of its overexpression of iNOS; and 3) the use of a specific inhibitor of iNOS reduced myocardial hypersensitivity to I/R (infarct size, 29 vs. 51% of risk zone) in CO rat hearts. These last results are explained by the deleterious effects of NO and reactive oxygen species overproduction by iNOS on diastolic Ca(2+) overload and myofilaments Ca(2+) sensitivity. In conclusion, this study highlights the involvement of iNOS overexpression in the pathogenesis of simulated urban CO air pollution exposure.

Plasma Volume and Arterial Stiffness in the Cardiac Alterations Associated With Long-Term High Sodium Feeding in Rats

BACKGROUNDnRats fed an early and long-term high-salt diet (HS, NaCl 8%) developed significant cardiovascular hypertrophy without major changes in blood pressure. The mechanism of this cardiac hypertrophy has not been yet elucidated.nnnMETHODSnIn the present work, we assessed the influence of volume overload and arterial stiffness on the structural and functional cardiac changes induced by a high salt feeding from weaning to 5 months of age in Sprague-Dawley rats.nnnRESULTSnCardiac hypertrophy in HS rats was associated with clear augmentation in the size of left ventricular (LV) cardiomyocyte as compared with rats fed regular diet (NS). Echocardiography revealed a marked increase in relative wall thickness. Of note, no alteration of global and regional systolic and diastolic function was detected in HS rats. High sodium consumption was associated with a slight increase in aortic mean and pulse pressure (PP) without effect on pulse wave velocity (PWV) and elastic modulus. Plasma volume and central venous pressure were higher in HS than NS rats. Whereas plasma endothelin level was twofold higher in HS than in NS rats, LV endothelin level was similar in both groups. Treatment by the endothelin receptors blocker bosentan had no detectable effect on the changes induced by HS diet.nnnCONCLUSIONSnHigh sodium intake was associated with concentric cardiac hypertrophy without change of systolic and diastolic function. Aortic rigidity was not a determinant of cardiac hypertrophy. Beside a likely direct effect of sodium on cardiovascular system the slight increase in arterial pressure and plasma volume play a role.

Early changes in body weight and blood pressure are associated with mortality in incident dialysis patients

Abstract Background While much research is devoted to identifying novel biomarkers, addressing the prognostic value of routinely measured clinical parameters is of great interest. We studied early blood pressure (BP) and body weight (BW) trajectories in incident haemodialysis patients and their association with all-cause mortality. Methods In a cohort of 357 incident patients, we obtained all records of BP and BW during the first 90 days on dialysis (over 12 800 observations) and analysed trajectories using penalized B-splines and mixed linear regression models. Baseline comorbidities and all-cause mortality (median follow-up: 2.2 years) were obtained from the French Renal Epidemiology and Information Network (REIN) registry, and the association with mortality was assessed by Cox models adjusting for baseline comorbidities. Results During the initial 90 days on dialysis, there were non-linear decreases in BP and BW, with milder slopes after 15 days [systolic BP (SBP)] or 30 days [diastolic BP (DBP) and BW]. SBP or DBP levels at dialysis initiation and changes in BW occurring in the first month or during the following 2 months were significantly associated with survival. In multivariate models adjusting for baseline comorbidities and prescriptions, higher SBP value and BW slopes were independently associated with a lower risk of mortality. Hazard ratios of mortality and 95% confidence intervals were 0.92 (0.85–0.99) for a 10 mmHg higher SBP and 0.76 (0.66–0.88) for a 1 kg/month higher BW change on Days 30–90. Conclusions BW loss in the first weeks on dialysis is a strong and independent predictor of mortality. Low BP is also associated with mortality and is probably the consequence of underlying cardiovascular diseases. These early markers appear to be valuable prognostic factors.

NADPH oxidase activity is associated with cardiac osteopontin and pro-collagen type I expression in uremia

Abstract Cardiovascular disease is a frequent complication inducing mortality in chronic kidney disease (CKD) patients, which can be determined by both traditional risk factors and non-traditional risk factors such as malnutrition and oxidative stress. This study aimed to investigate the role of oxidative stress in uremia-induced cardiopathy in an experimental CKD model. CKD was induced in Sprague-Dawley rats by a 4-week diet supplemented in adenine, calcium and phosphorous and depleted in proteins. CKD was associated with a 3-fold increase in superoxide anion production from the NADPH oxidase in the left ventricle, but the maximal activity of mitochondrial respiratory chain complexes was not different. Although manganese mitochondrial SOD activity decreased, total SOD activity was not affected and catalase or GPx activities were increased, strengthening the major role of NADPH oxidase in superoxide anion output. Superoxide anion output was associated with enhanced expression of osteopontin (×7.7) and accumulation of pro-collagen type I (×3.7). To conclude, the increased activity of NADPH oxidase during CKD is associated with protein modifications which could activate a pathway leading to cardiac remodelling.

Relaxin and atrial natriuretic peptide pathways participate in the anti-fibrotic effect of a melon concentrate in spontaneously hypertensive rats

Background In spontaneously hypertensive rats (SHR), a model of human essential hypertension, oxidative stress is involved in the development of cardiac hypertrophy and fibrosis associated with hypertension. Dietary supplementation with agents exhibiting antioxidant properties could have a beneficial effect in remodeling of the heart. We previously demonstrated a potent anti-hypertrophic effect of a specific melon (Cucumis melo L.) concentrate with antioxidant properties in spontaneously hypertensive rats. Relaxin and atrial natriuretic peptide (ANP) were reported to reduce collagen deposition and fibrosis progression in various experimental models. Objective The aim of the present investigation was to test the hypothesis that, beside reduction in oxidative stress, the melon concentrate may act through relaxin, its receptor (relaxin/insulin-like family peptide receptor 1, RXFP1), and ANP in SHR. Design and results The melon concentrate, given orally during 4 days, reduced cardiomyocyte size (by 25%) and totally reversed cardiac collagen content (Sirius red staining) in SHR but not in their normotensive controls. Treatment with the melon concentrate lowered cardiac nitrotyrosine-stained area (by 45%) and increased by 17–19% the cardiac expression (Western blot) of superoxide dismutase (SOD) and glutathione peroxidase. In addition, plasma relaxin concentration was normalized while cardiac relaxin (Western blot) was lowered in treated SHR. Cardiac relaxin receptor level determined by immunohistochemical analysis increased only in treated SHR. Similarly, the melon concentrate reversed the reduction of plasma ANP concentration and lowered its cardiac expression. Conclusions The present results demonstrate that reversal of cardiac fibrosis by the melon concentrate involves antioxidant defenses, as well as relaxin and ANP pathways restoration. It is suggested that dietary SOD supplementation could be a useful additional strategy against cardiac hypertrophy and fibrosis.

Angiotensin II type 1 receptor antagonist versus angiotensin I‐converting enzyme inhibitor in experimental renal diseases

Abstract— Angiotensin II has an important role in the structural and functional regulation of the cardiovascular and renal systems. Blockade of the renin‐angiotensin system can be achieved with angiotensin‐converting enzyme (ACE) inhibitors and non‐peptidic, orally active, angiotensin II type 1 receptor (ATI) antagonists. However, the question that has yet to be answered is whether ACE inhibitors and ATI receptor antagonists have similar renoprotective effects in various experimental diseases. Although many studies have assessed the role of either ACE inhibitors or ATI receptor antagonists, we have reviewed the literature comparing both types of blocker in the same experiment. In most models of hypertension or renal failure, both classes of blocker appear to have similar antihypertensive and renal profiles. In a few models, the influence of the ACE inhibitor on arterial pressure and/or renal function is more marked than that of the ATI receptor antagonist. Even though the maximum dose‐effect curve for each compound was not often carried out for the systemic haemodynamics and renal alterations, the difference between both classes of blocker, when observed, appeared to favour the participation of non‐angiotensin II or non‐ATI‐mediated mechanisms. Among them are the stimulation of prostaglandin production, kinin accumulation, nitric oxide generation and modulation of endothelin or TGFβ1 expression via direct or indirect pathways. Future experimental and probably human studies aimed at comparing angiotensin II receptor antagonists and ACE inhibitors, with respect to blood pressure and renal damage, should be designed with all these concerns in mind.