Longitudinal changes in blood pressure are preceded by changes in albuminuria and accelerated by increasing dietary sodium intake.

BACKGROUND: Dietary sodium is a well-known risk factor for cardiovascular and renal disease; however, direct evidence of the longitudinal changes that occur with aging, and the influence of dietary sodium on the age-associated alterations are scarce. METHODS: C57BL/6 mice were maintained for 13 months on a low (LS, 0.02 % Na+), normal (NS, 0.3 % Na+) or high (HS, 1.6 % Na+) salt diet. We assessed 1) the longitudinal trajectories for two markers of cardiovascular and renal dysfunction (blood pressure (BP) and albuminuria), as well as hormonal changes, and 2) end-of-study cardiac and renal parameters. RESULTS: The effect of aging on BP and kidney damage did not reach significance levels in the LS group; however, relative to baseline, there were significant increases in these parameters for animals maintained on NS and HS diets, starting as early as month 7 and month 5, respectively. Furthermore, changes in albuminuria preceded the changes in BP relative to baseline, irrespective of the diet. Circulating aldosterone and plasma renin activity displayed the expected decreasing trends with age and dietary sodium loading. As compared to LS - higher dietary sodium consumption associated with increasing trends in left ventricular mass and volume indices, consistent with an eccentric dilated phenotype. Functional and molecular markers of kidney dysfunction displayed similar trends with increasing long-term sodium levels: higher renovascular resistance, increased glomerular volumes, as well as higher levels of renal angiotensin II type 1 and mineralocorticoid receptors, and lower renal Klotho levels. CONCLUSION: Our study provides a timeline for the development of cardiorenal dysfunction with aging, and documents that increasing dietary salt accelerates the age-induced phenotypes. In addition, we propose albuminuria as a prognostic biomarker for the future development of hypertension. Last, we identified functional and molecular markers of renal dysfunction that associate with long-term dietary salt loading.

Sex-specific differences in endoplasmic reticulum aminopeptidase 1 modulation influence blood pressure and renin-angiotensin system responses.

Salt sensitivity of blood pressure (SSBP) and hypertension are common, but the underlying mechanisms remain unclear. Endoplasmic reticulum aminopeptidase 1 (ERAP1) degrades angiotensin II (ANGII). We hypothesized that decreasing ERAP1 increases BP via ANGII-mediated effects on aldosterone (ALDO) production and/or renovascular function. Compared with WT littermate mice, ERAP1-deficient (ERAP1+/-) mice had increased tissue ANGII, systolic and diastolic BP, and SSBP, indicating that ERAP1 deficiency leads to volume expansion. However, the mechanisms underlying the volume expansion differed according to sex. Male ERAP1+/- mice had increased ALDO levels and normal renovascular responses to volume expansion (decreased resistive and pulsatility indices and increased glomerular volume). In contrast, female ERAP1+/- mice had normal ALDO levels but lacked normal renovascular responses. In humans, ERAP1 rs30187, a loss-of-function gene variant that reduces ANGII degradation in vitro, is associated with hypertension. In our cohort from the Hypertensive Pathotype (HyperPATH) Consortium, there was a significant dose-response association between rs30187 risk alleles and systolic and diastolic BP as well as renal plasma flow in men, but not in women. Thus, lowering ERAP1 led to volume expansion and increased BP. In males, the volume expansion was due to elevated ALDO with normal renovascular function, whereas in females the volume expansion was due to impaired renovascular function with normal ALDO levels.

Inhalation of fine particulate matter during pregnancy increased IL-4 cytokine levels in the fetal portion of the placenta.

This study aimed to verify the development of placental and systemic inflammation in rats exposed to fine particulate matter before or during pregnancy. Wistar rats were exposed to filtered air (control) or to a load of 600 µg/m(3) of fine particles in the air. The gene expression of IL-1ß, IL-4, IL-6, IL-10, INF-γ, TNF-α and Toll-like receptor 4 in the placenta was evaluated. The serum and placental concentrations of IL-1ß, IL-4, IL-6, IL-10, INF-γ and TNF-α were measured. The total and differential blood leukocyte and blood platelet count was assessed. Compared to control animals, IL-4 content was elevated in the fetal portion of the placenta in rats exposed to air pollution before and during pregnancy. Increased IL-4 suggests that a placental inflammatory reaction may have occurred in response to exposure to fine particulate matter and that this cytokine was responsible, among possibly others factors, for resolution of the inflammatory reaction.

Hipertrofia miocárdica induzida por consumo elevado de sal na dieta: avaliação do sistema renina-angiotensina e do efeito da N-acetilcisteína / Cardiac hypertrophy induced by high salt diet: renin-angiotensin system and N-acetylcysteine effect

As doenças cardiovasculares são a maior causa de morte no mundo e entre essas doenças, a hipertrofia cardíaca (HC) tem se destacado especialmente por ser um fator de risco de insuficiência cardíaca. A HC é um fenômeno que acompanha a hipertensão arterial e no qual se observa aumento de proteínas estruturais e contráteis dos cardiomiócitos, havendo muitas vezes concomitantemente aumento do colágeno intersticial. Fatores independentes da pressão arterial também podem contribuir para o desenvolvimento da hipertrofia cardíaca. Dentre estes fatores, a sobrecarga de sal na dieta tem se destacado. Diversos estudos comprovam o efeito hipertrófico do sal. Em modelos animais onde se estudou sobrecarga de sal, não foi detectado aumento da atividade de renina plasmática, sugerindo que o sistema renina-angiotensina aldosterona (SRA) circulante pode não estar envolvido no desenvolvimento da hipertrofia cardíaca. Apesar de alguns estudos tentarem elucidar o papel do sal no desenvolvimento da hipertrofia ventricular esquerda, os mecanismos pelo qual o sal atua ainda não estão totalmente esclarecidos. Neste contexto, o objetivo do presente estudo é observar os fenômenos que ocorrem no ventrículo esquerdo em resposta a sobrecarga de sal na dieta na tentativa de elucidar sua fisiopatologia. Para tanto, ratos Wistar machos foram divididos em cinco grupos de acordo com a dieta (normossódica 1,26% e hipersódica 8% de NaCl) e com o tratamento (losartan, cloridrato de hidralazina ou N-acetilcisteína). Foi avaliada a evolução ponderal, pressão arterial caudal, medida do diâmetro transverso do cardiomiócito, fibrose intersticial, expressão gênica e proteica dos componentes do SRA, dosagem de aldosterona sérica e cardíaca, dosagem de TBARS cardíaco, concentração de angiotensina II e estado conformacional dos receptores AT1 e AT2. Os principais resultados observados foram: o aumento do consumo de ração (com elevada concentração de NaCl) do grupo HS+NAC e consequente aumento na...

Cardiovascular diseases are the leading cause of death worldwide and among these diseases, the cardiac hypertrophy (CH) has been highlighted, especially as an important risk factor for developing heart failure. The CH is a phenomenon that accompanies hypertension and in which there is increased structural and contractile proteins in cardiomyocytes, with often concomitant increase of interstitial collagen. Blood pressure independent risk factors can also contribute to the development of cardiac hypertrophy. Among these factors, the high salt intake has been outstanding. Several studies confirm the hypertrophic effect of salt. In animal models submitted to salt overload, no increase in plasma renin activity was observed, suggesting that the renin-angiotensin (RAS) circulating system may not be involved in the development of cardiac hypertrophy. Although some studies attempting to elucidate the role of salt in the development of left ventricular hypertrophy, the mechanisms by which salt acts are not yet fully understood. In this context, the objective of this study is to observe the phenomena occurring in the left ventricle in response to dietary salt overload in an attempt to elucidate its pathophysiology.Male Wistar rats were divided into five groups according to their diet (1.26% and 8% NaCl) and treatment (losartan, hydralazine or N-acetylcysteine). We evaluated the body weight, tail-cuff blood pressure, the transverse diameter of the cardiomyocyte, interstitial fibrosis, gene and protein expression of RAAS components, serum and cardiac aldosterone dosage, cardiac TBARS, angiotensin II concentration and binding of conformation-specific anti-AT1 and anti-AT2 antibodies. The main results were: increased food intake (with high NaCl content) in the HS + NAC group and consequent increase in blood pressure and body weight; developing blood pressure-independent CH in the HS + HZ group partial or total prevention of such hypertrophy by treatment with losartan and...