Participación de los canales de cloruro en la salud cardiovascular y renal. Efectos de dietas altas en cloro sobre la presión arterial en un modelo experimental de sobrecarga salina / Participation of Chloride Channels in Cardiovascular and Kidney Health. Effects of High Chloride Diets on Blood Pressure in an Experimental Model of Saline Overload

RESUMEN Introducción . El consumo excesivo de sal (cloruro de sodio, NaCl) en la dieta conduce al desarrollo de hipertensión arterial (HTA) y daño de órgano blanco. Se sabe que los canales ClC-K1 y ClC-5 son reguladores esenciales del anión cloruro (Cl-), pero la contribución de este anión a los efectos deletéreos de la sal es aún desconocida. Objetivo . El objetivo de este trabajo fue evaluar la participación del Cl- en la respuesta inflamatoria y oxidativa renal y en el desarrollo de HTA. Material y métodos . Ratas Wistar macho se dividieron en cuatro grupos (n=8/grupo) y se alimentaron con diferentes dietas durante 3 semanas. control (grupo C); NaCl 8 % (grupo NaCl); dieta alta en Na+. citrato de sodio (Na3C6H5O7) 11,8 % (grupo Na); dieta alta en Cl-. cloruro de calcio (CaCl2) 3,80 %, cloruro de potasio (KCl) 3,06 % y cloruro de magnesio (MgCl2) 1,30 % (grupo Cl). Se determinó la presión arterial sistólica (PAS), función renal, marcadores de estrés oxidativo y de inflamación en corteza renal, y la expresion renal de los canales de cloruro ClC-K1 y ClC-5. Resultados . Se observó un aumento de la PAS, actividad de glutatión peroxidasa (GPx) y expresión renal de factor nuclear kappa B (NFkB) y receptor de angiotensina II tipo 1 (AT1R) en los grupos NaCl y Cl- (p<0,05). La producción de sustancias reactivas del ácido tiobarbitúrico (TBARS) aumentó en los grupos experimentales con respecto a C. La expresión de la proteína de Parkinson 7 (PARK7) disminuyó en el grupo Cl en comparación con C (p< 0,05). Los grupos NaCl y Cl- mostraron una mayor expresión de ClC-K1, mientras que ClC-5 se redujo en el grupo NaCl en comparación con C (p<0,05). Conclusión . El Cl- sería corresponsable, junto con el Na+, de desencadenar daño oxidativo e inflamatorio renal y aumentar la presión arterial; por ello se deduce la importancia de reducir la ingesta de ambos iones como medida preventiva no farmacológica para la prevención y control de la HTA. El rol de los canales ClC-K1 y ClC-5 como mediadores de este proceso queda aún por confirmarse.

ABSTRACT Background . Excessive consumption of salt (sodium chloride, NaCl) in the diet leads to the development of hypertension (HTN) and target organ damage. It is known that the ClC-K1 and ClC-5 channels are essential regulators of the chloride (Cl-) anion, but the contribution of this anion to salt-harmful effects remains unknown. Objective . The aim of this study was to evaluate the participation of Cl- in the renal inflammatory and oxidative response and in the development of HTN. Methods . Male Wistar rats were divided into four groups (n=8/group) and fed with different diets for 3 weeks. control (C group); NaCl 8% (NaCl group); high Na+ diet. sodium citrate (Na3C6H5O7) 11.8% (Na group); high Cl- diet. calcium chloride (CaCl2) 3.80%, potassium chloride (KCl) 3.06% and magnesium chloride (MgCl2) 1.30% (Cl group). Systolic blood pressure (SBP), renal function, oxidative stress and inflammation markers in the renal cortex, and renal expression of the chloride ClC-K1 and ClC-5 channels were assessed. Results . An increase in SBP, glutathione peroxidase (GPx) activity, and renal expression of nuclear factor kappa B (NFkB) and angiotensin II type 1 receptor (AT1R) were observed in the NaCl and Cl groups (p<0.05). The production of thiobarbituric acid reactive substances (TBARS) increased in the experimental groups compared with C. The expression of Parkinson disease protein 7 (PARK7) decreased in the Cl group compared with C (p< 0.05). The NaCl and Cl groups showed increased expression of ClC-K1, while ClC-5 was reduced in the NaCl group compared with C (p<0.05) Conclusion . Cl- would be co-responsible together with Na+ in triggering oxidative and inflammatory kidney damage and increasing blood pressure. This indicates the importance of reducing the intake of both ions as a non-pharmacological preventive measure for the prevention and control of HTN. The role of ClC-K1 and ClC-5 channels as mediators of this process remains to be confirmed.

Cardiac Natriuretic Peptide Profiles in Chronic Hypertension by Single or Sequentially Combined Renovascular and DOCA-Salt Treatments.

The involvement of natriuretic peptides was studied during the hypertrophic remodeling transition mediated by sequential exposure to chronic hemodynamic overload. We induced hypertension in rats by pressure (renovascular) or volume overload (DOCA-salt) during 6 and 12 weeks of treatment. We also studied the consecutive combination of both models in inverse sequences: RV 6 weeks/DS 6 weeks and DS 6 weeks/RV 6 weeks. All treated groups developed hypertension. Cardiac hypertrophy and left ventricular ANP gene expression were more pronounced in single DS than in single RV groups. BNP gene expression was positively correlated with left ventricular hypertrophy only in RV groups, while ANP gene expression was positively correlated with left ventricular hypertrophy only in DS groups. Combined models exhibited intermediate values between those of single groups at 6 and 12 weeks. The latter stimulus associated to the second applied overload is less effective than the former to trigger cardiac hypertrophy and to increase ANP and BNP gene expression. In addition, we suggest a correlation of ANP synthesis with volume overload and of BNP synthesis with pressure overload-induced hypertrophy after a prolonged treatment. Volume and pressure overload may be two mechanisms, among others, involved in the differential regulation of ANP and BNP gene expression in hypertrophied left ventricles. Plasma ANP levels reflect a response to plasma volume increase and volume overload, while circulating BNP levels seem to be regulated by cardiac BNP synthesis and ventricular hypertrophy.

Hacia el esclarecimiento del rol del anión cloruro en la hipertensión arterial: / Towards the Elucidation of the Role of the Chloride Anion in Arterial Hypertension:

RESUMEN Introducción: Se desconoce el papel del anión cloruro en los efectos deletéreos del consumo excesivo de sal (NaCl) y si sus efectos son independientes de la presencia del sodio. Objetivo: Demostrar que tanto una sobrecarga de cloruro como una sobrecarga de sodio en la dieta producen efectos deletéreos, en forma independiente, sobre la presión arterial sistólica (PAS), la función renal y los marcadores de estrés oxidativo en el riñón. Materiales y métodos: Ratas Wistar macho fueron divididas en cuatro grupos (n = 8/grupo) y fueron alimentadas con diferentes dietas durante tres semanas: C: control (dieta estándar), NaCl: hipersódica-hiperclórica, Na: hipersódica sin cloruro, Cl: hiperclórica sin sodio. Se determinaron la presión arterial sistólica (PAS) y la función renal y en la corteza renal, se evaluó la producción de especies reactivas del ácido tiobarbitúrico (en inglés: TBARS) y la actividad y la expresión de las enzimas superóxido dismutasa (SOD), catalasa (CAT) y glutatión peroxidasa (GPx). Resultados: Al cabo de tres semanas, la PAS aumentó (*) en los dos grupos alimentados con cloruro. La excreción fraccional de sodio y de cloruro aumentó (*) en los grupos NaCl y Na. La diuresis y los TBARS en la corteza renal aumentaron (*) con las tres dietas, sin cambios en la actividad y en la expresión de SOD y CAT. La actividad de la GPx aumentó (*) en los dos grupos que recibieron cloruro; (*p < 0,05 vs C). Conclusión: Tanto la sobrecarga de sodio como la de cloruro se asocian a mayor estado oxidativo caracterizado por un incremento en la peroxidación lipídica en la corteza renal. Sin embargo, solo el exceso de cloruro se asocia a mayor actividad de la GPx y de la hipertensión, sin cambios en la excreción urinaria de cloruros, sugiriendo un mayor estado prooxidante renal en comparación con el grupo Na.

ABSTRACT Introduction: The role of the chloride anion on the deleterious effects of excessive consumption of salt (NaCl) and whether its effects are independent each other of the presence of sodium remains to date, unknown and unclear. Objective: To demonstrate that both a chloride overload and a sodium overload in the diet produce deleterious effects, by different mechanisms, on systolic blood pressure (SBP), renal function and markers of oxidative stress in the kidney. Materials and Methods: Male Wistar rats were divided into four groups (n = 8 / group) and fed with different diets for three weeks: C: control (standard diet), and diets: NaCl: hypersodic-hyperchloric; Na: hypersodic without chloride and Cl: hyperchloric without sodium. Systolic blood pressure (SBP) and renal function were determined, and the production of thiobarbituric acid reactive species (TBARS) and the activity and expression of superoxide dismutase (SOD), catalase (CAT) and glutathione peroxidase (GPx) enzymes were evaluated in renal cortex tissue. Results: SBP increased (*) in the two groups fed with chloride. The fractional excretion of sodium and chloride increased (*) in the NaCl and Na groups. increased (*) in the renal cortex with the three diets. No changes were observed in the activity and expression of SOD and CAT. GPx activity increased (*) in the two groups that received chloride; (* p <0.05 vs C). Conclusion: Both sodium and chloride overload are associated with a higher oxidative state characterized by an increase in lipid peroxidation in the renal cortex. However, compared with Na group, only chloride overload is associated with higher GPx activity and hypertension without any changes in urinary chloride excretion, suggesting a higher renal pro-oxidant state in this experimental group.

Acute infusion of angiotensin II regulates organic cation transporters function in the kidney: its impact on the renal dopaminergic system and sodium excretion.

A close relationship between angiotensin II (ANG II) and the renal dopaminergic system (RDS) has been reported. Our aim was to study whether renal dopamine and ANG II can interact to modify renal sodium handling and then to elucidate the related mechanism. Anesthetized male Sprague-Dawley rats were used in experiments. ANG II, exogenous dopamine, and decynium-22 (or D-22, an isocyanine that specifically blocks electrogenic organic cation transporters, OCTs), were infused in vivo for 120 min. We analyzed renal and hemodynamic parameters, renal Na+, K+-ATPase levels, OCT activity, and urinary dopamine concentrations. We also evaluated the expression of D1 receptor, electroneutral organic cation transporters (OCTNs), and OCTs. ANG II decreased renal excretion of sodium in the presence of exogenous dopamine, increased Na+, K+-ATPase activity, and decreased the urinary dopamine concentration. D-22 treatment exacerbated the ANG II-mediated decrease in renal excretion of sodium and dopamine urine excretion but did not modify ANG II stimulation of Na+, K+-ATPase activity. The infusion of ANG II did not affect the expression of D1 receptor, OCTs, or OCTNs. However, the activity of OCTs was diminished by the presence of ANG II. Although ANG II did not alter the expression of D1 receptor, OCTs, and OCTNs in renal tissues, it modified the activity of OCTs and thereby decreased the urinary dopamine concentration, showing a novel mechanism by which ANG II decreases dopamine transport and its availability in the tubular lumen to stimulate D1 receptor. This study demonstrates a relationship between ANG II and dopamine, where both agents counteract their effects on sodium excretion.

Alteration of Renal Natriuretic Systems Is Associated with the Development of Hypertension and Precedes the Presence of Renal Damage in a Model of Metabolic Syndrome / La alteración de sistemas natriuréticos renales se asocia con el desarrollo de hipertensión arterial y precede en el tiempo a la aparición de daño renal en un modelo de síndrome metabólico

ABSTRACT: Background: The aim of this study was to determine the presence of alterations in the natriuretic systems of atrial natriuretic peptide and renal dopamine in a model of metabolic syndrome induced by fructose overload and to associate them with changes in systolic blood pressure, renal function, Na+/K+-ATPase status and microalbuminuria. Methods: Male Sprague-Dawley rats were divided into control (C) and fructose (F) groups receiving drinking water or a fructose so-lution (10% W/V), respectively, for 4, 8 and 12 weeks. L-dopa and dopamine, sodium, creatinine and albumin were measured in urine and ANP, insulin, sodium and creatinine in plasma. Systolic blood pressure was measured by indirect method and the renal activity and expression of Na+/K+-ATPase as well as the renal expression of A- and C-type natriuretic peptide receptors were assessed. results: Fructose overload was associated with a significant increase in insulinemia and systolic blood pressure levels and a decrease in urinary sodium excretion since week 4. A significant increase in L-dopa excretion and a decrease in dopamine excretion (increased urinary L-dopa/dopamine ratio) due to fructose overload were observed since week 4 with a decrease in plasma atrial natriuretic peptide at weeks 8 and 12. These changes were accompanied by increased activity and expression of Na+/ K+-ATPase, decreased A-type natriuretic peptide receptor and increased C-type natriuretic peptide receptor expression. Microalbuminuria was observed at week 12 of fructose overload.

RESUMEN: Objetivos: El objetivo del trabajo consistió en determinar la existencia de alteraciones en los sistemas natriuréticos del péptido natriurético atrial y dopamina renal en un modelo de síndrome metabólico por sobrecarga de fructosa y asociarlas con cambios en la presión arterial sistólica, función renal, estado de la Na+, K+-ATPasa y microalbuminuria. Material y Métodos: Ratas macho Sprague-Dawley fueron divididas en grupos control (C) y fructosa (F) con agua o solución de F (10%P/V) para beber durante 4, 8 y 12 semanas. En orina, se midió L-dopa y dopamina, sodio, creatinina y albúmina; y en plasma péptido natriurético atrial, insulina, sodio y creatinina. La presión arterial sistólica fue medida por método indirecto. Se midió la actividad y expresión de la Na+, K+-ATPasa así como la expresión del receptor de péptidos natriuréticos A y C renales. resultados: La sobrecarga de fructosa se asoció con el aumento de la insulinemia y la presión arterial sistólica, y con la disminución en la excreción urinaria de sodio desde la semana 4. La excreción urinaria de L-dopa se incrementó y la de dopamina disminuyó (cociente L-dopa/dopamina incrementado) por sobrecarga de fructosa desde la semana 4 y el péptido natriurético atrial plasmático se redujo en las semanas 8 y 12. Estos cambios fueron acompañados por un incremento de la actividad y expresión de la Na+, K+-ATPasa, disminución del receptor de péptidos natriuréticos A y aumento del C. La microalbuminuria se observó en la semana 12 de sobrecarga de fructosa. Conclusiones: Las alteraciones del péptido natriurético atrial y de la dopamina renal se asociaron con el desarrollo de hipertensión arterial y precedieron a la aparición de microalbuminuria, por lo que se pudo establecer una asociación temporal entre la alteración de ambos sistemas y el desarrollo de daño renal.

Atrial Natriuretic Peptide Stimulates Dopamine Tubular Transport by Organic Cation Transporters: A Novel Mechanism to Enhance Renal Sodium Excretion.

The aim of this study was to demonstrate the effects of atrial natriuretic peptide (ANP) on organic cation transporters (OCTs) expression and activity, and its consequences on dopamine urinary levels, Na+, K+-ATPase activity and renal function. Male Sprague Dawley rats were infused with isotonic saline solution during 120 minutes and randomized in nine different groups: control, pargyline plus tolcapone (P+T), ANP, dopamine (DA), D-22, DA+D-22, ANP+D-22, ANP+DA and ANP+DA+D-22. Renal functional parameters were determined and urinary dopamine concentration was quantified by HPLC. Expression of OCTs and D1-receptor in membrane preparations from renal cortex tissues were determined by western blot and Na+, K+-ATPase activity was determined using in vitro enzyme assay. 3H-DA renal uptake was determined in vitro. Compared to P+T group, ANP and dopamine infusion increased diuresis, urinary sodium and dopamine excretion significantly. These effects were more pronounced in ANP+DA group and reversed by OCTs blockade by D-22, demonstrating that OCTs are implied in ANP stimulated-DA uptake and transport in renal tissues. The activity of Na+, K+-ATPase exhibited a similar fashion when it was measured in the same experimental groups. Although OCTs and D1-receptor protein expression were not modified by ANP, OCTs-dependent-dopamine tubular uptake was increased by ANP through activation of NPR-A receptor and protein kinase G as signaling pathway. This effect was reflected by an increase in urinary dopamine excretion, natriuresis, diuresis and decreased Na+, K+-ATPase activity. OCTs represent a novel target that links the activity of ANP and dopamine together in a common mechanism to enhance their natriuretic and diuretic effects.