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.

Losartan prevents mesenteric vascular bed alterations in high-fat diet fed rats / Losartán previene las alteraciones del lecho vascular mesentérico en ratas alimentadas con dieta alta en grasas

Dysfunction of perivascular adipose tissue of mesenteric bed participates in the pathophysiology of high blood pressure linked to metabolic syndrome. Thus, it might consider a new therapeutic objective to take account in cardiovascular and metabolic diseases. Besides its antihypertensive effect, there is a growing interest on the pleiotropic actions of losartan, an angiotensin II type 1 (AT1) receptor antagonist. The aim of the study was to analyze the actions of losartan treatment on adiposity index and prostanoids release from mesenteric vascular bed and its relationship with blood pressure as well as homeostasis model of assessment of insulin resistance (HOMA-IR) in Sprague-Dawley rats under a high-fat (HF) diet for 8 weeks. Four groups were used: control (C), HF diet (HF, 50%, w/w bovine fat), losartan-treated (CL8, 30mg/kg/body weight/day in the drinking water) and losartan-treated HF diet (HFL, both treatments). A high-fat diet incremented systolic blood pressure, HOMA-IR, adiposity of mesenteric vascular bed and the release of vasoconstrictor prostanoids such as thromboxane (TX) B2 and prostaglandin (PG) F2α as well as PGE2, an inflammatory prostanoid in a context of insulin resistance and hypertension. We found a positive correlation between adiposity index and systolic blood pressure. Also, both parameters are positive correlated with the HOMA IR index. Moreover, we also found that these prostanoids release correlate with systolic blood pressure as well as with mesenteric vascular bed adiposity index. Losartan treatment prevented all these alterations and normalized the PGI2/TXA2 ratio in high-fat fed rats. We conclude that losartan may play beneficial actions on perivascular adipose tissue alterations and endothelial dysfunction through restoration of normal balance of vasoactive substances in this model

La disfunción del tejido adiposo perivascular del lecho mesentérico posee una participación en la fisiopatología de la hipertensión arterial relacionada con el síndrome metabólico. Por lo tanto, podría considerarse como un nuevo blanco terapéutico en las enfermedades cardiovasculares y metabólicas. Además de su efecto antihipertensivo, existe un interés creciente en las acciones pleiotrópicas de losartán, antagonista del receptor de angiotensina II. El objetivo del estudio fue analizar las acciones de losartán sobre el índice de adiposidad y la liberación de prostanoides del lecho vascular mesentérico y su relación con la presión arterial, así como en el índice HOMA-IR (modelo de evaluación homeostático de la resistencia a la insulina) en ratas con dieta alta en grasas. Observamos que la dieta alta en grasas incrementó la adiposidad del lecho vascular mesentérico y la liberación de prostanoides vasoconstrictores como tromboxano (TX) B2 y prostaglandina (PG) F2α, así como la PGE2, un prostanoide inflamatorio en el contexto de resistencia a la insulina e hipertensión. También encontramos una correlación positiva entre el índice de adiposidad y la presión arterial sistólica y ambos parámetros se correlacionan positivamente con el índice HOMA IR. Adicionalmente observamos que la liberación de estos prostanoides se correlaciona con la presión arterial sistólica, así como con el índice de adiposidad del lecho vascular mesentérico. El tratamiento con losartán previno todas estas alteraciones y normalizó la relación PGI2/TXA2 en ratas alimentadas con una dieta alta en grasa. Concluimos entonces que losartán puede ejercer acciones beneficiosas sobre las alteraciones del tejido adiposo perivascular y la disfunción endotelial a través de la restauración del equilibrio normal de sustancias vasoactivas en este modelo experimental

Losartan prevents mesenteric vascular bed alterations in high-fat diet fed rats.

Dysfunction of perivascular adipose tissue of mesenteric bed participates in the pathophysiology of high blood pressure linked to metabolic syndrome. Thus, it might consider a new therapeutic objective to take account in cardiovascular and metabolic diseases. Besides its antihypertensive effect, there is a growing interest on the pleiotropic actions of losartan, an angiotensin II type 1 (AT1) receptor antagonist. The aim of the study was to analyze the actions of losartan treatment on adiposity index and prostanoids release from mesenteric vascular bed and its relationship with blood pressure as well as homeostasis model of assessment of insulin resistance (HOMA-IR) in Sprague-Dawley rats under a high-fat (HF) diet for 8 weeks. Four groups were used: control (C), HF diet (HF, 50%, w/w bovine fat), losartan-treated (CL8, 30mg/kg/body weight/day in the drinking water) and losartan-treated HF diet (HFL, both treatments). A high-fat diet incremented systolic blood pressure, HOMA-IR, adiposity of mesenteric vascular bed and the release of vasoconstrictor prostanoids such as thromboxane (TX) B2 and prostaglandin (PG) F2α as well as PGE2, an inflammatory prostanoid in a context of insulin resistance and hypertension. We found a positive correlation between adiposity index and systolic blood pressure. Also, both parameters are positive correlated with the HOMA IR index. Moreover, we also found that these prostanoids release correlate with systolic blood pressure as well as with mesenteric vascular bed adiposity index. Losartan treatment prevented all these alterations and normalized the PGI2/TXA2 ratio in high-fat fed rats. We conclude that losartan may play beneficial actions on perivascular adipose tissue alterations and endothelial dysfunction through restoration of normal balance of vasoactive substances in this model.

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.

Losartán y metformina previenen alteraciones en el tejido adiposo perivascular y en la liberación de prostanoides del lecho vascular mesentérico producidas por una dieta alta en grasa y sobrecarga de fructosa en ratas / Losartan and Metformin Prevent Abnormalities in Perivascular Adipose Tissue and in Mesenteric Vascular Bed Prostanoid Release Induced by High-fat High-fructose Diet in Rats

RESUMEN Objetivo: El objetivo de este trabajo fue analizar los efectos del losartán (30 mg/kg/día) y de la metformina (500 mg/kg/día) sobre el índice de adiposidad y la liberación de prostanoides del lecho vascular mesentérico, así como su relación con la presión arterial sistólica en un modelo de síndrome metabólico inducido por una dieta alta en grasa y sobrecarga de fructosa en ratas Sprague-Dawley macho durante 9 semanas. Material y métodos: Los lechos vasculares mesentéricos extraídos se incubaron y los prostanoides liberados se midieron por cromatografía líquida de alta eficiencia. La presión arterial sistólica fue medida por método indirecto. Resultados: La dieta alta en grasa y la sobrecarga de fructosa produjo aumentos significativos en la presión arterial sistólica y del índice de adiposidad del lecho vascular mesentérico. Por su parte, la dieta alta en grasa y sobrecarga de fructosa incrementó la liberación de prostanoides vasoconstrictores tanto del tromboxano B2 como de la prostaglandina F2alfa; y del marcador de inflamación, la prostaglandina E2. La relación PGI2/TXA2 se redujo significativamente. La administración de losartán como de metformina previnieron todas estas alteraciones. Conclusión: Ambos fármacos ejercen efectos beneficiosos sobre el tejido adiposo perivascular del lecho mesentérico, lo que mejora la disfunción endotelial inducida por un desbalance de sustancias vasoactivas.

ABSTRACT Objective: The aim of this study was to analyze the effects of losartan (30 mg/kg/day) and metformin (500 mg/kg/day) on the adiposity index and on mesenteric vascular bed prostanoid release, and their relationship with systolic blood pressure in a metabolic syndrome model induced by high-fat high fructose-diet in male Sprague-Dawley rats for 9 weeks. Methods: Mesenteric vascular beds were extracted and incubated and prostanoids were measured by high-performance liquid chromatography. Systolic blood pressure was measured by an indirect method. Results: High-fat high-fructose diet produced significant increase in systolic blood pressure and mesenteric vascular bed adiposity index and in the release of vasoconstricting prostanoids as thromboxane B2 and prostaglandin F2α and of prosta-glandin E2, a marker of inflammation. The PGI2/TXA2 ratio was significantly reduced. The administration of losartan and metformin prevented all these changes. Conclusion: Both drugs have beneficial effects on mesenteric perivascular adipose tissue by improving endothelial dysfunction induced by an imbalance of vasoactive substances.

Efectos del tungstato de sodio y sulfato de vanadilo sobre la liberación de prostanoides del lecho vascular mesentérico de ratas diabéticas / Effects of sodium tungstate and vanadyl sulphate on the liberation of prostanoids of the mesenteric vascular bed in diabetic rats

La pérdida del rol modulador del endotelio podría estar implicada en la patogénesis de las complicaciones vasculares diabéticas. Los compuestos de metales de transición tales como wolframio y vanadio se han propuesto como posibles agentes en el tratamiento de la diabetes al simular los efectos de la insulina. El lecho vascular mesentérico interviene en la resistencia vascular y constituye una fuente de compuestos vasoactivos como los prostanoides. El objetivo de este trabajo fue estudiar los efectos de los tratamientos con tungstato de sodio y sulfato de vanadilo sobre los parámetros metabólicos y la liberación de prostanoides del lecho vascular mesentérico en un modelo experimental de diabetes inducida por estreptozotocina. En ratas diabéticas se observó un aumento significativo de los niveles plasmáticos de glucosa, triglicéridos y colesterol total. Por su parte, se observó una reducción significativa en la liberación de los prostanoides vasodilatadores como la prostaciclina y la prostaglandina E2 y del vasoconstrictor tromboxano A2 por el lecho vascular mesentérico. Tanto el tungstato de sodio como el sulfato de vanadilo normalizaron la glucemia, la trigliceridemia y la colesterolemia en las ratas diabéticas. Por otra parte, solo el tratamiento con tungstato de sodio revirtió la reducción en la liberación de prostanoides vasodilatadores, mejorando en los animales diabéticos la relación prostaciclina/tromboxano, un indicador de disfunción vascular. En conclusión, a diferencia del sulfato de vanadilo, el tungstato de sodio demuestra ser más eficaz para controlar las alteraciones metabólicas y de la producción de prostanoides vasodilatadores observadas en la diabetes experimental inducida por estreptozotocina

The loss of the modulator role of the endothelium could be involved in the pathogenesis of diabetic vascular complications. Transition metal compounds, such as tungsten and vanadium, have been proposed as possible agents in the treatment of diabetes by simulating the effects of insulin. The mesenteric vascular bed intervenes in vascular resistance and is a source of vasoactive compounds, such as prostanoids. The aim of this work was to study the effects of sodium tungstate and vanadyl sulphate treatments on the metabolic parameters and the release of prostanoids of the mesenteric vascular bed in an experimental model of Streptozotocin-induced diabetes. In diabetic rats, a significant increase was observed in plasma levels of glucose, triglycerides and total cholesterol. On the other hand, there was a significant reduction in the release of vasodilator prostanoids, such as prostacyclin and prostaglandin E2 and vasoconstrictor thromboxane A2 through the mesenteric vascular bed. Both sodium tungstate and vanadyl sulphate normalised glycaemia, triglyceridaemia and cholesterolaemia in rats diabetics. On the other hand, only treatment with sodium tungstate reversed the reduction in the release of vasodilator prostanoids, improving in diabetic animals the prostacyclin/thromboxane ratio, an indicator of vascular dysfunction. In conclusion, unlike vanadyl sulphate, sodium tungstate is shown to be more effective in controlling metabolic changes and the production of vasodilator prostanoids observed in experimental diabetes induced by streptozotocin

Effects of sodium tungstate and vanadyl sulphate on the liberation of prostanoids of the mesenteric vascular bed in diabetic rats. / Efectos del tungstato de sodio y sulfato de vanadilo sobre la liberación de prostanoides del lecho vascular mesentérico de ratas diabéticas.

The loss of the modulator role of the endothelium could be involved in the pathogenesis of diabetic vascular complications. Transition metal compounds, such as tungsten and vanadium, have been proposed as possible agents in the treatment of diabetes by simulating the effects of insulin. The mesenteric vascular bed intervenes in vascular resistance and is a source of vasoactive compounds, such as prostanoids. The aim of this work was to study the effects of sodium tungstate and vanadyl sulphate treatments on the metabolic parameters and the release of prostanoids of the mesenteric vascular bed in an experimental model of Streptozotocin-induced diabetes. In diabetic rats, a significant increase was observed in plasma levels of glucose, triglycerides and total cholesterol. On the other hand, there was a significant reduction in the release of vasodilator prostanoids, such as prostacyclin and prostaglandin E2 and vasoconstrictor thromboxane A2 through the mesenteric vascular bed. Both sodium tungstate and vanadyl sulphate normalised glycaemia, triglyceridaemia and cholesterolaemia in rats diabetics. On the other hand, only treatment with sodium tungstate reversed the reduction in the release of vasodilator prostanoids, improving in diabetic animals the prostacyclin/thromboxane ratio, an indicator of vascular dysfunction. In conclusion, unlike vanadyl sulphate, sodium tungstate is shown to be more effective in controlling metabolic changes and the production of vasodilator prostanoids observed in experimental diabetes induced by streptozotocin.

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.

Effects of chronic fructose overload on renal dopaminergic system: alteration of urinary L-dopa/dopamine index correlates to hypertension and precedes kidney structural damage.

Insulin resistance induced by a high-fructose diet has been associated to hypertension and renal damage. The aim of this work was to assess alterations in the urinary L-dopa/dopamine ratio over three time periods in rats with insulin resistance induced by fructose overload and its correlation with blood pressure levels and the presence of microalbuminuria and reduced nephrin expression as markers of renal structural damage. Male Sprague-Dawley rats were randomly divided into six groups: control (C) (C4, C8 and C12) with tap water to drink and fructose-overloaded (FO) rats (FO4, FO8 and FO12) with a fructose solution (10% w/v) to drink for 4, 8 and 12 weeks. A significant increase of the urinary L-dopa/dopamine ratio was found in FO rats since week 4, which positively correlated to the development of hypertension and preceded in time the onset of microalbuminuria and reduced nephrin expression observed on week 12 of treatment. The alteration of this ratio was associated to an impairment of the renal dopaminergic system, evidenced by a reduction in renal dopamine transporters and dopamine D1 receptor expression, leading to an overexpression and overactivation of the enzyme Na+, K+-ATPase with sodium retention. In conclusion, urinary L-dopa/dopamine ratio alteration in rats with fructose overload positively correlated to the development of hypertension and preceded in time the onset of renal structural damage. This is the first study to propose the use of the urinary L-dopa/dopamine index as marker of renal dysfunction that temporarily precedes kidney structural damage induced by fructose overload.

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.

Synthesis and Biological Evaluation of New N-(4-Substituted phenyl)glycine Derivatives as Potential Anti-inflammatory Agents.

BACKGROUND: Designing new anti-inflammatory agents possessing safe therapeutic profiles and devoid of potential undesirable side effects is an active field in medicinal chemistry. Thus, a series of N-(4-substituted phenyl)glycine derivatives was designed and synthesized. The idea behind the design is to utilize the bifunctionality of 4-aminoacetophenone via converting the amino group into glycine derivative as a side arm to mimic the glycine amino acid enhancing the overall physicochemical and biological characteristics. In addition, the opposite acetyl group was used as a center for modification and derivatization. METHODS: The starting N-(4-acetylphenyl)glycine was converted into two intermediates: the chalcone analog 2 and the thiosemicarbazone derivative 8. Both 2 and 8 were derivatized and/or cyclized into different heterocyclic target derivatives (3-7 and 9-12). The target compounds were screened for anti-inflammatory activity using carrageenan-induced rat paw edema assay. RESULTS: The results showed that compounds 6, 7, and 3, were the most active among the tested compounds at 50 mg/kg dose level with % inhibition of edema of 51.82, 43.80, and 40.39, respectively. CONCLUSION: The authors succeeded to introduce a simple and versatile skeleton with a side arm resembling the glycine amino acid; imparting a potential improvement in physicochemical properties. We utilize the other side of the skeleton's aromatic ring as a center for derivatization. The chalcone analog and its cyclized heterocyclic derivatives were of remarkably higher anti-inflammatory activity than the thiosemicarbazone and its derivatives.

Role of angiotensin II and oxidative stress on renal aquaporins expression in hypernatremic rats

The aim of this study was to assess whether endogenous Ang II and oxidative stress produced by acute hypertonic sodium overload may regulate the expression of aquaporin-1 (AQP-1) and aquaporin-2 (AQP-2) in the kidney. Groups of anesthetized male Sprague–Dawley rats were infused with isotonic saline solution (control) or with hypertonic saline solution (Na group, 1 M NaCl), either alone or with losartan (10 mg kg−1) or tempol (0.5 mg min−1 kg−1) during 2 h. Renal function parameters were measured. Groups of unanesthetized animals were injected intraperitoneally with hypertonic saline solution, with or without free access to water intake, Na+W, and Na−W, respectively. The expression of AQP-1, AQP-2, Ang II, eNOS, and NF-kB were evaluated in the kidney by Western blot and immunohistochemistry. AQP-2 distribution was assessed by immunofluorescence. Na group showed increased natriuresis and diuresis, and Ang II and NF-kB expression, but decreased eNOS expression. Losartan or tempol enhanced further the diuresis, and AQP-2 and eNOS expression, as well as decreased Ang II and NF-kB expression. Confocal immunofluorescence imaging revealed labeling of AQP-2 in the apical plasma membrane with less labeling in the intracellular vesicles than the apical membrane in kidney medullary collecting duct principal cells both in C and Na groups. Importantly, our data also show that losartan and tempol induces a predominantly accumulation of AQP-2 in intracellular vesicles. In unanesthetized rats, Na+W group presented increased diuresis, natriuresis, and AQP-2 expression (112 ± 25 vs 64 ± 16; *p < 0.05). Water deprivation increased plasma sodium and diuresis but decreased AQP-2 (46 ± 22 vs 112 ± 25; §p < 0.05) and eNOS expression in the kidney. This study is a novel demonstration that renal endogenous Ang II-oxidative stress, induced in vivo in hypernatremic rats by an acute sodium overload, regulates AQP-2 expression

Role of angiotensin II and oxidative stress on renal aquaporins expression in hypernatremic rats.

The aim of this study was to assess whether endogenous Ang II and oxidative stress produced by acute hypertonic sodium overload may regulate the expression of aquaporin-1 (AQP-1) and aquaporin-2 (AQP-2) in the kidney. Groups of anesthetized male Sprague-Dawley rats were infused with isotonic saline solution (control) or with hypertonic saline solution (Na group, 1 M NaCl), either alone or with losartan (10 mg kg(-1)) or tempol (0.5 mg min(-1) kg(-1)) during 2 h. Renal function parameters were measured. Groups of unanesthetized animals were injected intraperitoneally with hypertonic saline solution, with or without free access to water intake, Na+W, and Na-W, respectively. The expression of AQP-1, AQP-2, Ang II, eNOS, and NF-kB were evaluated in the kidney by Western blot and immunohistochemistry. AQP-2 distribution was assessed by immunofluorescence. Na group showed increased natriuresis and diuresis, and Ang II and NF-kB expression, but decreased eNOS expression. Losartan or tempol enhanced further the diuresis, and AQP-2 and eNOS expression, as well as decreased Ang II and NF-kB expression. Confocal immunofluorescence imaging revealed labeling of AQP-2 in the apical plasma membrane with less labeling in the intracellular vesicles than the apical membrane in kidney medullary collecting duct principal cells both in C and Na groups. Importantly, our data also show that losartan and tempol induces a predominantly accumulation of AQP-2 in intracellular vesicles. In unanesthetized rats, Na+W group presented increased diuresis, natriuresis, and AQP-2 expression (112 ± 25 vs 64 ± 16; *p < 0.05). Water deprivation increased plasma sodium and diuresis but decreased AQP-2 (46 ± 22 vs 112 ± 25; §p < 0.05) and eNOS expression in the kidney. This study is a novel demonstration that renal endogenous Ang II-oxidative stress, induced in vivo in hypernatremic rats by an acute sodium overload, regulates AQP-2 expression.

Urodilatin regulates renal dopamine metabolism.

BACKGROUND: Sodium and water transport across renal proximal tubules is regulated by diverse hormones such as dopamine and urodilatin. We have previously reported that urodilatin stimulates extraneuronal dopamine uptake in external renal cortex by activation of the type A natriuretic peptide receptor, coupled to cyclic guanylate monophosphate signaling and protein kinase G. Moreover, urodilatin enhances dopamine-induced inhibition of Na+, K+-ATPase activity in renal tubules. The aim of the present study was to evaluate whether urodilatin could also alter renal dopamine synthesis, release, catabolism and turnover. METHODS: The effects of urodilatin on dopamine synthesis, release, catabolism and turnover were measured in samples of renal cortex from Sprague Dawley rats. RESULTS: The results indicate that urodilatin increases L-DOPA decarboxylase activity and decreases catechol-o-methyl transferase and monoamine oxidase activity. Moreover, urodilatin does not affect either dopamine basal secretion or potassium chloride-induced dopamine release in external renal cortex, and reduces amine turnover. CONCLUSIONS: Both the present results and previous findings show that urodilatin modifies dopamine metabolism in external renal cortex of rats by enhancing dopamine uptake and synthesis and by decreasing catechol-o-methyl transferase and monoamine oxidase activity and dopamine turnover. Those effects taken together may favor dopamine accumulation in renal cells and increase its endogenous content and availability. This would permit D1 receptor recruitment and stimulation and, in turn, overinhibition of Na+, K+-ATPase activity, which results in decreased sodium reabsorption. Therefore, urodilatin and dopamine enhance natriuresis and diuresis through a common pathway.

Urodilatin increases renal dopamine uptake: intracellular network involved

No disponible

Dopamine and urodilatin promote natriuresis and diuresis through a common pathway that involves reversible deactivation of renal Na+, K+-ATPase. We have reported that urodilatin enhances dopamine uptake in outer renal cortex through the natriuretic peptide type A receptor. Moreover, urodilatin enhances dopamine-induced inhibition of Na+, K+-ATPase activity. The objective of the present work was to investigate the intracellular signals involved in urodilatin effects on dopamine uptake in renal cortex of kidney rats. We show that urodilatin-elicited increase in 3H-dopamine was blunted by methylene (..) (AU)

Urodilatin increases renal dopamine uptake: intracellular network involved.

Dopamine and urodilatin promote natriuresis and diuresis through a common pathway that involves reversible deactivation of renal Na+, K+-ATPase. We have reported that urodilatin enhances dopamine uptake in outer renal cortex through the natriuretic peptide type A receptor. Moreover, urodilatin enhances dopamine-induced inhibition of Na+, K+-ATPase activity. The objective of the present work was to investigate the intracellular signals involved in urodilatin effects on dopamine uptake in renal cortex of kidney rats. We show that urodilatin-elicited increase in ³H-dopamine was blunted by methylene blue (10 µM), a non-specific guanylate cyclase inhibitor, and by phorbol-12-myristate-13-acetate (1 µM), a particulate guanylate cyclase inhibitor, but not by 1H-[1,2,4]-oxadiazolo-[4,3-a]-quinoxalin-1-one (10 µM), a specific soluble guanylate cyclase inhibitor; therefore the involvement of particulate guanylate cyclase on urodilatin mediated dopamine uptake was confirmed. Cyclic guanosine monophosphate and proteinkinase G were also implicated in the signaling pathway, since urodilatin effects were mimicked by the analog 125 µM 8-Br-cGMP and blocked by the proteinkinase G-specific inhibitor, KT-5823 (1 µM). In conclusion, urodilatin increases dopamine uptake in renal cortex stimulating natriuretic peptide type A receptor, which signals through particulate guanylate cyclase activation, cyclic guanosine monophosphate generation, and proteinkinase G activation. Dopamine and urodilatin may achieve their effects through a common pathway that involves deactivation of renal Na+, K+-ATPase, reinforcing their natriuretic and diuretic properties.

Effects of angiotensin II on renal dopamine metabolism: synthesis, release, catabolism and turnover.

BACKGROUND/AIMS: Dopamine (DA) uptake inhibition in the renal cortex, elicited by angiotensin II (ANG II), is mediated by AT(1) receptors and signals through the phospholipase C pathway and activation of protein kinase C and CaM-kinase II. By this indirect way, ANG II stimulates renal Na(+),K(+)-ATPase activity through DA intracellular reduction. In the present work, we continued to study different aspects of renal DA metabolism in DA-ANG II interaction, such as DA synthesis, release, catabolism and turnover. METHODS: ANG II effects on DA synthesis, release, catabolism and turnover were measured in samples from the outer renal cortex of Sprague-Dawley rats. RESULTS: ANG II reduced renal aromatic acid decarboxylate activity without affecting basal secretion of DA or its KCl-induced release. Moreover, ANG II enhanced monoamine oxidase activity without altering catechol-o-methyl transferase activity and increased DA turnover. CONCLUSION: Current results as well as previous findings show that ANG II modifies DA metabolism in rat renal cortex by reducing DA uptake, decreasing DA synthesis enzyme activity and increasing monoamine oxidase activity, and DA turnover. Together, all these effects may reduce DA accumulation into renal cells and decrease its endogenous content and availability. This would prevent D1 receptor recruitment and stimulation, while diminishing DA inhibition of Na(+),K(+)-ATPase activity and stimulating sodium reabsorption.

Angiotensin II regulation of renal dopamine uptake and Na(+),K(+)-ATPase activity.

BACKGROUND/AIMS: Angiotensin II (ANG II) decreases dopamine (DA) uptake in renal cortex activating AT(1) receptors. We investigated the signaling pathways that mediate this action and the incidence of DA-ANG II interaction on renal Na(+),K(+)-ATPase activity. METHODS: ANG II effects on [(3)H]-DA uptake and Na(+),K(+)-ATPase were measured in samples from the outer renal cortex of Sprague-Dawley rats. RESULTS: Inhibition of the phospholipase C (PLC) pathway blunted ANG II inhibitory effects on [(3)H]-DA uptake, since U-73122, 2-APB, TMB-8, chelerythrine and KN-93 (PLC, IP(3)-dependent Ca(2+) release channels, IP(3) receptors, protein kinase C and CaM kinase II inhibitors, respectively) each one blocked ANG II effects. Inhibition of adenylate cyclase pathway did not modify ANG II inhibitory effects on DA uptake. ANG II effects on [(3)H]-DA uptake were able to modify Na(+),K(+)-ATPase activity in carbidopa-treated rats. Exogenous DA decreased while ANG II increased the enzyme activity. Neither the addition of DA together with ANG II, nor the extraneuronal DA uptake blocker hydrocortisone altered ANG II stimulatory effects on Na(+),K(+)-ATPase activity, but hydrocortisone blocked the inhibitory effects of exogenous DA. CONCLUSION: Stimulation of renal AT(1) receptors by ANG II signals through the PLC pathway to inhibit extraneuronal DA uptake. DA and ANG II act through a common pathway involving reversible renal tubular Na(+),K(+)-ATPase deactivation and activation, respectively. In addition, ANG II by itself is able to stimulate renal Na(+),K(+)-ATPase activity.