There is increasing evidence to support the hypothesis that reactive oxygen species (ROS) play a role in the pathophysiology of arterial hypertension. The ROS, particularly the superoxide anions (O 2 − ), are important intracellular messengers for Angiotensin II (Ang II) action in the brain. Ang II increases the activity of NAD(P)H oxidase, the major source of O 2 − in the vasculature, and enhances O 2 − production, both systemically and in the central nervous system. 1,2,3 For instance, intracerebroventricular infusion of NAD(P)H oxidase inhibitor antagonizes the increase in renal sympathetic nerve activity (RSNA) and the pressor response induced by centrally mediated Ang II actions. 3,4 In the brain, overexpression of superoxide dismutase (SOD), the enzyme responsible for O 2 − breakdown, also abolishes the central pressor effect of the octapeptide. 5 There is evidence to suggest that the central nervous system is involved in the development and maintenance of arterial hypertension. 6 However, the precise mechanisms by which the central nervous system participates in the evolution of arterial hypertension remains unclear and depends on the specific origin and phase of the hypertensive state. It is well known that in the 2K-1C (two-kidney one-clip) Goldblatt hypertension, the rostral ventrolateral medulla (RVLM) is one of the most important regions involved in the hypertension. 7 Therefore, the first aim of the present study was to examine whether there is an increase in oxidative stress within the RVLM in 2K-1C hypertension. For this purpose, the NAD(P)H oxidase subunits (p47phox and gp91phox) and CuZnSOD mRNA expression were quantified in the RVLM of 2K-1C hypertensive rats.Tai et al. 8 found that in SHR, elevated O 2 − radical production in the RVLM was associated with increased sympathetic nervous system activity; however, this mechanism had not been tested in a renovascular hypertension model. The second aim of the present study was therefore to examine whether oxidative stress is involved in the maintenance of sympathetic vasomotor tone and hypertension in 2K-1C rats. For this purpose, we injected directly into the RVLM the antioxidant ascorbic acid (vitamin C-Vit C), that acts as a free radical Background Oxidative stress is a state in which excess reactive oxygen species (rOS) overwhelm endogenous antioxidant systems. It is known that this state has been involved in the development of hypertension. On the basis of previous data, we hypothesized that overactivity of naD(P)H oxidase-derived rOS and the lowered activity of CuZnSOD, an endogenous antioxidant within the rostral ventrolateral medulla (rVLM), could contribute to 2K-1C (two-kidney one-clip) hypertension. Moreover, to test the functional significance of whether oxidative stress was involved in the maintenance of sympathetic vasomotor tone and blood pressure in 2K-1C hypertension, we administered ascorbic acid (Vit C), an antioxidant, into the rVLM or systemically.
Exercise training (ET) is an important intervention for chronic diseases such as diabetes mellitus (DM). However, it is not known whether previous exercise training intervention alters the physiological and medical complications of these diseases. We investigated the effects of previous ET on the progression of renal disease and cardiovascular autonomic control in rats with streptozotocin (STZ)-induced DM. Male Wistar rats were divided into five groups. All groups were followed for 15 weeks. Trained control and trained diabetic rats underwent 10 weeks of exercise training, whereas previously trained diabetic rats underwent 14 weeks of exercise training. Renal function, proteinuria, renal sympathetic nerve activity (RSNA) and the echocardiographic parameters autonomic modulation and baroreflex sensitivity (BRS) were evaluated. In the previously trained group, the urinary albumin/creatinine ratio was reduced compared with the sedentary diabetic and trained diabetic groups (p<0.05). Additionally, RSNA was normalized in the trained diabetic and previously trained diabetic animals (p<0.05). The ejection fraction was increased in the previously trained diabetic animals compared with the diabetic and trained diabetic groups (p<0.05), and the myocardial performance index was improved in the previously trained diabetic group compared with the diabetic and trained diabetic groups (p<0.05). In addition, the previously trained rats had improved heart rate variability and BRS in the tachycardic response and bradycardic response in relation to the diabetic group (p<0.05). This study demonstrates that previous ET improves the functional damage that affects DM. Additionally, our findings suggest that the development of renal and cardiac dysfunction can be minimized by 4 weeks of ET before the induction of DM by STZ.
Previous studies have suggested that exercise improves renal and cardiac functions in patients with chronic kidney disease. The aim of this study was to evaluate the effects of long-term aerobic swimming exercise with overload on renal and cardiac function in rats with 5/6 nefrectomy (5/6Nx). Eight Wistar rats were placed into 4 groups: Control (C), Control+Exercise (E), Sedentary 5/6Nx (NxS) and 5/6Nx+Exercise (NxE). The rats were subjected to swimming exercise sessions with overload for 30 min five days per week for five weeks. Exercise reduced the effect of 5/6Nx on creatinine clearance compared to the NxS group. In addition, exercise minimized the increase in mean proteinuria compared to the NxS group (96.9±10.0 vs. 51.4±9.9 mg/24 h; p<0.05). Blood pressure was higher in the NxS and NxE groups compared to the C and E groups (216±4 and 178±3 vs. 123±2 and 124±2 mm Hg, p<0.05). In the 200 glomeruli that were evaluated, the NxS group had a higher sclerosis index than did the NxE group (16% vs. 2%, p<0.05). Echocardiography demonstrated a higher anterior wall of the left ventricle (LV) in diastole in the NxS group compared with the C, E and NxE groups. The NxS group also had a higher LV posterior wall in diastole and systole compared with the E group. The developed isometric tension in Lmax of the heart papillary muscle was lower in the NxS group compared with the C, E and NxE groups. These results suggested that exercise in 5/6Nx animals might reduce the progression of renal disease and lessen the cardiovascular impact of a reduction in renal mass.
Sympathetic activation in chronic renal failure (CRF) is a major mechanism leading to the progression of renal disease and hypertension. In the present study, we tested the hypothesis that in CRF increased reactive oxygen species (ROS) production in the RVLM mediated by enhanced circulating Angiotensin II (Ang II) is an important mechanism leading to hypertension in CRF. In CRF rats we found an increase in the abundance of p47phox and gp91phox mRNA within the RVLM associated with a reduction of Ang II type 1 receptors (AT1) mRNA in the brainstem compared to controls (C). Tempol but not candesartan into the RVLM decreased MAP in CRF but not in C rats. GABA into the RVLM decreased MAP in CRF (63 ± 8 mmHg) more intensely than in C (33 ± 3 mmHg). The results suggest that increased oxidative stress within the RVLM has an important participation to maintain hypertension in CRF rats apparently independently of AT1 Ang II receptors.
The objective of the present study was to evaluate the role of physical exercise as well as the influence of hydration with an isotonic sports drink on renal function in male Wistar rats. Four groups were studied over a period of 42 days: 1) control (N = 9); 2) physical exercise (Exe, N = 7); 3) isotonic drink (Drink, N = 8); 4) physical exercise + isotonic drink (Exe + Drink, N = 8). Physical exercise consisted of running on a motor-driven treadmill for 1 h/day, at 20 m/min, 5 days a week. The isotonic sports drink was a commercial solution used by athletes for rehydration after physical activity, 2 ml administered by gavage twice a day. Urine cultures were performed in all animals. Twenty-four-hour urine samples were collected in metabolic cages at the beginning and at the end of the protocol period. Urinary and plasma parameters (sodium, potassium, urea, creatinine, calcium) did not differ among groups. However, an amorphous material was observed in the bladders of animals in the Exe + Drink and Drink groups. Characterization of the material by Western blot revealed the presence of Tamm-Horsfall protein and angiotensin converting enzyme. Physical exercise and the isotonic drink did not change the plasma or urinary parameters measured. However, the isotonic drink induced the formation of intravesical matrix, suggesting a potential lithogenic risk.
Background/Aim: Previously we demonstrated that calcium oxalate (CaOx) in LLC-PK1 cells and oxalate in MDCK cells induce tubular damage and greater glycosaminoglycan synthesis. We test the hypothesis that reactive oxygen species (ROS) and prostaglandins mediate these effects. Methods: LLC-PK1 and MDCK cells were exposed to graded concentrations of CaOx, oxalate or both. Glycosaminoglycan synthesis was analyzed through metabolic labeling and gel electrophoresis. Cell permeability and lipid peroxidation were assessed by lactate dehydrogenase release and malondialdehyde levels. Hydrogen peroxide and superoxide anion were analyzed using 2′,7′-dichlorofluorescein and luminol. Cyclooxygenase-2 expression and prostaglandin E2 production were assessed by RT-PCR and ELISA, respectively. Results: In LLC-PK1 cells exposed to CaOx, we observed increased cell permeability, no induction of ROS or lipid peroxidation, inability to produce lipopolysaccharide-induced ROS and increases in prostaglandin E2. Indomethacin used alone increased glycosaminoglycan synthesis but did not potentiate CaOx-induced effects. In MDCK cells exposed to oxalate we observed increased cell permeability, ROS production only at higher concentrations and inability to produce lipopolysaccharide-induced ROS. Indomethacin alone had no effect but increased oxalate-induced glycosaminoglycan synthesis. Conclusions: Prostaglandins modulate endogenous production of glycosaminoglycans in LLC-PK1 cells, as well as regulate oxalate-induced glycosaminoglycan synthesis in MDCK cells. Rather than increasing, CaOx and oxalate blunted lipopolysaccharide-induced ROS production. We could speculate that patients with recurrent nephrolithiasis may lose antimicrobial protection induced by ROS during infections.
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