N-acetylcysteine attenuates the progression of chronic renal failure

N-acetylcysteine attenuates the progression of chronic renal failure.BackgroundLipid peroxidation impairs renal function. Aldosterone contributes to renal injury in the remnant kidney model. This study aimed to determine the effects of the antioxidant N-acetylcysteine (NAC) on renal function and aldosterone levels in chronic renal failure.MethodsAdult male Wistar rats were submitted to 5/6 nephrectomy or laparotomy (sham-operated) and received NAC (600 mg/L in drinking water, initiated on postoperative day 7 or 60), spironolactone (1.5 g/kg of diet initiated on postoperative day 7), the NAC-spironolactone combination or no treatment. Clearance studies were performed on postoperative days 21, 60, and 120.ResultsMean daily NAC and spironolactone ingestion was comparable among the treated groups. Mean weight gain was higher in NAC-treated rats than in untreated rats. A significant decrease in urinary thiobarbituric acid reactive substances (TBARS) concentrations, a lipid peroxidation marker, was observed in NAC-treated rats. By day 120, glomerular filtration rate (GFR), which dropped dramatically in untreated rats, was stable (albeit below normal) in NAC-treated rats, which also presented lower proteinuria, glomerulosclerosis index, and blood pressure, together with attenuated cardiac and adrenal hypertrophy. These beneficial effects, observed even when NAC was initiated on postnephrectomy day 60, were accompanied by a significant reduction in plasma aldosterone and urinary sodium/potassium ratio. The NAC-spironolactone combination lowered blood pressure and improved GFR protection.ConclusionThe NAC-spironolactone combination improves renal function more than does NAC alone. In the remnant kidney model, early or late NAC administration has a protective effect attributable to decreased plasma aldosterone and lower levels of lipid peroxidation

N-acetylcysteine attenuates the progression of chronic kidney disease

Os biomarcadores do estresse oxidativo encontram-se elevados na urina e no plasma dos pacientes renais crônicos. A aldosterona (ALD) contribui para a lesão renal no modelo de rins remanescentes. Objetivos: 1- Determinar o efeito do antioxidante N-acetilcisteína (NAC) sobre a função renal e a aldosterona plasmática de animais com IRC. 2- Avaliar o efeito da NAC sobre a evolução da IRC, mesmo quando administrada tardiamente. 3- Avaliar os efeitos da NAC associada a Espironolactona (Spi). Material e Métodos: Ratos adultos Wistar machos foram submetidos a nefrectomia de 5/6 (Nx). No estudo 1: Animais foram tratados ou não com NAC na dose de (600mg/l na água de beber) iniciado 7dias após nefrectomia (Nx). Estudos de clearance foram realizados em todos os grupos, 21, 60 e 120 dias após Nx. No estudo 2: 6 animais foram tratados com NAC após 60 dias de Nx e estudados 120 dias após NX. No estudo 3: Os ratos foram tratados com Spi (1.5g/kg de dieta) associados ou não com NAC, ambos iniciados a partir do 7º dia da nefrectomia e estudados 60 dias após a Nx. Em todos os grupos foram avaliados: clearance de inulina (RFG, ml/min/100g peso); proteinúria (Uvpr., mg/24h); aldosterona plasmática (ng/dl); relação potássio/sódio urinário (UK/UNa), pressão arterial (mmHg), TBARS urinário (nmoles/24h) e o índice de glomeruloesclerose (%). Resultados: A ingestão média de NAC foi similar nos respectivos grupos tratados. Significante diminuição de TBARS (marcador de peroxidação lipídica), foi observada nos ratos Nx tratados com NAC (mesmo quando administrado tardiamente). O principal resultado deste estudo foi que a administração de NAC nos animais com nefrectomia de 5/6, protegeu a filtração glomerular (GFR) significativamente, com uma média de clearance de inulina de 0.45 ml/min (50% dos valores normais), mantendose estável 120 dias após a nefrectomia (0,51 ± 0,03). Ao contrário, GFR diminuiu progressivamente nos animais não tratados (0,16 ± 0,03). Nos animais Nx+NAC, a proteinúria, o índice de glomeruloesclerose e a pressão arterial, apresentaram diminuição após 120 dias de Nx e hipertrofia dos corações e das adrenais foram atenuadas. Estes efeitos benéficos estão associados com uma significante redução da aldosterona plasmática e da razão UK/UNa (marcador indireto da ação tubular da aldosterona) e foram observados mesmo com a administração tardia de NAC (60 dias após Nx). A mortalidade foi de 33% no grupo de Nx120, 25% no grupo Nx120+NAC e 10% nos animais Nx120+60NAC. No estudo 3: A espironolactona isoladamente diminuiu a proteinúria dos animais Nx, entretanto, quando associada a NAC promoveu maior proteção da filtração glomerular (Nx60 + NAC+Spi = 0,59±0,04 vs.Nx + 60 + NAC = 0,47 ± 0,05, p < 0,001) e menor pressão arterial (136±2mmHg) do que nos animais tratados apenas com NAC (154 ± 2 mmHg). Conclusões: 1. O antioxidante NAC exerceu efeito protetor sobre a filtração glomerular de ratos com insuficiência renal crônica, mesmo quando administrado tardiamente, além de diminuir as concentrações de aldosterona e TBARS, marcador de peroxidação lipídica. 2. A associação de NAC e espironolactona proporcionou efeito benéfico aditivo sobre a filtração glomerular, acompanhado de uma maior queda da pressão arterial.Oxidative stress biomarkers are increased in urine and plasma from renal chronic patients. Aldosterone (ALD) contributes to the kidney lesion in the remnant kidney model. Objectives: This studies was carried out to: 1- Determine the effect of antioxidant N-acetylcysteine (NAC) on kidney function and plasma aldosterone on animals with chronic renal failure (CRF); 2- Evaluate the effect of NAC on the CRF evolution, even when administered at a later stage; 3- Evaluate the effects of NAC associated with spironolactone (SPI). Material and Methods: Adult male Wistar rats were submitted to 5/6 nephrectomy (Nx). In study 1: Animals were treated or not with NAC (600 mg/l in drinking water), started 7 days after Nx. Clearance studies were performed on all rats at 21, 60 and 120 days after Nx. In study 2: 6 rats were treated with NAC initiated 60 days after Nx and studied 120 days after Nx. In study 3: rats were treated with Spi (1.5 g/Kg diet) associated or not to NAC, both initiated 7 days after Nx-treated rats and studied 60 days after Nx. In all experiments the following were measured: inulin clearance (GRF, ml/min/100g body weight); proteinuria (Uvpr, mg/24h); plasma aldosterone (ng/dl); urinary potassium/sodium ratio (UK/UNa); blood pressure (mmHg); urinary TBARS (nmoles/24h) and glomerulosclerosis index (%). Results: Mean daily NAC ingestion was similar in respective treated groups. A significant decrease in urinary TBARS (an index of lipid peroxidation) was observed in the NAC treated rats even when administered at a later stage. The main new finding of this study is that NAC administration to 5/6-Nx rats protects the glomerular filtration rate (GFR) significantly, with a mean inulin clearance of 0.45 (50% of the normal values), remaining stable 120 days following nephrectomy (0.51±0.03). Conversely, GFR fell progressively in untreated rats (0.16±0.03). In Nx+NAC rats, proteinuria, glomerulosclerosis index and blood pressure all decreased by day 120, and heart and adrenal hypertrophy were attenuated. These beneficial effects were associated with a significant reduction in plasma aldosterone and urinary sodium/potassium (UK/UNa) ratio (indirect marker of aldosterone tubular action) and were observed even when NAC was administered later (60 days after Nx). Mortality was 33% in the Nx 120 group, 25% in the Nx120+NAC group and 14.3% in the Nx120 (Nx60+60NAC). In study 3: Spironolactone isolatedly decreased proteinuria in the Nx animals, however when associated with NAC it caused more protection of GFR (Nx60+NAC+Spi = 0.59±0.04 vs Nx60+NAC = 0.47 ± 0.05, p < 0.001) and lower blood pressure (136±2 mmHg) than in the animals treated only with NAC (154±2 mmHg). The combination of Spi and NAC lowered blood pressure and improve GFR protection. Conclusion: 1. In the remnant kidney model, NAC has a protective effect attributable to decreased plasma aldosterone and lower of lipid peroxidation indicative of thiobarbituric acid reactive substances (TBARS) lower levels, even in the later stages. 2. Combination of NAC and Spi showed an extra beneficial effect over glomerular filtration, and a higher decrease of blood pressure

Administration of a single dose of lithium ameliorates rhabdomyolysis-associated acute kidney injury in rats.

Rhabdomyolysis is characterized by muscle damage and leads to acute kidney injury (AKI). Clinical and experimental studies suggest that glycogen synthase kinase 3β (GSK3β) inhibition protects against AKI basically through its critical role in tubular epithelial cell apoptosis, inflammation and fibrosis. Treatment with a single dose of lithium, an inhibitor of GSK3β, accelerated recovery of renal function in cisplatin and ischemic/reperfusion-induced AKI models. We aimed to evaluate the efficacy of a single dose of lithium in the treatment of rhabdomyolysis-induced AKI. Male Wistar rats were allocated to four groups: Sham, received saline 0.9% intraperitoneally (IP); lithium (Li), received a single IP injection of lithium chloride (LiCl) 80 mg/kg body weight (BW); glycerol (Gly), received a single dose of glycerol 50% 5 mL/kg BW intramuscular (IM); glycerol plus lithium (Gly+Li), received a single dose of glycerol 50% IM plus LiCl IP injected 2 hours after glycerol administration. After 24 hours, we performed inulin clearance experiments and collected blood / kidney / muscle samples. Gly rats exhibited renal function impairment accompanied by kidney injury, inflammation and alterations in signaling pathways for apoptosis and redox state balance. Gly+Li rats showed a remarkable improvement in renal function as well as kidney injury score, diminished CPK levels and an overstated decrease of renal and muscle GSK3β protein expression. Furthermore, administration of lithium lowered the amount of macrophage infiltrate, reduced NFκB and caspase renal protein expression and increased the antioxidant component MnSOD. Lithium treatment attenuated renal dysfunction in rhabdomyolysis-associated AKI by improving inulin clearance and reducing CPK levels, inflammation, apoptosis and oxidative stress. These therapeutic effects were due to the inhibition of GSK3β and possibly associated with a decrease in muscle injury

N-Acetylcysteine Protects Rats with Chronic Renal Failure from Gadolinium-Chelate Nephrotoxicity

The aim of this study was to evaluate the effect of Gd-chelate on renal function, iron parameters and oxidative stress in rats with CRF and a possible protective effect of the antioxidant N-Acetylcysteine (NAC). Male Wistar rats were submitted to 5/6 nephrectomy (Nx) to induced CRF. An ionic - cyclic Gd (Gadoterate Meglumine) was administrated (1.5 mM/KgBW, intravenously) 21 days after Nx. Clearance studies were performed in 4 groups of anesthetized animals 48 hours following Gd-chelate administration: 1 - Nx (n = 7); 2 - Nx+NAC (n = 6); 3 - Nx+Gd (n = 7); 4 - Nx+NAC+Gd (4.8 g/L in drinking water), initiated 2 days before Gd-chelate administration and maintained during 4 days (n = 6). This group was compared with a control. We measured glomerular filtration rate, GFR (inulin clearance, ml/min/kg BW), proteinuria (mg/24 hs), serum iron (mu g/dL); serum ferritin (ng/mL); transferrin saturation (%), TIBC (mu g/dL) and TBARS (nmles/ml). Normal rats treated with the same dose of Gd-chelate presented similar GFR and proteinuria when compared with normal controls, indicating that at this dose Gd-chelate is not nephrotoxic to normal rats. Gd-chelate administration to Nx-rats results in a decrease of GFR and increased proteinuria associated with a decrease in TIBC, elevation of ferritin serum levels, transferrin oversaturation and plasmatic TBARS compared with Nx-rats. The prophylactic treatment with NAC reversed the decrease in GFR and the increase in proteinuria and all alterations in iron parameters and TBARS induced by Gd-chelate. NAC administration to Nx rat did not modify the inulin clearance and iron kinetics, indicating that the ameliorating effect of NAC was specific to Gd-chelate. These results suggest that NAC can prevent Gd-chelate nephrotoxicity in patients with chronic renal failure

Atorvastatin Prevents the Downregulation of Aquaporin-2 Receptor After Bilateral Ureteral Obstruction and Protects Renal Function in a Rat Model

OBJECTIVE To assess the effects of atorvastatin (ATORV) on renal function after bilateral ureteral obstruction (BUO), measuring inulin clearance and its effect on renal hemodynamic, filtration, and inflammatory response, as well as the expression of Aquaporin-2 (AQP2) in response to BUO and after the release of BUO. METHODS Adult Munich-Wistar male rats were subjected to BUO for 24 hours and monitored during the following 48 hours. Rats were divided into 5 groups: sham operated (n = 6); sham + ATORV (n = 6); BUO (n = 6); BUO + ATORV (10 mg/kg in drinking water started 2 days before BUO [n = 5]; and BUO + ATORV (10 mg/kg in drinking water started on the day of the release of BUO [n = 5]). We measured blood pressure (BP, mm Hg); inulin clearance (glomerular filtration rate [GFR]; mL/min/100 g); and renal blood flow (RBF, mL/min, by transient-time flowmeter). Inflammatory response was evaluated by histologic analysis of the interstitial area. AQP2 expression was evaluated by electrophoresis and immunoblotting. RESULTS Renal function was preserved by ATORV treatment, even if initiated on the day of obstruction release, as expressed by GFR, measured by inulin clearance. Relative interstitial area was decreased in both BUO + ATORV groups. Urine osmolality was improved in the ATORV-treated groups. AQP2 protein expression decreased in BUO animals and was reverted by ATORV treatment. CONCLUSION ATORV administration significantly prevented and restored impairment in GFR and renal vascular resistance. Furthermore, ATORV also improved urinary concentration by reversing the BUO-induced downregulation of AQP2. These findings have significant clinical implication in treating obstructive nephropathy. UROLOGY 80: 485.e15-485.e20, 2012. (c) 2012 Elsevier Inc

Vitamin D deficiency aggravates nephrotoxicity, hypertension and dyslipidemia caused by tenofovir: role of oxidative stress and renin-angiotensin system.

Vitamin D deficiency (VDD) is prevalent among HIV-infected individuals. Vitamin D has been associated with renal and cardiovascular diseases because of its effects on oxidative stress, lipid metabolism and renin-angiotensin-aldosterone system (RAAS). Tenofovir disoproxil fumarate (TDF), a widely used component of antiretroviral regimens for HIV treatment, can induce renal injury. The aim of this study was to investigate the effects of VDD on TDF-induced nephrotoxicity. Wistar rats were divided into four groups: control, receiving a standard diet for 60 days; VDD, receiving a vitamin D-free diet for 60 days; TDF, receiving a standard diet for 60 days with the addition of TDF (50 mg/kg food) for the last 30 days; and VDD+TDF receiving a vitamin D-free diet for 60 days with the addition of TDF for the last 30 days. TDF led to impaired renal function, hyperphosphaturia, hypophosphatemia, hypertension and increased renal vascular resistance due to downregulation of the sodium-phosphorus cotransporter and upregulation of angiotensin II and AT1 receptor. TDF also increased oxidative stress, as evidenced by higher TBARS and lower GSH levels, and induced dyslipidemia. Association of TDF and VDD aggravated renovascular effects and TDF-induced nephrotoxicity due to changes in the redox state and involvement of RAAS

Rosiglitazone prevents sirolimus-induced hypomagnesemia, hypokalemia, and downregulation of NKCC2 protein expression

Alexandre CS, Braganca AC, Shimizu MH, Sanches TR, Fortes MA, Giorgi RR, Andrade L, Seguro AC. Rosiglitazone prevents sirolimus-induced hypomagnesemia, hypokalemia, and downregulation of NKCC2 protein expression. Am J Physiol Renal Physiol 297: F916-F922, 2009. First published August 5, 2009; doi:10.1152/ajprenal.90256.2008.-Sirolimus, an antiproliferative immunosuppressant, induces hypomagnesemia and hypokalemia. Rosiglitazone activates renal sodiumand water-reabsorptive pathways. We evaluated whether sirolimus induces renal wasting of magnesium and potassium, attempting to identify the tubule segments in which this occurs. We tested the hypothesis that reduced expression of the cotransporter NKCC2 forms the molecular basis of this effect and evaluated the possible association between increased urinary excretion of magnesium and renal expression of the epithelial Mg(2+) channel TRPM6. We then analyzed whether rosiglitazone attenuates these sirolimus-induced tubular effects. Wistar rats were treated for 14 days with sirolimus (3 mg/kg body wt in drinking water), with or without rosiglitazone (92 mg/kg body wt in food). Protein abundance of NKCC2, aquaporin2 (AQP2), and TRPM6 was assessed using immunoblotting. Sirolimus-treated animals presented no change in glomerular filtration rate, although there were marked decreases in plasma potassium and magnesium. Sirolimus treatment reduced expression of NKCC2, and this was accompanied by greater urinary excretion of sodium, potassium, and magnesium. In sirolimus-treated animals, AQP2 expression was reduced. Expression of TRPM6 was increased, which might represent a direct stimulatory effect of sirolimus or a compensatory response. The finding that rosiglitazone prevented or attenuated all sirolimus-induced renal tubular defects has potential clinical implications