Marı́a Mónica Elı́as scite author profile

Background/Aims: Contributions to the understanding of acute renal failure (ARF) pathogenesis have not been translated into an effective clinical therapy. We studied the effects of pretreatment with the angiotensin II type 1 (AT1) receptor blocker, losartan, on renal function, tissue injury, inflammatory response and serum aldosterone levels in a model of ischemic ARF. Methods: Rats underwent unilateral renal ischemia followed by 24 h of reperfusion (IR), and were pretreated or not with 8 (IRL8) or 80 (IRL80) mg/kg/day of losartan for 3 days. Results: IR kidneys showed marked renal dysfunction, epithelial damage, capillary congestion, increased myeloperoxidase (MPO) activity and increased TNF-α, IL1-β and IL-6 mRNA levels. IRL80 kidneys showed protection against dysfunction and tissue injury, associated with normal MPO activity and cytokine mRNA levels. The lower dose was not able to achieve the same degree of functional renoprotection and could not prevent an increase of MPO or proinflammatory cytokine mRNA levels. The high losartan dose completely prevented an increase of serum aldosterone levels induced by IR. Conclusion: Renoprotection of the high losartan dose would be mainly mediated by its anti-inflammatory actions. Our results show a potential pathophysiological role of AT1 activation in promoting renal dysfunction, structural injury, inflammation and aldosterone elevation after IR injury.

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Effect of chronic accumulation of aluminum on renal function, cortical renal oxidative stress and cortical renal organic anion transport in rats

Mahieu

Gionotti

Millen

et al. 2003

Archives of Toxicology

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The aim of the present work was to study the nephrotoxicity of aluminum lactate administered for 3 months (0.57 mg/100 g bodyweight aluminum, i.p., three times per week) to male Wistar rats. Renal function was studied after 6 weeks of treatment (urine was obtained from rats in metabolic cages) and at the end of the treatment using clearance techniques. Another group of rats was used as kidneys donors at the end of treatment. The renal cortex was separated and homogenized to determine glutathione (GSH) level, glutathione S-transferase (GST) activity and lipid peroxidation (LPO) level. Renal cortex slices were also used to study the p-aminohippuric acid (PAH) accumulation during steady-state conditions and the kinetics of uptake process. Clearance results, at the end of the treatment, indicated that renal functions in treated-rats were not different from those measured in control rats, although the renal concentration parameters differ when they were measured in treated rats after 24 h of food and water deprivation. Balances of water and sodium were also modified at both 1.5 and 3 months of treatment. The activity of alkaline phosphatase (AP) relative to inulin excreted in urine was significantly impaired: controls 2.2+/-0.6 IUI/mg, Al-treated 5.1+/-0.5 IU/mg, P<0.05. These data indicated that proximal tubular cells were loosing apical brush border membranes. Data obtained in cortex homogenates indicated that both GSH and GST activity were significantly decreased, and a significant increase of LPO was noted simultaneously in Al-treated rats. Renal accumulation of PAH, estimated as slice-to-medium ratio, decreased significantly in the Al-treated rats: control rats 3.06+/-0.02 ( n=12), Al-treated rats 2.26+/-0.04 ( n=12), P<0.0001. The maximal rate of uptake was also diminished in treated rats, while the apparent affinity remained unchanged. All these results indicate that aluminum accumulation in renal tissue affects cellular metabolism, promotes oxidative stress and induces alterations in renal tubular PAH transport, together with an impairment in sodium and water balance only detected under conditions of water deprivation, without other evident changes in glomerular filtration rate or other global functions measured by clearance techniques at least at this time of chronic toxicity.

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Bilitranslocase localization and function in basolateral plasma membrane of renal proximal tubule in rat

Elı́as

Lunazzi

Passamonti

et al. 1990

American Journal of Physiology-Renal Physiology

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Bilirubin and phthalein dyes are taken up by the liver via a carrier-mediated mechanism operated at least in part by bilitranslocase (BTL). Because they also undergo renal transport, the presence and function of BTL was investigated in rat renal tubular plasma membrane vesicles. Transport of sulfobromophthalein (BSP) was enriched in basolateral domain of plasma membrane and followed the distribution pattern of Na(+)-K(+)-ATPase but not of gamma-glutamyltransferase. BSP uptake was inhibited by addition of monospecific antibodies raised against hepatic BTL. As in liver vesicles, BSP transport was electrogenic, being greatly accelerated by addition of valinomycin in presence of an inwardly directed K+ gradient. Apparent Km of BSP transport was 17 +/- 2 microM (n = 3 expts), one order of magnitude higher than that measured in liver; however, Vmax was similar to that described in liver vesicles (429 +/- 18 nmol BSP.mg protein-1.min-1, n = 3 expts). Competitive inhibition was observed with both unconjugated bilirubin (Ki, 2.9 +/- 0.2 microM) and rifamycin SV (Ki, 76 +/- 10 microM), known competitors for hepatic BTL-mediated transport of BSP. Immunoblotting studies with anti-BTL monospecific antibodies revealed presence of a single positive band only in basolateral-enriched membrane fraction; its apparent molecular mass was 37 kDa, virtually identical to that of hepatic protein. Immunohistochemistry confined presence of BTL to renal proximal tubules (RPT) We conclude that BTL is present in basolateral plasma membrane of RPT cells. Lower affinity of renal, compared with hepatic protein, for substrates might explain the marginal role of kidney in plasma clearance of bilirubin and cholephilic dyes.

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Mercuric chloride effects on rat renal redox enzymes activities: SOD protection

Girardi

Elı́as

1995

Free Radical Biology and Medicine

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Alterations of the renal function and oxidative stress in renal tissue from rats chronically treated with aluminium during the initial phase of hepatic regeneration

Mahieu

Millen

González

et al. 2005

Journal of Inorganic Biochemistry

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Acetaminophen nephrotoxicity in male Wistar rats

1992

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Acute acetaminophen (APAP) nephrotoxicity was studied in male Wistar rats 1 h after different APAP single doses (200, 500 and 1000 mg/kg body wt, i.p.). Significant impairments in glomerular filtration rate (GFR) and clearance of p-aminohippuric acid (ClPAH) were observed in a dose-dependent way, although tubular parameters measured, water and electrolyte fractional excretion, remained at control values, while the urine to plasma osmolality ratios (Uosm/Posm) were diminished in APAP-1000 rats (control = 2.93 +/- 0.20, APAP-1000 = 1.40 +/- 0.04). The time course of renal function was also studied in APAP-1000 mg/kg-treated animals; parallel impairments were observed in GFR, ClPAH and tubular functions. Maximal alteration was observed at 16 h and restorement began at 24 h post-injection. Glucose renal handling, either at low or at high tubular glucose loads, remained at control values. Thus, our data suggest that the early stage of acetaminophen nephrotoxicity might be due to renal hemodynamic changes which might induce an alteration in tubular function principally in distal structures of medullary tissue, as shown by the Uosm/Posm results. These effects occurred coupled with a diminution in hepatic glutathione (GSH) levels at every APAP dose and in renal GSH levels in APAP-1000 mg/kg-treated rats. Moreover, renal damage was observed both in the presence or absence of hepatic damage.

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