Role of NO in cyclosporin nephrotoxicity: effects of chronic NO inhibition and NO synthases gene expression

Bobadilla, Norma A.; Gamba, Gerardo; Tapia, Edilia; García-Torres, R; Bolio, Alexis; Lopez-Zetina, P.; Herrera-Acosta, Jaime

doi:10.1152/ajprenal.1998.274.4.f791

Cited by 49 publications

(56 citation statements)

References 22 publications

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“…Forstermann et al 1998), and a LPS-evoked NO-inhibition of eNOS by NO produced from iNOS has previously been demonstrated in the kidney (Schwartz et al 1997). The coupled changes in iNOS and eNOS expression are in correspondence with those found during endotoxemia and sepsis in different species including human (see Traber 1996), and are also in agreement with previous studies combining quantitative mRNA-expression and immunocytochemical localization of NOS-proteins, after LPS-treatment in rats and glomerulonephritis in humans (Liu et al 1996, Schwartz and Blantz 1999, Bobadilla et al 1998, Furusu et al 1998, Cattell 2002. In general, induction of iNOS and NO produced as part of an immunological response may cause acute renal failure and dysfunction of different organs (see Schwartz and Blantz 1999, Heyman 2000a, 2000b, Shieh et al 2000.…”

Section: Alterations In Nnos By MD Cells As Part Of Compensatory Intesupporting

confidence: 88%

“…The complex regulation of eNOS expression in the kidney is influenced by a large number of compounds and physiological conditions (see review by Kleinert et al 2003). An indirect influence on eNOS expression via altered iNOS expression has been indicated to affect glomerular function specifically (Cattell 2002, Zhou et al 2000, Bobadilla et al 1998. Thus, during endotoxemia the lowered eNOS expression in arterioles and glomeruli may be influenced by nearby produced NO, both from the iNOS cells in the Bowman's capsule and cortical tubules and from nNOS cells in MD.…”

Section: Alterations In Nnos By MD Cells As Part Of Compensatory Intementioning

confidence: 99%

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Expression of nitric oxide synthase isoforms in the mouse kidney: cellular localization and influence by lipopolysaccharide and Toll-like receptor 4

et al. 2006

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We determined the cellular mRNA expression of all intrarenal nitric oxide (NO)-producing NO synthase (NOS) isoforms, endothelial NOS (eNOS) and neuronal NOS (nNOS) and inducible NOS (iNOS) in kidneys from wild type mice (WT) and immune deficient Toll-like receptor 4 (TLR4) mutant mice, during normal physiological conditions and during a shortterm (6-16 hours) endotoxic condition caused by systemically administered lipopolysaccaride (LPS). Investigations were performed by means of in situ hybridization and polymerase chain reaction amplification techniques. In WT, LPS altered the expression rate of all intrarenal NOS isoforms in a differentiated but NOS-isoform coupled expression pattern, with iNOS induction, and up-and down-regulation of the otherwise constitutively expressed NOS isoforms, e.g. eNOS and nNOS and an iNOS isotype. In TLR4 mutants, LPS caused none or a lowered iNOS induction, but altered the expression rate of the constitutive NOS isoforms. It is concluded that the intrarenal spatial relation of individual NOS-isoforms and their alteration in expression provide the basis for versatile NO-mediated renal actions that may include local interactions between NOS isoforms and their individual NO-target sites, and that the NOSisoform dependent events are regulated by TLR4 during endotoxic processes. These regulatory mechanisms are likely to participate in different pathophysiological conditions affecting NO-mediated renal functions.

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Section: Alterations In Nnos By MD Cells As Part Of Compensatory Intesupporting

confidence: 88%

Section: Alterations In Nnos By MD Cells As Part Of Compensatory Intementioning

confidence: 99%

Expression of nitric oxide synthase isoforms in the mouse kidney: cellular localization and influence by lipopolysaccharide and Toll-like receptor 4

et al. 2006

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“…A reduction of the ultrafiltration coefficient (K f ) has also been observed. The decrease in these two hemodynamic variables lead to a significant reduction of the single-nephron glomerular filtration rate and thus renal dysfunction (7,10,11). The precise mechanism by which CsA induced renal vasoconstriction has not been clearly established.…”

Section: Mechanisms Of Csa Nephrotoxicitymentioning

confidence: 99%

“…The precise mechanism by which CsA induced renal vasoconstriction has not been clearly established. Results from several studies indicate that vascular dysfunction induced by CsA results from an increase in vasoconstrictor factors that include endothelin (28), thromboxane (46), and angiotensin II (45,65) as well as a reduction of vasodilator factors such as prostacyclin (45) and nitric oxide (NO) (10,11,17,34,69). Thus an imbalance in the release of vasoactive substances seems to be responsible for renal vasoconstriction.…”

Section: Mechanisms Of Csa Nephrotoxicitymentioning

confidence: 99%

New insights into the pathophysiology of cyclosporine nephrotoxicity: a role of aldosterone

Bobadilla¹,

Gamba²

2007

American Journal of Physiology-Renal Physiology

Self Cite

117

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Cyclosporine A (CsA), a calcineurin inhibitor, has improved allograft survival in solid organ transplantation and has been increasingly applied in the management of autoimmune diseases. While marked progress has been made in patient and allograft survival rates, clinical use of CsA is often limited by its nephrotoxic effect, which can be presented as two distinct and well-characterized forms: acute and chronic nephrotoxicity. The acute form is characterized by renal vasoconstriction, induced by an imbalance of vasoactive substances release, which leads to renal dysfunction. This form is reversible. The chronic toxicity, in contrast, is characterized by the vasoconstriction plus the development of structural damage that includes arteriolopathy and tubulointerstitial fibrosis that are often not reversible. The exact mechanisms of these deleterious effects are not fully understood, but major advances have occurred over the last few years. Here we review the current literature regarding the pathogenesis and strategies that have been used to ameliorate renal injury in chronic CsA nephrotoxicity. Recent observations suggest that aldosterone plays a central role in the pathogenesis of CsA nephrotoxicity and that spironolactone could be a useful agent to prevent it. These studies and the use of mineralocorticoid receptor blockade are discussed.

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“…In a previous study, our group has shown that L-arginine-administration in slightly lower dosages could partly improve renal function after ischemia without CNI-treatment, whereas Lmonomethyl-arginine, another unspecific NOS-inhibitor, had no effect [22]. For calcineurin inhibitors, an influence on intrarenal NO-synthesis was reported as well: CsA supplied with the drinking-water increases endothelial NOS-expression in the renal cortex of Wistar rats, most likely as counterregulation of the release of endothelin and other vasoconstrictors [4]. The group of De Nicola observed in micropuncture studies that chronic CSA-treatment decreased single nephron GFR and plasma flow, due to disturbances in afferent arteriolar autoregulation, which was partially prevented by arginine-feeding [6].…”

mentioning

confidence: 99%

Tacrolimus in acute renal failure: does L-arginine-infusion prevent changes in renal hemodynamics?

Lopau¹,

Kleinert²,

Erler³

et al. 2000

Transplant Int

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Nephrotoxicity is one of the main side effects of calcineurininhibitors. The influence of tacrolimus on the renal vasculature has not been well described. We have therefore examined the effects of tacrolimus on renal functional parameters as well as the contribution of the NO-system in a model of ischemic acute renal failure (ARF). Induction of ARF was achieved by clamping both renal arteries of female Sprague-Dawley rats. During the experiment, RBF, GFR, MAP, RVR and FENa were determined during infusion of vehicle, TAC, TAC and the NOS-activator L-arginine, and TAC and NOS-inhibition due to L-NMMA. TAC induced a significant rise in RVR with further decrease of RBF and GFR. Simultaneous Larginine-infusion could reverse these effects during the infusion without complete restoration to preischemic levels. NOS-inhibition increased MAP and RBF without any effect on GFR. FENa did not differ significantly between the groups. Tacrolimus in the situation of ischemic acute renal failure causes vasoconstriction of pre-and postglomerular vessels with a further deterioration of renal function. Larginine abolishes the functional deterioration, most likely due to increased NO-liberation.

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Role of NO in cyclosporin nephrotoxicity: effects of chronic NO inhibition and NO synthases gene expression

Cited by 49 publications

References 22 publications

Expression of nitric oxide synthase isoforms in the mouse kidney: cellular localization and influence by lipopolysaccharide and Toll-like receptor 4

Expression of nitric oxide synthase isoforms in the mouse kidney: cellular localization and influence by lipopolysaccharide and Toll-like receptor 4

New insights into the pathophysiology of cyclosporine nephrotoxicity: a role of aldosterone

Tacrolimus in acute renal failure: does L-arginine-infusion prevent changes in renal hemodynamics?

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