Renal Anemia Induced by Chronic Ingestion of Depleted Uranium in Rats

Berradi, Hanaâ; Bertho, Jean-Marc; Dudoignon, N.; Mazur, Andrzej; Grandcolas, Line; Baudelin, C.; Grison, Stéphane; Voisin, Philippe; Gourmelon, P.; Dublineau, Isabelle

doi:10.1093/toxsci/kfn052

Cited by 43 publications

(27 citation statements)

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“…Ceruloplasmin protects tissue damage from oxidative injury via its oxido-reductive activity by inhibiting conversion of Fe (III) (ferric) to Fe (II) (ferrous) states of iron in the Fenton reaction resulting in (1) decreased lipid peroxidation, (2) suppression of hydroxyl radicals, and (3) diminished generation of other free radicals, also known as reactive oxygen species (ROS) [28,29] . Increased expression of kidney ceruloplasmin has been reported in uranium-induced nephrotoxicity [30,31] , cisplastin-induced nephrotoxicity [32] and other toxic insults to the kidney, including the uremic complications of chronic kidney disease [33,34] . The critical role of the organ-specific ceruloplasmin in protecting organ damage is highlighted by the condition of aceruloplasminemia, in which many tissues show tissue damage, probably from oxidative injury [35] .…”

Section: Resultsmentioning

confidence: 99%

In Diabetic Kidney Disease Urinary Exosomes Better Represent Kidney Specific Protein Alterations Than Whole Urine

et al. 2015

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Background: Predicting or diagnosing underlying kidney disease by analyzing whole urine remains the mainstay of nephrology practice. However, whole urine is a poor compartment to assess many structural changes in the kidney because whole urine contains only a few proteins derived from the kidney itself. Urinary exosomes, on the other hand, which are derived from the kidney, contain proteins secreted by the kidney. We experimentally tested the hypothesis that ‘urinary exosomes more faithfully represent changes in the kidney tissue than whole urine'. A direct comparison between whole urine and urine exosomal levels of two chosen kidney disease markers, gelatinase and ceruloplasmin, was carried out on diabetic kidney disease patients. Methods: Urinary exosomes were separated from whole urine by sequential centrifugation including ultra-centrifugation. Gelatinase activity was measured using fluorosceinated gelatin as the substrate, and ceruloplasmin was measured by sandwich ELISA. A few kidney specimens from patients biopsied for atypical features were histochemically stained for validation of the biochemical results. Results: We found that changes in both, gelatinase (decreased activity) and ceruloplasmin (increased levels), in the urinary exosomes of diabetic kidney patients were in agreement with the alterations of these two proteins in the kidney tissue. In contrast, the levels of these two proteins in whole urine were highly variable and did not correlate with levels in the diabetic kidney tissue. Conclusion: In conclusion, these results confirmed our hypothesis that protein markers in urinary exosomes better reflected the underlying protein changes in the kidney than in whole urine samples.

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Section: Resultsmentioning

confidence: 99%

In Diabetic Kidney Disease Urinary Exosomes Better Represent Kidney Specific Protein Alterations Than Whole Urine

et al. 2015

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“…animaux contaminés par l'uranium. Tout comme lors d'une exposition aiguë, des perturbations fonctionnelles peuvent également être observées telles que sur le métabolisme rénal de la vitamine D (Tissandie et al, 2007) ou du fer (Berradi et al, 2008).…”

Section: Physiopathologie (Marqueurs Plasmatiques Et Urinaires) Cf 11unclassified

Données nouvelles sur la néphrotoxicité de l’uranium

Guéguen

Rouas

2012

Radioprotection

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RÉSUMÉL'uranium est un radioélément ainsi qu'un métal lourd auquel l'homme peut être exposé du fait de sa présence dans l'environnement ou des activités humaines. Il exerce principalement une toxicité chimique au niveau du tubule contourné proximal du rein après exposition aiguë ou chronique. Après exposition à une forte dose d'uranium, la néphrite tubulaire aiguë est révélée par une protéinurie ainsi qu'une diminution du débit de filtration glomérulaire. Plus récemment, l'utilisation de marqueurs d'intégrité tissulaire telle que la béta 2-microglobuline ou des enzymes tissulaires a pu être corrélée aux altérations histopathologiques des tubules contournés proximaux. Lors d'exposition chronique à de faible niveau, l'utilisation de marqueurs plus spécifiques et plus sensibles s'avère nécessaire lorsque les lésions sont faibles. Des études expérimentales développées au laboratoire ont montré la pertinence de certains de ces biomarqueurs tel que Kim-1 pour détecter de faibles altérations rénales. L'uranium exerce sa cytotoxicité au niveau des cellules épithéliales des tubules contournés proximaux probablement du fait de son entrée dans la cellule où il s'accumule préférentiellement dans le noyau cellulaire, lorsqu'il n'est pas sous forme de précipités. Les mécanismes conduisant à la mort des cellules ne sont pas encore totalement élucidés mais le stress oxydant semble y jouer un rôle important. ABSTRACT New data on uranium nephrotoxicity.Uranium is an element and also a heavy metal to which humans can be exposed due to its natural presence or human activities. It has mainly a chemical toxicity on the proximal convoluted tubules of the kidney after acute or chronic exposure. At high dose exposure, acute tubular nephritis is observed, as indicated by proteinuria and a decreased glomerular filtration rate. More recently, the use of structural biomarkers such as beta 2-microglobuline or tubular enzymes has been correlated with histopathological injury of the proximal convoluted tubules. During chronic exposure at a low level, the use of some of these sensitive and specific biomarkers would be necessary, particularly when the injury is slight. Recent experimental studies in the laboratory have shown the relevance of such new biomarkers as Kim-1 to detect slight renal injury. Uranium exerts its toxicity on epithelial tubular cells in which it accumulates mainly in the nucleus when it is not precipitated. The mechanisms leading to cell death are not totally elucidated but oxidative stress seems to play an important role.

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“…The present results have indicated that PB has the potential to elicit multiple organ toxicity including hematopoietic toxicity. However, further studies are required to clarify the mechanism of PB action on hematopoietic toxicity as well as the relationship between hematopoietic toxicity and toxicity to other organs; for example, renal toxicity could alter erythropoietin production in juxtaglomerular cells, as reported for some chemicals and heavy metals (Naeshiro et al, 1998;Berradi et al, 2008), and neurotoxicity could be driven by abnormal Fe and ferritin metabolism, as noted in IRF2 null mice (Cooperman et al, 2005).…”

Section: Other Toxicitiesmentioning

confidence: 99%

Multiple organ toxicity, including hypochromic anemia, following repeated dose oral administration of phenobarbital (PB) in rats

et al. 2009

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-A 4-week repeated dose oral toxicity study of phenobarbital (PB) sodium was conducted in F344 rats of both sexes at PB doses of 0.8, 8, and 80 mg/kg/day to fully elucidate its general toxicity including hematological changes. Both sexes in the 80 mg/kg/day group showed staggering gait, lacrimation, and/or sedation, which were more evident in the early stage of treatment. The body weight gain reduction in the hematocrit (Ht), hemoglobin concentration (Hb), and erythrocyte count (RBC) in both sexes at 80 mg/kg/day, which was accompanied by a decrease in the cell mean Hb (CHCM) in mature erythrocytes with an increase in unsaturated iron binding capacity. Female rats also showed reduction in the CHCM in reticulocytes, content of hemoglobin per reticulocyte, and transferrin saturation. PB prolonged the activated partial thromboplastin time and inversely increased the platelet count with no evidence of platelet activation. Well-known toxic effects of PB on the liver and thyroid were observed in a dose-dependent manner, along with altered lipid, glucose, and electrolyte metabolism. The serum levels of PB increased dose-dependently, when examined in females received 8 and 80 mg/kg/day on day 1 and 28; there were no difference in C max and AUC 0-24 values between day 1 and day 28. These results indicated that PB has the potential to elicit multiple organ toxicity including an effect on the hematopoietic system. The hematological analysis provided evidence for hypochromic anemia, plausibly caused by the impairment of iron utility.

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Renal Anemia Induced by Chronic Ingestion of Depleted Uranium in Rats

Cited by 43 publications

References 46 publications

In Diabetic Kidney Disease Urinary Exosomes Better Represent Kidney Specific Protein Alterations Than Whole Urine

In Diabetic Kidney Disease Urinary Exosomes Better Represent Kidney Specific Protein Alterations Than Whole Urine

Données nouvelles sur la néphrotoxicité de l’uranium

Multiple organ toxicity, including hypochromic anemia, following repeated dose oral administration of phenobarbital (PB) in rats

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