Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0022672 (acute tubular necrosis)
 2,175 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

This review concerns the present state of accomplishments in the study of SEM of human and experimental renal disease. Critical techniques of specimen preparation reviewed include perfusion fixation, razor tissue sectioning, alcohol cryofracture, microtome sectioning of paraffin or styrene embedded tissue, ultraplaning with glass knives of hard carbowax embedded tissues and glomerular isolation. Gold-palladium coating and heavy metal impregnation with osmium, uranium, and silver are discussed. A compendium of SEM observations of human glomerular, vascular and tubular disease is presented. Techniques for SEM of experimental renal disease are reviewed. These include latex vascular injection, freeze drying, x-ray microanalysis and use of backscattered electron imaging. Experimental models previously investigated by SEM are puromycin aminonucleoside nephrosis, daunomycin nephrosis, and N,N1-Diacetylbenzedine glomerulopathy, nephrotoxic serum nephritis, and protamine perfusion glomerulopathy. Reviewed are acute tubular necrosis caused either by angiotensin, hypotension, norepinephrine, glycerol, mercury, and unilateral renal artery occlusion, also potassium depletion nephropathy, alloxan diabetes and diphenylamine-induced polycystic disease.
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PMID:SEM of human and experimental renal disease. 52 33

Rats were injected intraperitoneally with HgCl2 at doses of 2.5, 5, 7.5, and 10 mumol of Hg/kg. Urine was collected over a 24-hr period. At this time, plasma samples were taken and kidney damage was assessed by histological examination. Urinary gamma-glutamyltransferase levels were significantly elevated at Hg2+ doses of 7.5 and 10 mumol/kg, consistent with the detection of acute tubular necrosis by light microscopy. Resonances for a large number of low molecular weight metabolites were assigned in high resolution 1H NMR spectra of rat urine. Spectra from small volumes of urine (about 0.5 ml) were obtained in less than 5 min with no pretreatment. Significant Hg2+ dose-related decreases in the excretion of creatinine and citrate and increases of glucose, glycine, alanine, alpha-ketoglutarate, succinate, and acetate were detected. Elevated levels of lactate and creatinine in plasma of rats receiving the two highest doses were found by 1H NMR. There was a good correspondence between the histopathology, enzyme excretion, and 1H NMR urinary metabolite fingerprints in the assessment of Hg2+-induced renal damage. 1H NMR provided a sensitive measure of mercury-induced nephrotoxic lesions, and information on the molecular basis of mercury cytotoxicity was derived from the abnormal patterns of metabolite excretion. These suggested that primary metabolic effects of mercury were upon mitochondrial metabolism, in particular inhibition of certain citric acid cycle enzymes leading to decreased utilization of alpha-ketoglutarate and succinate by the renal tubular cells. The decrease in urinary citrate associated with Hg2+ dosing was attributed to intracellular, tubular acidosis with concomitant enhanced citrate reabsorption. The acidosis was assumed to arise from a combination of the inhibition of tubular carbonic anhydrase and a mild metabolic lactic acidosis due to increased activity of anaerobic pathways in the kidney. The possible extension of the 1H NMR techniques to the investigation of the nephrotoxic potential of other compounds and drugs is discussed.
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PMID:Proton NMR spectra of urine as indicators of renal damage. Mercury-induced nephrotoxicity in rats. 286 May 59

The nephrotoxicity associated with mercury may be manifested as either acute tubular necrosis or an immune complex glomerulonephritis, depending upon the conditions under which the patient is exposed to the metal. Two patients with industrial exposure to mercury developed the nephrotic syndrome due to membranous glomerulonephritis. A multidisciplinary approach was used to define more precisely the pathogenetic mechanisms involved in the production of the glomerular lesion. Although glomeruli were normal by light microscopy, immunohistochemical studies demonstrated confluent finely granular epimembranous deposits of IgG and C3. This distribution was confirmed at the ultrastructural level with immunoelectron microscopy. High resolution elemental analysis of electron dense inclusions in tubular epithelial phagolysosomes demonstrated energy dispersion spectra characteristic of coexisting mercury and selenium. Eluates from the biopsy material were not immunoreactive against normal rat or human kidney. There was no immunoreactivity of epimembranous deposits with antibodies having renal tubular epithelial antigen or urinary uromucoid specificity. These observations suggest that a distinctive immunopathologic lesion is associated with mercury-associated membraneous glomerulonephritis, that the role of the metal itself may only be coincidental, and that the involved antigen remains unknown. Prednisone therapy had no documented persistent beneficial influence upon the level of proteinuria in one patient who has been lost to follow-up. In one patient not treated with steroid therapy, withdrawal of exposure to the metal resulted in disappearance of mercury from body fluids and clinical remission.
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PMID:Membranous glomerulonephritis associated with industrial mercury exposure. Study of pathogenetic mechanisms. 704 18

The experiments referred to in this article point to the fact that relatively low concentrations of Hg2+ (5-10 mM) produce damage to the internal mitochondrial membrane. This damage results in the formation of ionic channels that allow the spontaneous effusion of Ca+2 from the matrix. Together with this, the formation of channels produce the balance of the chemo-osmotic gradient, resulting in the overcoming of the transmembrane potential and the uncoupling of oxidative phosphorylation. The experiments carried out in vivo, point to the fact mercury produces acute tubular necrosis of kidney tissue. These toxic effects produced by Hg2+ in vitro with the addition of 15 microM of the inhibition of the angiotensin converting enzyme, captopril. In vivo experiments show that intraperitoneal infection of captopril (40 mg/kg) completely protects from mitochondrial dysfunction produced by mercurial intoxication.
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PMID:[Captopril protection from the nephrotoxic effects of mercury]. 765 76

The cellular distribution of 65 and 70 kD heat shock proteins (HSPs) was studied in the normal rat kidney and after acute tubular necrosis (ATN) induced by inorganic mercury (HgCl2). In the normal kidney the 65 kD HSP was found in the cytoplasm of podocytes and proximal convoluted tubules, whereas the 70 kD HSP was located in nuclei and cytoplasm of podocytes, cortical convoluted, and collecting tubules. The distribution of both HSPs along ATN changed as a function of time. In the early phase, before evidence of histological damage, both HSPs were found in the pielocaly ceal epithelium and medullary collecting tubules. During the necrotic phase, HSPs coexisted with sites of severe damage (i.e. cortical tubules). With immunoelectron microscopy damaged cells showed an abundance of 65 kD HSP-I in mitochondria, as well as in chromatin and nucleoli, while 70 kD HSP-I was overexpressed in the cytoplasm, mito chondria, lysosomes, cytoskeleton, chromatin, and nucleoli, and coincided with urinary excretion of HSPs. In the postregenerative phase, the distribution of HSPs was similar to that found in the normal kidney. HSPs of 65 and 70 kD were encountered constitutionally and their immunolabeling is correlated with the magnitude of cell injury.
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PMID:Histological and subcellular distribution of 65 and 70 kD heat shock proteins in experimental nephrotoxic injury. 887 Oct 90

To examine the mechanisms involved in the progression of mercury chloride (HgCl2)-induced acute tubular necrosis (ATN), we investigated the histopathological changes and the expression of inducible nitric oxide synthase (iNOS) mRNA and protein in renal cortices of rats at 20 hours after exposure to HgCl2. The expression of iNOS mRNA was significantly augmented in renal cortices of rats with HgCl2-induced acute renal failure (ARF). Likewise, the induction of iNOS protein was observed in damaged proximal tubule epithelial cells of rats with HgCl2-induced ARF. Pretreatment of rats with iNOS inhibitor aminoguanidine, however, suppressed the development of proximal tubule epithelial cell injury and prevented an increase in blood urea nitrogen and serum creatinine as well as resulting in a marked fall in iNOS mRNA and protein in rats with HgCl2-induced ARF. These observations indicate that the induction of iNOS may play a role in the progression of HgCl2-induced ATN through the exacerbation of proximal tubule epithelial cell damage.
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PMID:Inducible nitric oxide synthase expression in mercury chloride-induced acute tubular necrosis. 981 Jan 45

Mercury is a toxic heavy metal and occurs in organic and inorganic forms. Inorganic mercury includes elemental mercury and mercury salts. Mercury salts are usually white powder or crystals, and widely used in indigenous medicines and folk remedies in Asia. Inorganic mercury poisoning causes acute kidney injury (AKI) and gastrointestinal manifestations and can be life-threatening. We describe a case with unknown substance poisoning who developed AKI and disseminated intravascular coagulation (DIC). Renal biopsy showed acute tubular necrosis. Later, the consumed substance was proven to be mercuric chloride. His renal failure improved over time, and his creatinine normalized after 2 months.
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PMID:Acute kidney injury and disseminated intravascular coagulation due to mercuric chloride poisoning. 2719 36