Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:1.1.1.27 (lactate dehydrogenase)
 29,211 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The relationship between bioenergetics and the glutamate system was analyzed in a neuronal model of retinal cells in culture, submitted to glucose deprivation and exposed to glutamate for 2 h, and compared with exposure to glutamate in the presence of glucose. Under glucose deprivation, a reduction (about 1.1-fold) in the energy charge of the cells occurred, probably as a result of a decrement (by about 75%) in the cellular redox efficacy, as determined by the 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyl tetrazolium bromide (MTT) test. In the absence of glucose, exposure of retinal cells to 10 microM glutamate potentiated the reduction in the energy charge (by about 1.2-fold) and induced a significant increase in the uptake of 45Ca2+ by the cells (1.3-fold), although no significant changes were observed in the presence of glucose. Under glucose deprivation, 100 microM glutamate caused an irreversible cell membrane damage, as shown by the significant increase in lactate dehydrogenase (LDH) leakage (about 1.8-fold). A significant increase in membrane depolarization, measured by the reduction of [3H]tetraphenylphosphonium+ ([3H]TPP+) uptake, was also observed after glutamate exposure in the absence of glucose. In the presence of glucose, high glutamate concentrations (10 mM) induced a major increase in Ca2+ entry into the cells and membrane depolarization, without affecting the energy charge or cell survival. In contrast, in the absence of glucose, 10 mM glutamate did not alter Ca2+ accumulation by the cells and a smaller decrease in membrane potential occurred, as compared to 100 microM glutamate exposure. Data shown in this study suggest that during a prolonged (2 h) and acute exposure to high glutamate (10 mM), under glucose deprivation conditions, the neuronal systems have "adaptive" mechanisms that allow the survival of cells. These findings may have implications in neuronal degeneration occurring during brain ischemia.
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PMID:Effect of glucose deprivation and acute glutamate exposure in cultured retinal cells. 974 74

Chloragocytes were isolated from the earthworm species Lumbricus terrestris. After mechanical dissociation and sedimentation through Percoll, a highly purified fraction of viable chloragocytes was obtained. The isolated chloragocytes accumulated the vital dye neutral red and reduced the tetrazolium dye MTT, thereby indicating cellular integrity. Time of flight flow cytometric analyses revealed a main population of large and highly granulated cells in the 30-33 microm size range. Hydrolase measurements showed that beta-D-N-acetyl-glucosaminidase and acid phosphatase exhibited the highest activities (146.6 and 24.9 mU/mg of protein, respectively), possibly indicating a major role for these 2 hydrolases in the physiological function of chloragocytes. In contrast, other acid hydrolases such as beta-D-galactosidase and beta-D-glucuronidase had specific activities of respectively 26 and 182 times lower than the glucosaminidase. The specific activity of the membrane-bound alkaline phosphatase was comparable to that of its acid counterpart (18.9 vs. 24.9 mU/mg of protein, respectively) and this level of activity may show an important trans-membrane activity in chloragocytes. The cytoplasmic and mitochondrial enzyme isocitrate dehydrogenase had a level of activity comparable to that of the exclusively cytoplasmic enzyme lactate dehydrogenase (6.6 vs. 8.1 mIU/mg of protein, respectively). When L. terrestris chloragocyte homogenates were separated on Percoll, results showed that hydrolases and dehydrogenases were mainly associated with the lighter materials that remained above the Percoll layer. Nonetheless, the detection of significant proportions (15-25%) of the total recovered activity of acid phosphatase and beta-galactosidase in the enriched chloragosome fraction supports the notion that some chloragosomes may be 'lysosome-like' organelles.
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PMID:Isolation, purification and partial characterization of chloragocytes from the earthworm species Lumbricus terrestris. 974 18

The lipid biomediator lysophosphatidic acid (LPA) elicits a unique response in hippocampal neurons, LPA induces neuronal apoptosis. This study explores the effects of LPA on cells with neuronal properties, nerve growth factor-differentiated PC6 cells, a clone of PC12 cells. LPA induced apoptosis in these cells as assessed by chromatin condensation, terminal dUTP nick end-labeling of DNA, protection against these nuclear alterations by a general caspase inhibitor and the lack of release of lactic dehydrogenase. LPA caused oxidative stress, namely a decreased reduction of MTT, 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide. This oxidative stress appears to be of functional significance, since cells were protected by pretreatment with the antioxidant propyl gallate and by stable transfection with cDNA encoding the antioxidant enzyme, manganese superoxide dismutase. Mitochondrial and nitric oxide participation in LPA-induced apoptosis are suggested by the protection afforded by pretreatment with either cyclosporin A, an inhibitor of mitochondrial permeability transition, or nitric oxide synthase inhibitors. The nitric oxide synthase inhibitor findings are novel, since to our knowledge, LPA has not heretofore been associated with an increase in nitric oxide. In addition, as observed for many neurotoxic agents, insulin-like growth factor I protected against LPA-induced apoptosis of PC6 cells.
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PMID:Lysophosphatidic acid and apoptosis of nerve growth factor-differentiated PC12 cells. 975 97

Quercetin (QC), a polyphenolic compound widely distributed in fruits and vegetables has recently gained interest due to its cisplatin (CP) sensitizing properties in cancer cells. It is currently unknown, whether quercetin also increases the susceptibility of the kidneys to cisplatin toxicity. We studied the effects of various bioflavonoids on CP toxicity in an in vitro model of cultured tubular epithelial cells (LLC-PK1). Viability of LLC-PK1 cells, as assessed by lactate dehydrogenase (LDH) release and MTT-test, was affected by CP (100-400 microM) in a time and dose dependent fashion. Pretreatment of cells with QC for 3 h significantly reduced the extent of cell damage. The protective activity of QC was concentration dependent, starting at 10-25 microM and reaching a plateau between 50 and 100 microM. Other bioflavonoids (catechin, silibinin, rutin) did not diminish cellular injury, even at higher concentrations (100-500 microM). Quercetin itself showed some intrinsic cytotoxicity at concentrations exceeding 75 microM. Our data indicate that quercetin reduces cisplatin toxicity in cultured tubular epithelial cells. The exact mechanism of protection is unclear, though scavenging of free oxygen radicals may play an important role.
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PMID:Reduction of cisplatin toxicity in cultured renal tubular cells by the bioflavonoid quercetin. 976 70

The hepato-steatogenic compound ethionine has been used to investigate the correlations between in vivo and in vitro toxicity data. The aim was to find a suitable model of toxicity in hepatocyte suspensions or monolayers in vitro, which could predict the known toxicity of ethionine in vivo and which could be implemented in screening compounds of unknown toxicity. Thus a variety of markers of cytotoxicity, metabolic competence and liver-specific functions were investigated in rat hepatocyte suspensions and monolayers and compared with in vivo data in the rat. The following markers were measured in the appropriate system: (1) Neutral red uptake; 3-(4,5 dimethyl)thiazol-2-yl,-2,5-diphenyl tetrazolium bromide (MTT) reduction; lactate dehydrogenase (LDH), aspartate aminotransferase (AST) and alanine aminotransferase (ALT) leakage (cytotoxicity). (2) ATP levels, protein synthesis and glutathione (GSH) levels (metabolic competence). (3) Urea and triglyceride synthesis and beta-oxidation (liver specific functions). Ethionine (0-30 mM) did not affect the markers of direct cytotoxicity, except neutral red uptake, which was reduced by 18 and 30 mM ethionine after 20 h in culture. ATP and GSH depletion occurred in hepatocyte suspensions at the highest concentrations of ethionine (20 and 30 mM) after 1 h. In monolayers, GSH levels were reduced after 4 h, but not 20 h. Urea synthesis was increased in hepatocyte suspensions from 1 to 3 h by 10-30 mM ethionine and reduced after 20 h in cultured hepatocytes (18-30 mM). Protein synthesis was reduced and beta-oxidation was increased in ethionine-treated hepatocyte suspensions. Unfortunately, there was no measurable effect on triglyceride accumulation within cells (the major biochemical change in vivo) in either system. Ethionine treated hepatocytes in suspension showed the same rate of triglyceride synthesis and transportation out of cells as control cells. Thus, hepatocyte suspensions were able to mimic the early biochemical effects of ethionine in vivo (ATP and GSH depletion, inhibition of protein synthesis) and some effects on urea synthesis, but monolayer cultures appeared to be less sensitive to the toxicity of ethionine. However, neither in vitro system was able to model the effects of ethionine on the accumulation of triglycerides in vivo.
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PMID:Ethionine toxicity in vitro: the correlation of data from rat hepatocyte suspensions and monolayers with in vivo observations. 980 31

Non-enzymatic glycation of proteins with reducing sugars and subsequent transition metal catalysed oxidations leads to the formation of protein bound "advanced glycation endproducts" (AGEs). They accumulate on long-lived proteins and are for example structural components of the beta-amyloid plaques in Alzheimer's disease. Since the oxidation of glycated proteins as well as the interaction of AGEs with cell surface receptors produces superoxide radicals, it was tested in BHK 21 hamster fibroblast cells and SH-SY5Y human neuroblastoma cells if AGEs can exert cytotoxic effects on cells. Cell viability was assessed with three independent tests: MTT-assay (activity of the mitochondrial respiratory chain), lactate dehydrogenase assay (release of cytoplasmatic enzymes, membrane integrity) and Neutral Red assay (active uptake of a hydrophilic dye). Two model AGEs, chicken egg albumin-AGE and BSA-AGE, both caused significant cell death in a dose-dependent manner. The cytotoxic effects of AGEs could be attenuated by alpha-ketoglutarate and pyruvate, by antioxidants such as thioctic acid and N-acetylcysteine, and by aminoguanidine, an inhibitor of nitric oxide synthase. This suggests that reactive oxygen species as well as reactive nitrogen species contribute to AGE mediated cytotoxicity. Since AGEs accumulate on beta-amyloid plaques in AD over time, they may additionally contribute to oxidative stress, cell damage, functional loss and even neuronal cell death in the Alzheimer's disease brain.
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PMID:Cytotoxicity of advanced glycation endproducts is mediated by oxidative stress. 986 32

The protective effect of ebselen (2-phenyl-1,2-benzisoselenazol-3(2H)-one), a selenoorganic compound, against hydrogen peroxide (H2O2)-induced cytotoxicity and DNA damage was investigated in a human hepatoma cell line, HepG2. The inhibitory effect of H2O2 on cell growth was determined using the tetrazolium dye colorimetric test (MTT test), and the cytotoxicity and lipid peroxidation were estimated by lactate dehydrogenase (LDH) leakage and malondialdehyde (MDA) formation, respectively. DNA damage was detected using single cell gel electrophoresis (comet assay), and intracellular reactive oxygen species (ROS) formation was measured using a fluorescent probe 2',7'-dichlorofluorescein diacetate (DCFH-DA). The results showed that H2O2 suppressed the growth of HepG2 cells and the addition of ebselen significantly reduced the suppression. Furthermore, ebselen also displayed a dose-dependent reduction of LDH leakage and MDA formation in H2O2-treated cells. The results also demonstrate that ebselen was able to reduce the ROS formation and DNA damaging effect caused by H2O2 in a dose-dependent manner. These findings suggest that ebselen has a strong protective ability against the cytotoxicity and DNA damaging effect caused by reactive oxygen species.
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PMID:Protective effect of ebselen against hydrogen peroxide-induced cytotoxicity and DNA damage in HepG2 cells. 989 May 54

Infection with verocytotoxin-producing Escherichia coli causes haemolytic uraemic syndrome (HUS). Verocytotoxin-1 (VT1) is cytopathic to renal microvascular endothelial cells in culture, supporting the hypothesis that the vasculopathy of HUS is caused directly by the toxic action of VT1 on cells. We provide evidence that VT1 inhibits protein synthesis in primary cultures of glomerular epithelial cells (GE), cortical tubular epithelial cells (CTE) and mesangial cells (MC). Using 100 pg/ml of VT1 we saw a decrease in protein synthesis to 14.3+/-1.9% in vero cells (a primate cell line), 1.7+/-0.3% in GE, 0.9+/-0.4% in CTE and 74.8+/-1.3% in MC at 24 h. The human renal epithelial cells are at least as sensitive as vero cells to the protein synthesis inhibitory effects of VT1 if not more so. Cell viability decreased in all cultures as measured by MTT reduction, neutral red incorporation and lactate dehydrogenase release and followed the same pattern of susceptibility as for protein synthesis inhibition. However, unlike vero cells, death occurred without DNA fragmentation. Cell sensitivity was greatest in cells which bound more VT1.
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PMID:A comparison of the effects of verocytotoxin-1 on primary human renal cell cultures. 1009 56

Cadmium (Cd), an important pollutant, causes severe damage at the renal tubular level. Numerous previous studies have focused upon Cd tubular nephrotoxicity. The present study of Cd-induced glomerular damage examined the vasoactive effect of Cd in freshly isolated glomeruli and mesangial cells. Glomeruli were isolated by passing rat renal cortex pulp through calibrated sieves followed by culture for outgrowth of cells. Quantitative evaluation of glomerular and cellular contractions was performed by morphometric measurement of the area with an automatized image analyzer following different incubation times with Hanks' balanced salt solution or Cd2+. Each glomerulus or mesangial cell served as its own control. Cd lethality was measured with microassay methods (neutral red, MTT uptake, and lactate dehydrogenase release), allowing the determination of an IC50. This ranged from 35 to 60 microM. CdCl2 induced a time-dependent contractile effect on isolated glomeruli; planar surface area decreases were 6.9% (1 microM), 7.5% (0.1 microM), and 7% (0.01 microM). The decrease started as soon as Cd was in contact with glomeruli and ended 40 min later: T5 (2%), T10 (3.5%), T20 (4. 2%), T30 (6.3%), T40 (7%). Cell size reduction was 19% (1 microM), 14% (0.1 microM), and 18% (0.01 microM) and was also time-dependent. To confirm that contractile events occurred during the cell shape changes, examination of the mesangial alpha-actin network was performed concurrently. These results indicate that Cd contracts glomerular structures. This may, in part, explain the reduction in glomerular filtration seen in Cd nephrotoxicity.
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PMID:Cadmium nephrotoxicity assessed in isolated rat glomeruli and cultured mesangial cells: evidence for contraction of glomerular cells. 1035 66

Human skin equivalent cultures were investigated as possible pre-clinical skin irritation screens to aid safety assessments for chemicals and product formulations, and to facilitate design of safe and efficient human studies. In vitro responses in human skin equivalent cultures were compared directly to in vivo human skin responses from historic or concurrent skin tests for representative chemicals and products, including surfactants, cosmetics, antiperspirants, and deodorants. The in vivo data consisted of visual scores (i.e., erythema and edema) from skin-patch tests and diary accounts of skin irritation from product-use studies. In the in vitro studies, cornified, air-interfaced human skin cultures (EpiDerm) were evaluated using methods designed to parallel human clinical protocols with topical dosing of neat or diluted test substances to the stratum corneum surface of the skin cultures. The in vitro endpoints have previously been shown to be relevant to human skin irritation in vivo, including the MTT metabolism assay of cell viability, enzyme release (lactate dehydrogenase and aspartate aminotransferase), and inflammatory cytokine expression (Interleukin-1alpha). For surfactants, dose-response curves of MTT cell-viability data clearly distinguished strongly-irritating from milder surfactants and rank-ordered irritancy potential in a manner similar to repeat-application (3x), patch-test results. For the antiperspirant and deodorant products, all the in vitro endpoints correlated well with consumer-reported irritation (r, 0.75-0.94), with Interleukin-1alpha (IL-1alpha) release, showing the greatest capacity to distinguish irritancy over a broad range. IL-1alpha release also showed the best prediction of human skin scores from 14-day cumulative irritancy tests of cosmetic products. These results confirm the potential value of cornified human skin cultures as in vitro pre-clinical screens for prediction of human skin irritation responses. A preliminary report of these results has been published.
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PMID:Comparison of in vitro and in vivo human skin responses to consumer products and ingredients with a range of irritancy potential. 1035 13


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