Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

A rapid and precise screening assay was developed for in vitro evaluation of anti-orthomyxo- and anti-paramyxovirus agents. The procedure is spectrophotometrical assessment for viability of cells via extracellular leakage of lactic dehydrogenase (LDH). HMV-II cells, a human melanoma cell line was found to be suitable for the titration of virus infectivity and screening of anti-viral agents for orthomyxo- and paramyxoviruses. Comparative titration of infectivity of stock viruses by the LDH and the MTT in site reduction of 3-(4, 5-dimethylthiazol-2-yl)-2, 5-diphenyltetrazolium bromide (MTT) methods with HMV-II cells as well as plaque titration with MDCK, Vero and HeLa cells was carried out. The LDH method was comparable or more sensitive for influenza viruses (FLUV)-A, B, C, parainfluenza viruses (PFLUV)-1, 2 and less sensitive for PFLUV-3, mumps virus (MPSV), measles viruses (MLSV) and respiratory syncytial virus (RSV) than the plaque titration. The 50% effective concentration (EC50) of 1-beta-D-ribofuranosyl-1, 2, 4-triazol-3-carboxamide (ribavirin) and 5-ethynyl-1-beta-D-ribofuranosyl-imidazole-4-carboxamide (EICAR) against orthomyxo- and paramyxoviruses were examined comparatively by the LDH, MTT and plaque reduction (PR) methods. The EC50 values of FLUV-C and PFLUV-1 were able to be evaluated only by the LDH but not by the MTT and PR methods. The LDH method with HMV-II cells simplifies the assay procedure and permits the evaluation of a large number of compounds for anti-orthomyxo- and anti-paramyxoviruses activity in vitro.
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PMID:A colorimetric LDH assay for the titration of infectivity and the evaluation of anti-viral activity against ortho- and paramyxoviruses. 892 91

The protective effect of N-(2-mercaptopropionyl)-glycine (tiopronin), a clinically used sulfhydryl-containing compound, on cisplatin-induced toxicity to rat renal cortical slices was investigated. Exposure of the slices to cisplatin (2 mM) resulted in toxicity, as shown by an increase in leakage of the two enzymes aspartate aminotransferase and lactate dehydrogenase into the incubation medium and a time-dependent decrease in the reduction of 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide (MTT) by the slices. Tiopronin (2 mM) completely prevented the cisplatin-induced increase in enzyme leakage and substantially blocked the decrease of MTT reduction caused by cisplatin. These protective effects were concentration-dependent and furthermore, the depletion of ATP, glutathione and induction of lipid peroxidation in the slices by cisplatin (2 mM) were reversed by 2 mM tiopronin. Pretreatment of slices with tiopronin for 60 min also significantly protected the renal slices from cisplatin-induced toxic effects. These protective effects, however, were abolished by p-aminohippuric acid, a compound with some structural similarity to tiopronin, which both undergoes and inhibits active transport in the cells of the proximal convoluted tubule. Cisplatin (1 mM) also depleted the free sulfhydryls of tiopronin (1 mM) in a second incubation medium system and PAH (2 mM) diminished the extent of this depletion somewhat. These observations suggest that tiopronin protects against cisplatin-induced nephrotoxicity by acting as an alternative target for cisplatin both intra- and extracellularly and thus protects against cisplatin-induced depletion of glutathione in the kidney cell.
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PMID:Tiopronin protects against the nephrotoxicity of cisplatin in rat renal cortical slices in vitro. 897 67

We compared the cytotoxic effect of coumarin and its derivatives, 7-hydroxycoumarin (7-OHC), 4-hydroxycoumarin (4-OHC), o-hydroxyphenyl acetic acid (OHPAA) and o-coumaric acid (CA), on cultured hepatocytes from human, rat, mouse and rabbit liver. At 10(-5) and 5 x 10(-5) M, coumarin and its derivatives did not give rise to any signs of toxicity on cultured hepatocytes of the four species. At 10(-4) M, coumarin, but not its derivatives, induced release of lactate dehydrogenase (LDH) into the medium, especially in rat hepatocyte cultures. Intracellular LDH activities were correspondingly reduced. The cytotoxic effect of coumarin in cultured rat hepatocytes was evidenced on morphological examination and from the results of the 3-(4,5-dimethylthiazol-2-yl)-2,5- diphenyltetrazolium (MTT) reduction test. At higher concentrations (5 x 10(-4) M), 7-OHC and CA were also found to be cytotoxic in cultured rat hepatocytes. The cytotoxic effect of coumarin (5 x 10(-4) M) was decreased in the presence of SKF 525-A, a cytochrome P450 inhibitor. Interspecies comparisons showed that rat hepatocytes were the most sensitive to the toxicity of coumarin and its derivatives, whereas human hepatocytes were the most resistant. Our results suggest that the cytotoxicity of coumarin is metabolism and species-dependent. Thus, the rat may not be a suitable model for evaluating the pharmacological hazards of coumarin in humans.
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PMID:Metabolism and toxicity of coumarin on cultured human, rat, mouse and rabbit hepatocytes. 898 19

The benzophenanthridine alkaloids sanguinarine and chelerythrine of Chelidonium majus, L. (Papaveraceae), were tested for their action against the growth of human keratinocytes. Cell proliferation was independently determined by directly counting the cells and in the colorimetric MTT assay. Sanguinarine potently inhibited cell growth with an IC50 of 0.2 microM. Chelidonine, the main alkaloid of Ch. majus, was much less efficient. The extract of the herb of Ch. majus was also effective with an IC50 of 1.9 microM, calculated on the basis of its alkaloid content in terms of chelidonine. Keratinocytes were further tested for their susceptibility for the action of sanguinarine and chelerythrine on plasma membrane integrity, which resulted in a twofold increase in lactate dehydrogenase (LDH) activity as compared to controls. On the other hand, the activity of the extract of the herb of Ch. majus was due to cytostatic rather than cytotoxic effects, as LDH release was unchanged as compared to controls.
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PMID:Benzophenanthridine alkaloids of Chelidonium majus; II. Potent inhibitory action against the growth of human keratinocytes. 900 Aug 79

Clostridium acetobutylicum P262 cells that were growing on lactate and acetate had an NAD-independent lactate dehydrogenase(iLDH) activity of 200 nmol mg protein-1 min-1. Ammonium sulfate precipitation and DEAE cellulose caused a 35-fold purification. Gel filtration indicated that the iLDH had a molecular weight of approximately 55 kDa, but two bands were always observed. Phenyl sepharose could not separate the two proteins, and hydroxyapatite caused a complete loss of activity. The semi-purified iLDH had a Vmax of 13,000 nmol mg protein-1 min-1 and a Km value of 3.5 mM for D-lactate. The Vmax and Km values for L-lactate were 300 nmol mg protein-1 min-1 and 0.7 mM. The iLDH had a pH optimum of 7.5, was not activated by fructose-1,6-bisphosphate (FDP), and could be coupled to either 3-(4,5-dimethylthiazol-2-yl)-2, 5-diphenyltetrazolium bromide (MTT) or dichlorophenol-indophenol (DCPIP), but not methyl viologen (MV) or benzyl viologen (BV). The iLDH did not have strong absorbance between 500 and 300 nm, and trichloroacetic acid or acid ammonium sulfate extracts had virtually no fluorescence at 450 nm. The crude extracts also had MTT-linked butyryl-CoA dehydrogenase activity (60 nmol mg protein-1 min-1). The NAD-independent butyryl-CoA dehydrogenase eluted from DEAE-cellulose as two fractions. The yellow fraction was extremely unstable, but the green fraction could be stored for short periods of time at 5 degrees C. The green-colored butyryl-CoA dehydrogenase had strong absorption at 450 nm, and gel filtration indicated that it had a molecular weight of 90 kDa. The NAD-independent butyryl-CoA dehydrogenase could be coupled to MTT, DCPIP, or MV, but not BV. Because the NAD-independent lactate and butyryl-CoA dehydrogenase could both be linked to low potential carriers, these two enzymes may function as oxidation-reduction system in vivo.
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PMID:NAD-independent lactate and butyryl-CoA dehydrogenases of Clostridium acetobutylicum P262. 900 69

The consumption of plants containing the diterpenoid atractyloside (ATR) causes selective proximal tubule injury, renal failure and death in humans. We have compared the effects of ATR in freshly isolated renal proximal tubules and glomeruli from rat and also in cell lines: NRK, derived from the proximal tubules, and MDBK and MDCK more closely representing the distal nephron. The effects of ATR (10-500 microM) on proximal tubules and glomeruli were assessed by changes in lipid peroxidation, de novo protein synthesis and the leakage of alkaline phosphatase (ALP), lactate dehydrogenase (LDH), glutamate dehydrogenase (GDH) and N-acetyl-beta-D-glucosaminidase (NAG). The susceptibility of NRK, MDBK and MDCK cell lines to ATR was assessed by the 3-(4,5-dimethylthiazole-2-yl)-2,5-diphenyl tetrazolium bromide (MTT) assay, measuring mitochondrial reduction. Enzyme leakage was the most sensitive of the markers of cell injury in fresh fragments and ranked LDH > GDH > ALP > NAG in proximal tubules. As little as 20 microM ATR caused significant enzyme leakage from proximal tubules, but there were no increases in enzyme leakage from glomeruli at concentrations < and = 500 microM ATR. De novo protein synthesis was only inhibited 50% at ATR concentration > 5 mM in the proximal tubules, but there were no effects in glomeruli. Malondialdehyde production was significantly elevated at 1 mM ATR for proximal tubules, and 500 microM for glomeruli. NRK cells were sensitive to ATR (IC50, 120 microM), but MDBK or MDCK cells were unaffected by < and = 1 mM of this diterpenoid. Both freshly isolated fragments and continuous cell lines representing the proximal tubules are more sensitive to ATR than either glomeruli or cells representing the distal nephron. These data also show that protein synthesis is a less specific and sensitive measure of ATR cytotoxicity than enzyme leakage in fragments. MTT reduction to formazan was the most sensitive in the NRK cell line. The low levels of lipid peroxidation products in proximal tubular fragments or sensitive renal cell lines at toxic levels of ATR suggest that oxidative injury is not a key mechanism.
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PMID:Selective cytotoxicity associated with in vitro exposure of fresh rat renal fragments and continuous cell lines to atractyloside. 901 May 90

Ketoconazole (KT) is an azole antifungal agent that has been associated with hepatotoxicity. The mechanism of its hepatotoxicity has not yet been resolved. It has been suggested that a reactive metabolite may be the cause of toxicity because the hepatic injury does not appear to be mediated through an immunoallergic mechanism. Several metabolites of KT have been reported in the literature of which the deacetylated metabolite, N-deacetyl ketoconazole (DAK), is the major metabolite which undergoes further metabolism by the flavin-containing monooxygenases (FMO) to form a potentially toxic dialdehyde. The objective of this study was to evaluate DAK's cytotoxicity and the role of FMO in a primary culture system of rat hepatocytes. Cytotoxicity was evaluated by measuring the leakage of the cytosolic enzyme, lactate dehydrogenase (LDH), into the medium and by assessing mitochondrial reduction of 3-(4,5-dimethythiazol-2yl)-2,5-diphenyl tetrazolium bromide (MTT). The cultures were exposed to various concentrations of DAK (20-160 microM) for 0.5-4 h. There was a significant increase (P < 0.05) in LDH leakage and an immediate decrease in MTT reduction (P < 0.05) as early as 0.5 h. The MTT reduction assay appeared to be more sensitive than the LDH assay in that lower concentrations were needed to observe a 50% reduction of MTT (107, 90, 75, 58 microM DAK at 0.5, 1.0, 2.0 and 4.0 h, respectively). The concentrations to observe 50% LDH leakage from the hepatocytes were 155, 133, 100, 70 microM DAK at 0.5, 1.0, 2.0 and 4.0 h, respectively. Moreover, co-treatment with methimazole, a competitive substrate for FMO, produced a significant decrease (P < 0.05) in % LDH leakage as early as 0.5 h, when compared to cells treated solely with DAK. Also, the toxicity was significantly (P < 0.05) enhanced as early as 0.5 h by n-octylamine, a known positive effector for FMO. These results demonstrate that DAK is a more potent cytotoxicant than its parent compound, KT, as reported previously by our laboratory (Rodriguez and Acosta, Toxicology, 96: 83-92, 1995) and its toxicity was expressed in a dose- and time-dependent manner. Furthermore, DAK's cytotoxicity was enhanced with n-octylamine and suppressed with methimazole, suggesting a role for FMO in the toxicity of the metabolite.
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PMID:N-deacetyl ketoconazole-induced hepatotoxicity in a primary culture system of rat hepatocytes. 905 91

We have examined the use of the LDH (lactate dehydrogenase) assay for chemosensitivity testing in established and primary cultures of sarcoma, leukaemia and ovarian cancer in parallel with the MTT assay. The method we describe is rapid, sensitive and ideal for 96-well plate assays using adherent or suspension cultures. Excellent agreement between the two methods was observed (r = 0.936) using a variety of antitumour agents, with some notable exceptions. In the Bax (human synovial sarcoma) cell line MTT colour production by control cells was very low, thus MTT-->formazan production could not be relied upon as a definitive end point equating with cell number. In contrast, colour production of control cells using the LDH assay was significantly greater and all cultures tested were suitable for titration of chemosensitivity. There was a discrepancy between IC50 values obtained either by cell counting or MTT in the HTB88 (human leiomyosarcoma) line treated with 5-FU (59.9 microM vs > 200 microM, respectively). However, cell counting agreed well with the LDH assay (IC50 47.3 microM). Whilst the MTT assay remains a reliable method for chemosensitivity testing, the LDH assay may prove more appropriate in certain experimental settings.
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PMID:Chemosensitivity testing of fresh and continuous tumor cell cultures using lactate dehydrogenase. 906 57

The effects of acute ethanol and acetaldehyde treatment on cell proliferation, cell adhesion capacity, neutral red incorporation into lysosomes, glutathione content, protein sulfhydryl compounds, lipid peroxidation, inner mitochondrial membrane integrity (MTT test), lactate dehydrogenase activity (LDH) and ultrastructural alterations were investigated in a human fetal hepatic cell line (WRL-68 cells). WRL-68 cells were used, due to the fact that, although this cell line expresses some hepatic characteristics, it does not express alcohol dehydrogenase or cytochrome P450 activity, so it could be a good model to study the effect of the toxic agents per se. Cells were exposed during 120 min with 200 mM ethanol or 10 mM acetaldehyde. Under these conditions, cells presented 100% viability and no morphological alteration was observed by light microscopy. Acetaldehyde-treated cells reduced their proliferative capacity drastically while the ethanol-treated ones presented no difference with control cells. Cell adhesion to substrate, measured as time required to adhere to the substrate and time required to detach from the substrate, was diminished in acetaldehyde WRL-68-treated cells. Cytotoxicity measures as neutral red and MTT test showed that acetaldehyde-treated cells presented more damage than ethanol-treated ones. Cellular respiratory capacity was compromised by acetaldehyde treatment due to 40% less oxygen consumption than control cells. Lipid peroxidation values, measured as malondialdehyde production, were higher in ethanol-treated WRL-68 cells (127%) than in acetaldehyde-treated ones (60%) to control cell values. Lactate dehydrogenase activity (LDH) in extracellular media of ethanol-treated cells presented the highest values. GSH content was reduced 95% and thiol protein content was diminished severely in acetaldehyde-treated cells. Transmission electron microscopy showed more ultrastructural alterations in cells treated with acetaldehyde. The results indicate that acetaldehyde, like ethanol, produced damage at cellular level, although more damage could be observed in acetaldehyde WRL-68-treated cells.
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PMID:Comparative study of the damage produced by acute ethanol and acetaldehyde treatment in a human fetal hepatic cell line. 918

Acetaminophen (N-acetyl-p-aminophenol [APAP]) hepatotoxicity is a process characterized by Ca2+ deregulation. Cellular functions utilizing Ca2+ as a second messenger molecule affect both cytosolic and nuclear signal transduction. Many studies have independently shown Ca2+-related effects on target molecules in response to toxic doses of APAP; however, the primary Ca2+ target resulting in liver necrosis has not been determined. We hypothesize that Ca2+-dependent DNA damage is a critical event in liver necrosis caused by alkylating hepatotoxins. In this study, Ca2+-dependent endonuclease activity was determined from DNA single-strand lesions measured by fluorometric analysis of DNA unwinding. The status of cytosolic Ca2+ was determined by measuring Ca2+-dependent activation of glycogen phosphorylase a. Primary cultures of mouse hepatocytes exposed to a toxic concentration of APAP showed twofold and greater increases in glycogen phosphorylase a stimulation at 6 hours, which was reversible with Ca2+-chelating agents. Cell death was preceded by a large decline in intact, double-stranded DNA. Following toxic administration of APAP, the percentage of total double-stranded DNA was significantly reduced by 2 hours. At 6 and 24 hours, genomic integrity was compromised by 26% and 37%, respectively, compared with untreated controls. Hepatotoxic effects of APAP-mediated Ca2+ deregulation were confirmed in both primary mouse hepatocytes and the human hepatoblastoma HepG2 cell line by lactate dehydrogenase (LDH) release and tetrazolium reduction using the 3-4,5-dimethylthiazole-2-yl-2,5-diphenyltetrazolium bromide thiazol blue(MTT) assay. The Ca2+ chelator, ethylene glycol-bis (beta-aminoethyl ether) N',N',N', N'-tetraacetic acid (EGTA), blocked APAP-induced phosphorylase a activation and necrotic cell death, but failed to inhibit phosphorylase a activation by the adenosine 3',5'-cyclic monophosphate (cAMP) analogue, dibutyryl cAMP, indicating little or no contribution of the cAMP pathway to phosphorylase a stimulation during APAP-induced necrotic death. Results with these in vitro models of liver injury are interpreted as supporting the hypothesis that increased Ca2+ availability plays a major role in the progression of APAP-dependent cellular necrosis, and that the nucleus is a critical target for APAP hepatotoxicity.
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PMID:Calcium-dependent DNA damage and adenosine 3',5'-cyclic monophosphate-independent glycogen phosphorylase activation in an in vitro model of acetaminophen-induced liver injury. 918 64


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