Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.3.1 (alkaline phosphatase)
 47,916 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Zinc is a necessary micronutrient, usually abundant in human RPE. Our study was undertaken to determine the effects of short-term, zinc deficiency on human retinal pigment epithelium (RPE) using a culture model of fetal human RPE cells. Human fetal RPE cells were isolated and cultured in Coon's modified Ham's F-12 medium. For zinc depletion studies, cells were cultured for 1 week in Chelex-treated Dulbecco's modified Eagle's medium containing low (0.25 microM) or physiologic (11 microM) total zinc concentrations as determined by flame atomic absorption spectroscopy. Protein synthesis was determined by incorporation of 35S-cysteine/methionine and labeled proteins analysed by polyacrylamide gel electrophoresis. Several cell parameters and enzymes were significantly reduced below control when cultured in low zinc: zinc content (40%), proliferation (63%), protein/well (50%), catalase activity (68%), alkaline phosphatase activity (61%), alpha-mannosidase activity (68%), and metallothionein (82%). No statistically significant decline was seen in acid phosphatase activity, superoxide dismutase activity, glutathione peroxidase activity and dexamethasone induction of metallothionein. Zinc repletion (100 microM, 1 h) increased catalase and alpha-mannosidase activities from 32% and 33% of control to 75% and 73%, respectively. Cycloheximide did not inhibit this short-term zinc-induced repletion of catalase or alpha-mannosidase. Protein synthesis in low zinc medium was depressed, but not significantly, as shown by incorporation of radiolabeled 35S-cysteine/methionine into newly synthesized proteins. The effects of zinc deficiency in cultured human RPE are selective. Adequate intracellular zinc was required for maximal activity of some enzymes. The dependence of catalase activity on zinc was not predicted and may help explain the observed decline in catalase activity seen with age in RPE. Our model of zinc deficiency should prove useful in elucidating the complex effects of zinc deficiency and repletion in human RPE.
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PMID:Influence of zinc on selected cellular functions of cultured human retinal pigment epithelium. 854 55

Antimicrobial susceptibility of 50 local isolates of Helicobacter pylori from patients with acid peptic diseases was investigated to commonly used antibiotics. The maximum resistance was (66%) detected to metronidazole (MIC > 8 micrograms/ml). The frequency of resistance to ampicillin, erythromycin, ciprofloxacin was in the range of 20-28 per cent; least resistance was observed to tetracycline (10%). The gradient disc diffusion method was found to give reproducible results and also correlated with agar dilution method for minimum inhibitory concentration (MIC). Study of the enzymatic activity of H. pylori isolates showed that all isolates had urease, catalase, oxidase, esterase-lipase, and naphthol-AS-beta-1-phosphohydrolase enzymes and were consistently negative for ten other enzymes tested. Majority of the isolates expressed alkaline phosphatase (17/18), esterase (17/18) and acid phosphatase (14/18). The acid phosphatase had the maximum mean enzymatic activity. There was no difference in enzymatic activity between H. pylori isolates from ulcer and gastritis patients. H. pylori isolates could be typed into five biotypes. Type III was found to be more common (44.4%). This study supports the existence of the strain variations among H. pylori on the basis of the enzyme profiles.
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PMID:Antimicrobial susceptibility pattern & biotyping of Helicobacter pylori isolates from patients with peptic ulcer diseases. 855 18

A total of seven Bacteroides ureolyticus strains were isolated from the cervix and the clitoral fossa of mares with vaginal discharge. No other bacteria capable of causing metritis or vaginitis were isolated from the samples. The isolated strains resembled Taylorella equigenitalis. Both species are catalase, oxidase and alkaline phosphatase positive, but, in addition to these characteristics, B. ureolyticus strains produced urease and they could not tolerate 10% O2. They also failed to be agglutinated in a hyperimmune serum raised against T. equigenitalis; however, B. ureolyticus and T. equigenitalis were agglutinated in the slide agglutination test in a serum produced against one of the B. ureolyticus isolates. Further investigations are needed to clarify the pathologic role of B. ureolyticus in genital infections of mares and other animals.
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PMID:Isolation of Bacteroides ureolyticus from vaginal discharge of mares. 859 54

Terbium (Tb) is a rare earth metal that finds use in several emerging technologies. However, little is known about the biological effects of Tb. Thus, in this study the pulmonary toxicity of systemic Tb in mice was investigated. Mice were treated intravenously with a single dose of 20 or 200 mumol Tb/kg, as TbCly and killed at 3, 6, 12, 24, 48, or 72 h later. Administration of Tb at a dose of 200 mumol/kg increased pulmonary weight, lipid peroxidation, and protein content but decreased pulmonary glutathione content. Pulmonary gamma-glutamyl transpeptidase (gamma-GTP) activity was increased after Tb administration at a dose of 200 mumol/kg. Pulmonary alkaline phosphatase (ALP) activity was also increased after Tb administration at a dose of 200 mumol/kg. Investigation of the defense system against oxidative damage in the lung showed that superoxide dismutase (SOD), catalase (CAT), and glutathione peroxidase (GSH-Px) activities were all decreased after Tb administration at the higher dose. The concentrations of Tb, Ca, and P in lung was increased by the dose of 200 mumol/kg. These results suggest that pulmonary lipid peroxidation may be an early and sensitive consequence of Tb exposure and that SOD, CAT, and GSH-Px might be considered as potential modulators of Tb-induced lipid peroxidation. The mechanisms involved in Tb-induced pulmonary lipid peroxidation deserve further study.
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PMID:Pulmonary toxicity of systemic terbium chloride in mice. 863 60

Several neuroendocrine factors have been shown to influence the muscle phenotype. Various physiological reports have suggested the role of adrenergic nervous system for cardiac myosin heavy chain (MHC) expression. We have used cultured fetal rat heart myocytes to investigate the role of cAMP on the alpha- and beta-MHC gene expression. In low density cultures, addition of 1 mM 8 Br cAMP resulted in up regulation of alpha-MHC and down regulation of beta-MHC mRNA. This antithetic effect of cAMP depends on the basal expression of both expression of both MHC transcripts. In transient transfection analysis employing a series of alpha-MHC gene promoter/reporter constructs, we identified a 13 bp E-box M-CAT hybrid motif (EM element) which conferred a basal muscle specific and cAMP-inducible expression of the alpha-MHC gene. Data obtained from the mobility gel-shift analysis indicated that one of the factor(s) binding to the EM element is related to troponin T M-CAT binding factor (TEF-1). To test whether the protein binding to this sequence could be a substrate for cAMP-dependent phosphorylation, the cardiac nuclear proteins were preincubated in a kinase reaction buffer either with a catalytic subunit of PKA (CatPKA) or with cAMP, and binding activity of proteins to the EM element was evaluated by mobility gel shift assay. In a concentration dependent manner, a twofold increase in the intensity of the retarded band was observed. Furthermore, at 100 units of CatPKA, an additional band of faster mobility was observed which was not present either when phosphorylated nuclear extract was incubated with alkaline phosphatase or when ATP was absent in kinase reaction buffer. These results strongly suggest that factor(s) binding to the EM element is a substrate for cAMP dependent phosphorylation.
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PMID:Sympathetic control of cardiac myosin heavy chain gene expression. 873 37

A mouse embryo culture model was used to determine whether embryonic prostaglandin H synthase (PHS)-catalyzed bioactivation and resultant oxidative damage to embryonic protein and DNA may constitute a molecular mechanism mediating phenytoin and benzo[a]pyrene teratogenesis. Embryos were explanted from CD-1 mouse dams on gestational day 9.5 (vaginal plug = day 1) and incubated for either 4 h (biochemistry) or 24 h (embryotoxicity) at 37 degrees C in medium containing either phenytoin (20 micrograms/ml, 80 microM), benzo[a]pyrene (10 microM), or their respective vehicles. As previously observed with phenytoin (Mol. Pharmacol.48: 112-120, 1995), embryos incubated with benzo[a]pyrene showed decreases in anterior neuropore closure, turning, yolk sac diameter, and somite development (p < .05). Addition of the antioxidative enzyme superoxide dismutase (SOD) substantially enhanced embryonic SOD activity (p < .05) and completely inhibited benzo[a]pyrene embryotoxicity (p < .05). Substantial PHS was detected in day 9.5 embryos using SDS/PAGE, anti-PHS antibody, and alkaline phosphatase-conjugated donkey anti-goat IgG. Embryonic protein oxidation was detected by the reaction of 0.5 mM 2,4-dinitrophenylhydrazine with protein carbonyl groups. This method was first validated by using a known hydroxyl radical-generating system consisting of vanadyl sulfate and H2O2, with bovine serum albumin or embryonic protein as the target. Embryonic proteins were characterized by SDS/PAGE, anti-dinitrophenyl antisera, and peroxidase-labeled goat anti-donkey IgG. Using enhanced chemiluminescence, the number and content of oxidized protein bands detected between 25 and 200 kDa were substantially increased by both phenytoin and benzo[a]pyrene. Addition of the reducing agent dithiothreitol, or SOD or catalase, decreased protein oxidation in phenytoin-exposed embryos. Both phenytoin (Mol. Pharmacol.48: 112-120, 1995) and benzo[a]pyrene enhanced embryonic DNA oxidation, determined by the formation of 8-hydroxy-2'-deoxyguanosine, as measured by high-performance liquid chromatography (HPLC) (p < .05). Phenytoin also enhanced the oxidation of embryonic glutathione (GSH) to its GSSG disulfide, as measured by HPLC (p < .05). These results provide direct evidence that, in the absence of maternal or placental processes, embryonic PHS-catalyzed bioactivation and reactive oxygen species-mediated oxidation of embryonic protein, thiols, and DNA may constitute a molecular mechanism mediating phenytoin and benzo[a]pyrene teratogenesis.
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PMID:Evidence for embryonic prostaglandin H synthase-catalyzed bioactivation and reactive oxygen species-mediated oxidation of cellular macromolecules in phenytoin and benzo[a]pyrene teratogenesis. 901 24

Bone morphogenetic protein (BMP) is a family of cytokines that induce ectopic bone formation when implanted into muscular tissues. We reported that BMP-2 inhibits the terminal differentiation of C2C12 myoblasts and converts them into osteoblast lineage cells (Katagiri, T., Yamaguchi, A., Komaki, M., Abe, E., Takahashi, N., Ikeda, T., Rosen, V., Wozney, J. M., Fujisawa-Sehara, A., and Suda, T. (1994) J. Cell Biol. 127, 1755-1766). In the present study, we examined the molecular mechanism of the inhibitory effect of BMP-2 on terminal differentiation of myogenic cells. When either MyoD or myogenin cDNA was introduced into C3H10T1/2 (10T1/2) cells with a muscle-specific CAT reporter containing four copies of the right E-box of muscle creatine kinase (MCK) enhancer, the CAT activity was dose-dependently suppressed by BMP-2. Furthermore, BMP-2 inhibited the terminal differentiation of these subclonal 10T1/2 cells that stably expressed MyoD or myogenin into mature myotubes that expressed myosin heavy chain and troponin T. The differentiation of a subclone of the MyoD-transfected NIH3T3 cells into mature muscle cells was also inhibited by BMP-2. BMP-2 induced alkaline phosphatase activity in 10T1/2-derived, but not in NIH3T3-derived MyoD-transfected cells. These cells constitutively expressed exogenous MyoD and myogenin, which were localized exclusively in the nuclei irrespective of the presence and the absence of BMP-2. However, these cells failed to express the mRNAs of endogenous myogenic factors and MCK when cultured with BMP-2. In the electrophoresis mobility shift assay using nuclear extracts of the myogenic cells, MyoD and myogenin bound to the right E-box in the enhancer region of the MCK gene even in the presence of BMP-2. These results suggest that BMP-2 inhibits the terminal differentiation of myogenic cells by suppressing the transcriptional activity of the myogenic factors.
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PMID:Bone morphogenetic protein-2 inhibits terminal differentiation of myogenic cells by suppressing the transcriptional activity of MyoD and myogenin. 902 93

Incubation of primary cultures of rat hepatocytes with K2Cr2O7 plus the pineal hormone melatonin resulted in a marked decrease in cellular levels of DNA single-strand breaks caused by K2Cr2O7. Cellular treatment with melatonin also suppressed both dichromate-induced cytotoxicity, as evaluated by the leakage of lactate dehydrogenase, and lipid peroxidation, as monitored by malondialdehyde formation. In addition, treatment with melatonin attenuated the suppression of the levels of vitamins E and C as well as the inhibition of catalase activity attributed to K2Cr2O7. However, melatonin had no influence on cellular level of glutathione and the activity of glutathione reductase, glutathione peroxidase, superoxide dismutase, and alkaline phosphatase suppressed by dichromate. Under the same experimental conditions, cellular uptake and distribution of Cr were not affected by melatonin. Electron spin resonance (ESR) studies showed that melatonin did not affect the formation of Cr(V) complexes in the reaction of K2Cr2O7 with reduced glutathione; however, melatonin caused a 25% decrease in the levels of Cr(V)-related hydroxyl radicals in vitro. These results indicate that melatonin protects cells from Cr(VI)-induced DNA strand breaks, cytotoxicity, and lipid peroxidation, possibly through its ability to increase cellular levels of vitamins E and C as well as catalase activity and/or to directly scavenge toxic hydroxyl radicals in cells.
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PMID:Potent protective effect of melatonin on chromium(VI)-induced DNA single-strand breaks, cytotoxicity, and lipid peroxidation in primary cultures of rat hepatocytes. 919 22

Bone morphogenetic protein-2 (BMP-2) inhibits terminal differentiation of C2C12 myoblasts and converts them into osteoblast lineage cells (Katagiri, T., Yamaguchi, A., Komaki, M., Abe, E., Takahashi, N., Ikeda, T., Rosen, V., Wozney, J. M., Fujisawa-Sehara, A., and Suda T. (1994) J. Cell Biol. 127, 1755-1766). In the present study, we examined the possible involvement of Smad proteins, vertebrate homologues of Drosophila Mothers against decapentaplegic, in the BMP effects on the differentiation of C2C12 myoblasts. C2C12 cells expressed Smad1, Smad2, Smad4, and Smad5 mRNAs, and expression levels were not altered by treatment with BMP-2 or TGF-beta1. When Smads were transiently transfected into C2C12 cells, both Smad1 and Smad5 induced alkaline phosphatase (ALP) activity and decreased the activity of myogenin promoter/chloramphenicol acetyltransferase (myogenin-CAT) without BMP-2. When C-terminal-truncated Smad1 and Smad5 were transfected into constitutively active BMP receptor type IB (BMPR-IB)-expressing C2C12 cells, BMP signals were blocked, resulting in an increase in myogenin-CAT activity. On the other hand, Smad1 and Smad5 decreased myogenin-CAT activity but did not induce ALP activity in MyoD-transfected NIH3T3 fibroblasts. These results suggest that both Smad1 and Smad5 are involved in the intracellular BMP signals which inhibit myogenic differentiation and induce osteoblast differentiation in C2C12 cells, and that the conversion of the two differentiation pathways is regulated independently at a transcriptional level.
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PMID:Smad1 and smad5 act downstream of intracellular signalings of BMP-2 that inhibits myogenic differentiation and induces osteoblast differentiation in C2C12 myoblasts. 929 54

The protective mechanisms operating in the gastrointestinal (GI) tract to counteract the potential oxidizing effects of excess free iron, was tested in rats fed with excess iron. The activities of some antioxidant enzymes, the levels of GSH and the extent of lipid peroxidation at the site of iron absorption were measured. Based on the amount of thiobarbituric acid reactive substances (TBARS) produced, it could be deduced that the duodenal segment of GI tract is resistant to iron mediated lipid peroxidation. The duodenal function as judged from the activities of marker enzymes, namely, alkaline phosphatase and Lys-Ala-dipeptidyl aminopeptidase was normal. There was depletion of GSH possibly due to the increased activities of Cu, Zn SOD and catalase. However, the activity of Gpx was decreased in the Fe fed group. It was also observed that the ratios of SOD/Gpx and Cat/Gpx had significantly increased in the treated group whereas SOD/Cat remained constant suggesting that antioxidative enzymes play a key role in rendering the intestinal mucosal cells resistant to iron induced oxidative damage in rats.
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PMID:Protective effects of antioxidant enzymes and GSH in vivo on iron mediated lipid peroxidation in gastrointestinal tract of rat. 949 52


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