EC:3.1.3.1 - FACTA Search

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)

Three nickel compounds were tested for pancreatic, hepatic and osteogenic damage in rats by a single i.m. injection Ni++ (7 mg kg-1). The nickel induced biochemical alterations included significantly increased levels of serum alkaline phosphatase in rats with NiS (75%) and NiO (50%). Amylase and aspartate transaminase were also increased, and lipoperoxide was increased in rats with NiO (5.6-fold) and NiS (3.4-fold). No serum changes were observed with NiCl2. Daily injection of Cu-Zn superoxide dismutase (SOD) conjugated with polyethylene glycol prevented the serum level changes, indicating that superoxide radical is an important intermediate in toxicity of nickel insoluble compounds.
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PMID:Superoxide radical and toxicity of environmental nickel exposure. 777 54

The gene hoxN of Alcaligenes eutrophus encodes a membrane protein with a molecular mass of 33.1 kDa that mediates energy-dependent uptake of nickel ions. Based on the hydrophobicity of the HoxN protein five, six, or seven transmembrane segments were predicted, depending on the algorithm used for computer analysis. To distinguish between these possibilities varying segments of the amino-terminal end of the transporter were fused to the Escherichia coli enzymes alkaline phosphatase (PhoA) or beta-galactosidase (LacZ). The enzymatic activity of 16 HoxN-PhoA and 15 HoxN-LacZ fusions was determined. On the assumption that PhoA fusions only exhibit high activity when fused to periplasmic domains of the target, while LacZ fusions are only active when oriented towards the cytoplasm, a two-dimensional model for the nickel transporter was developed. This model proposes that HoxN contains four periplasmic and four cytoplasmic regions, and seven transmembrane helices. The amino terminus is located in the cytoplasm, and the carboxyl terminus faces the periplasm.
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PMID:A topological model for the high-affinity nickel transporter of Alcaligenes eutrophus. 793 94

Rats were exposed to nickel sulfate (NiSO4) either by intratracheal (IT) instillation or by acute aerosol inhalation, and pulmonary clearance of Ni and pulmonary inflammatory responses were studied. The half-time of Ni in the lung (initial lung burden = 50 micrograms Ni/rat) was about 32 h in both the IT instillation and inhalation groups. Ni retention in the lung tissue following IT instillation of NiSO4 was saturable with reference to dose, suggesting that clearance rate of Ni from the rat lung depends on lung burden of Ni. Lung inflammatory responses were evaluated by biochemical, elemental and cytological indicators in bronchoalveolar lavage fluid (BALF) following IT instillation of NiSO4. Activities of lactate dehydrogenase and beta-glucuronidase, contents of lysozyme, protein, sulfur and calcium, and the number of polymorphonuclear leukocytes were increased with a peak at 2-3 days post-instillation, while BALF alkaline phosphatase (ALP) activity was significantly decreased after IT instillation of NiSO4. Lung tissue ALP activity was also decreased by NiSO4. Because Ni does not inhibit ALP directly, the decrease in ALP activity is probably due to functional changes of type II cells (a major source of BALF ALP). Thiobarbituric acid reacting substances in the lung tissue were not changed by NiSO4, suggesting that lipid peroxidation plays a minimal, if any role, in the Ni-induced inflammation in the rat lung.
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PMID:Pulmonary clearance and inflammatory potency of intratracheally instilled or acutely inhaled nickel sulfate in rats. 799 20

Repeated inhalation of nickel subsulfide (Ni3S2) by F344/N rats for 3 months results in chronic active inflammation in the lung and atrophy of the olfactory epithelium. The primary purpose of this study was to determine early responses of the respiratory tract to inhaled Ni3S2 in rats and to track the course of development of such lesions in rats exposed for up to 22 days. A secondary purpose was to obtain an improved estimate of the half-time for clearance of Ni from Ni3S2-exposed lungs. Groups of F344/N rats were exposed to 0, 0.6 or 2.5 mg Ni3S2/m3, 6 h/day for 1-22 days. Histopathological changes in nose and lung, as well as biochemical and cytological changes in lung, as measured in bronchoalveolar lavage fluid (BALF) and lung tissue, alveolar macrophage (AM) viability and Ni concentration in lung were evaluated. Inflammatory lung lesions in rats exposed to 2.5 mg Ni3S2/m3 peaked in intensity after 4 days of exposure. Minimal degeneration of the olfactory epithelium was noted in the 2.5 mg Ni3S2/m3-exposed rats after day 4 of exposure, with atrophy of the olfactory epithelium occurring in rats killed at 22 days. Lactate dehydrogenase, beta-glucuronidase and total protein in BALF were significantly elevated within 7 days of exposure while alkaline phosphatase activity was significantly depressed. AM viability was significantly reduced after 2 days of exposure. Concentrations of Ni in lung increased rapidly during the first 7 days of exposure, but more slowly thereafter. Lung burden data from this and a previous study suggest a clearance half-time for Ni of 3.5-8 days. Results indicate that Ni3S2 is relatively soluble in lung and inhalation of concentrations near the current Threshold Limit Value of 1 mg Ni/m3 can produce detrimental changes in the respiratory tract of rats after only a few days of exposure.
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PMID:Pulmonary toxicity of nickel subsulfide in F344/N rats exposed for 1-22 days. 852 92

The effect of essential trace metals on bone metabolism was investigated in the femoral-metaphyseal tissues obtained from skeletal-unloaded rats. Skeletal unloading was designed by using the model of hindlimb suspension in rats; the animals were fed for 4 days with the unloading. Femoral-metaphyseal tissues were cultured for 24 hours in a medium containing either vehicle (control), nickel, manganese, cobalt, copper, zinc, or zinc-chelating dipeptide (beta-alanyl-L-histidinato zinc; AHZ) in the concentration range of 10(-6) to 10(-4) M. Bone biochemical components (alkaline phosphatase activity, glucose consumption, and DNA content) were significantly decreased by skeletal unloading. The presence of zinc sulfate or AHZ (10(-5) and 10(-4) M) caused a significant increase of alkaline phosphatase activity in the bone tissues from unloaded rats. This effect was not seen by nickel, manganese, cobalt and copper (10(-6) to 10(-4) M). The culture medium glucose was clearly consumed by the bone tissues. This consumption was inhibited by nickel, manganese, or copper (10(-5) and 10(-4) M), while cobalt, zinc, and AHZ had no effect. DNA content in the bone tissues from unloaded rats was significantly increased by all metal compounds (10(-5) M). The effect of AHZ on bone components was greater than zinc sulfate. The AHZ (10(-5) M)-increased alkaline phosphatase activity in the bone tissues from unloaded rats was clearly blocked by the presence of cycloheximide (10(-6) M), staurosporine (10(-7) M), dibucaine (10(-4) M), or okadaic acid (10(-7) M). The present study demonstrates that, of various essential trace metals, zinc compounds have an unique anabolic effect on bone metabolism in the femoral-metaphyseal tissues of rats with skeletal unloading. Zinc-chelating dipeptide may stimulate bone protein synthesis through the mechanism that is involved in protein kinases.
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PMID:Effect of essential trace metal on bone metabolism in the femoral-metaphyseal tissues of rats with skeletal unloading: comparison with zinc-chelating dipeptide. 866 81

The toxicity of nickel, chromium (III) and (VI), vanadium and aluminium was compared in an immortalized neonatal rat osteoblast cell line using the MTT assay and a novel index of cytotoxicity, alkaline phosphatase (ALP) activity. Where toxicity was observed, ALP was a consistently more sensitive detection method than the MTT assay. The toxicity of the metals increased in the order aluminium < chromium (III) < vanadium < nickel < chromium (VI). alpha-Tocopherol partially prevented nickel-induced toxicity (as assessed by ALP activity), whereas ascorbic acid had no protective effect. Chromium (VI) was more toxic than (III), with significant toxicity observed at 0.5 microM. It is thought that Cr (III) cannot readily penetrate the cell membrane and this may account for the lower toxicity. Aluminium had a stimulatory effect on cell growth at low concentrations (0.5 microM). The combination of immortalized rat osteoblasts and the ALP activity test provides a powerful tool for in vitro testing of orthopaedic materials.
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PMID:Interactions of orthopaedic metals with an immortalized rat osteoblast cell line. 880 83

N-Benzyl-D-glucaminedithiocarbamate (BGD), diethyldithiocarbamate (DDTC), dihydroxyethyldithiocarbamate (DHED), trans-1,2-cyclohexanediamine N,N,N',N'-tetraacetic acid (CDTA) and meso-2,3-dimercaptosuccinic acid (DMSA) were studied for their protective effects against the pulmonary toxicity in mice induced by acute exposure to nickel. Nickel injection increased lipid peroxidation, lactate dehydrogenase (LDH) activity and the concentrations of protein, phospholipids (PL) and essential metals such as Ca, Fe and Zn and decreased the reduced glutathione (GSH) concentration and alkaline phosphatase (ALP) activity in the lungs. At 30 min after Ni treatment, DMSA, BGD and DDTC effectively depressed Ni concentration in the lungs. At 24 h after Ni treatment, DMSA and BGD were effective in mobilizing Ni from the lungs. Both DMSA and BGD significantly prevented increases in lipid peroxidation and in the concentrations of PL, Ca, Fe and Zn, and decreases in GSH concentration and ALP activity in the lungs of mice caused by Ni injection. Treatment with DMSA or BGD was more effective than that with other chelating agents in decreasing the pulmonary Ni concentration and preventing other changes caused by acute exposure to Ni, resulting in effective protection against Ni-induced pulmonary damage.
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PMID:Comparative effects of chelating agents on pulmonary toxicity of systemic nickel in mice. 885 18

Amino acid exchanges in the Alcaligenes eutrophus nickel permease (HoxN) were constructed by site-directed mutagenesis, and their effects on nickel ion uptake were investigated. Mutant hoxN alleles were expressed in Escherichia coli, and activity of the altered permeases was examined via a recently described physiological assay (Wolfram, L., Friedrich, B., and Eitinger, T. (1995) J. Bacteriol. 177, 1840-1843). Replacement of Cys-37, Cys-256, or Cys-318 by alanine did not severely affect nickel ion uptake. This activity of a C331A mutant was diminished by 60%, and a similar phenotype was obtained with a cysteine-less mutant harboring four Cys to Ala exchanges. Alterations in a histidine-containing sequence motif (His-62, Asp-67, His-68), which is conserved in microbial nickel transport proteins, strongly affected or completely abolished transport activity in the E. coli system. The analysis of HoxN alkaline phosphatase fusion proteins implied that His-62, Asp-67, and His-68 exchanges did not interfere with overall membrane topology or stability of the nickel permease. These mutations were reintroduced into the A. eutrophus wild-type strain. Analyses of the resulting HoxN mutants indicated that exchanges in the histidine motif led to a clearly decreased affinity of the permease for nickel ion.
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PMID:A Ni2+ binding motif is the basis of high affinity transport of the Alcaligenes eutrophus nickel permease. 920 33

The cDNAs for the two variable domains of the antibody 9E10 were cloned from the hybridoma cell line. A chimeric 9E10 Fab fragment was produced in E. coli under control of the tightly controlled tetracycline promoter. The functional Fab fragment was isolated in a single step via a His6-tag, which also served for its recognition by a nickel chelate-alkaline phosphatase conjugate. Thus, the recombinant Fab fragment permitted the immunochemical detection of the myc tag in a sandwich ELISA. The dissociation constant for the interaction with the myc tag peptide was determined as 80 +/- 5 nM by fluorescence titration. In an attempt to produce the smaller 9E10 Fv fragment it was found that its V(H) domain alone can be readily isolated from E. coli as a soluble protein. This unusual behaviour may be explained by the 18 amino acid-long CDR-H3 and could be of value in the design of 'single domain' antibodies.
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PMID:Sequence analysis and bacterial production of the anti-c-myc antibody 9E10: the V(H) domain has an extended CDR-H3 and exhibits unusual solubility. 930 27

cDNA encoding the full-length hKv1.3 lymphocyte channel and a C-terminal truncated (delta 459-523) form that lacks the putative PKA Ser468 phosphorylation site were stably transfected in human embryonic kidney (HEK) 293 cells. Immunostaining of the transfected cells revealed a distribution at the plasma membrane that was uniform in the case of the full-length channel whereas clustering was observed in the case of the truncated channel. Some straining within the cell cytoplasm was found in both instances, suggesting an active process of biosynthesis. Analyses of the K+ current by the patch-clamp technique in the whole cell configuration showed that depolarizing steps to 40 mV from a holding potential (HP) of -80 mV elicited an outward current of 2 to 10 nA. The current threshold was positive to -40 mV and the current amplitude increased in a voltage-dependent manner. The parameters of activation were -5.7 and -9.9 mV (slope factor) and -35 mV (half activation, V0.5) in the case of the full-length and truncated channels, respectively. The characteristics of the inactivation were 14.2 and 24.6 mV (slope factor) and -17.3 and -39.0 mV (V0.5) for the full-length and truncated channels, respectively. The activation time constant of the full-length channel for potentials ranging from -30 to 40 mV decreased from 18 to 12 msec whereas the inactivation time constant decreased from 6600 msec at -30 mV to 1800 msec at 40 mV. The unit current amplitude measured in cells bathing in 140 mM KCl was 1.3 +/- 0.1 pA at 40 mV, the unit conductance, 34.5 pS and the zero current voltage, 0 mV. Both forms of the channels were inhibited by TEA, 4-AP, Ni2+ and charybdotoxin. In contrast to the native (Jurkat) lymphocyte Kv1.3 channel that is fully inhibited by PKA and PKC, the addition of TPA resulted in 34.6 +/- 7.3% and 38.7 +/- 9.4% inhibition of the full-length and the truncated channels, respectively, 8-BrcAMP induced a 39.4 +/- 5.4% inhibition of the full-length channel but had no effect (8.6 +/- 8.3%) on the truncated channel. Cell dialysis with alkaline phosphatase had no effects, suggesting that the decreased sensitivity of the transfected channels to PKA and PKC was not due to an already phosphorylated channel. Patch extract experiments suggested that the hKv1.3 channel was partially sensitive to PKA and PKC. Cotransfecting the Kv beta 1.2 subunit resulted in a decrease in the value of the time constant of inactivation of the full-length channel but did not modify its sensitivity to PKA and PKC. The cotransfected Kv beta 2 subunit had no effects. Our results indicate that the hKv1.3 lymphocyte channel retains its electrophysiological characteristics when transfected in the Kv beta-negative HEK 293 cell line but its sensitivity to modulation by PKA and PKC is significantly reduced.
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PMID:The sensitivity of the human Kv1.3 (hKv1.3) lymphocyte K+ channel to regulation by PKA and PKC is partially lost in HEK 293 host cells. 943 74

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