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)

The enzyme activities, which are influenced by the vitamin C level in tissues, were measured to evaluate the vitamin C activity of erythorbic acid (ErA) in guinea pigs administered ErA. Guinea pigs were divided into two groups: animals in one group (control group) were administered 1, 5, and 100 mg/day ascorbic acid (AsA) and those in the other group (supplemented group) were administered 1, 5, 20, and 100 mg/day ErA for 16 days. At the end of the experimental period, they were sacrificed, blood was collected, and their livers were removed. The activities of liver aniline hydroxylase, of liver acid phosphatase, and of serum alkaline phosphatase, and the content of liver cytochrome P-450 were assayed. The activities of aniline hydroxylase and serum alkaline phosphatase and the content of liver cytochrome P-450 of the guinea pigs administered 1 mg ErA were lower than those of the guinea pigs administered 1 mg AsA. However, the enzyme activities and liver cytochrome P-450 content in the guinea pigs administered 5 mg or more of ErA were similar in level to those in the guinea pigs administered 5 mg AsA. These results suggested that administration of a considerably high amount of ErA to guinea pigs showed a similar vitamin C activity to that of AsA, which might suggest that vitamin C activity of ErA may be more than one-twentieth that of AsA, as has been generally believed.
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PMID:Net vitamin C activity of erythorbic acid in guinea pigs. 229 26

A serum-free primary culture system for chicken growth plate chondrocytes has been developed which consistently undergoes mineral deposition. Upon attainment of confluency, the chondrocytes develop locally into multilayer cellular nodules leading to matrix calcification. Mineralization first occurs in matrix vesicles (MV) that are abundant in the extraterritorial matrix between the hypertrophic cells. Studies with 45Ca reveal that significant accumulation of Ca2+ occurs as early as day 12, continuing progressively throughout the culture period. By day 24, the nodules become densely calcified. Fourier transform infrared spectroscopy reveals the mineral to be similar to apatite, with features essentially identical to those of mineral formed by MV in vitro. The presence of ascorbate is critical to the culture system; in its absence, calcification is rarely observed. Ascorbate stimulates MV formation and synthesis of cellular protein, alkaline phosphatase, and especially types II and X collagens. In addition, there is strong evidence that the types II and X collagens are associated with MV. 1) Electron microscopy reveals MV embedded in a type II collagenous network; 2) Western blots of sodium dodecyl sulfate-polyacrylamide gel electrophoresis of MV using monospecific antibodies to types X and II collagen indicate that both collagens are present in specific MV fractions; 3) sucrose gradient purification of MV does not remove associated collagens; 4) graded salt extraction selectively releases type II collagen from MV; and 5) incubation of radiolabeled types II and X collagens with MV leads to their cosedimentation upon subsequent centrifugation. Taken together, the data suggest that coordinated synthesis of the collagens, alkaline phosphatase, MV formation, and Ca2+ accumulation by the cultures combine to induce mineral deposition in the multilayer nodules.
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PMID:Induction of mineral deposition by primary cultures of chicken growth plate chondrocytes in ascorbate-containing media. Evidence of an association between matrix vesicles and collagen. 259 80

The full length cDNA of rat alkaline phosphatase (AP) was placed under the control of the SV40 early promoter. This plasmid was transfected by the calcium phosphate method into AP negative ROS 25/1 cells. Ten clones with AP specific activities ranging between 0.1-2 mumole/min/mg were isolated by cotransfection with the plasmid pSV2Neo, which renders the cells resistant to the antibiotic G418. Two clones with different AP specific activities: C (0.01 mumole/min/mg) and S (2.0 mumole/min/mg) and the osteoblastic ROS 17/2.8 cells (2.0 mumole/min/mg), were examined for their ability to mineralize. In vitro mineralization was tested by culturing cells in alpha-MEM containing 10% fetal bovine serum and 50 micrograms/ml ascorbate in the presence or absence of 10 mM beta-glycerophosphate. Mineralized deposits were observed in all cultures of the S clone and ROS 17/2.8 cells in the presence of beta-glycerophosphate, but not in C clones. Measurement of calcium and phosphorus levels in cells correlated with AP levels of transfected cells. However, extent of mineral accumulation in the transfected ROS 25/1 cells differ from the osteogenic ROS 17/2.8 cells. This finding indicates that high levels of AP may be a necessary constituent for the mineralization process together with other factors yet to be identified.
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PMID:Alkaline phosphatase cDNA transfected cells promote calcium and phosphate deposition. 259 68

Addition of 50 micrograms/ml sodium ascorbate to confluent cultures of isolated rat calvarium bone cells resulted in a 21% increase in DNA production, a 50-60% increase in incorporation of [14C]proline into collagenous and noncollagenous proteins, and a 200% increase in alkaline phosphatase activity; under identical conditions, [35S]sulfate incorporation into proteoglycans (glycosaminoglycans) was not affected. These results suggest that ascorbate may be important in maintaining or stimulating the osteogenic phenotype of normal bone cells.
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PMID:The effect of ascorbic acid on the metabolism of rat calvarial bone cells in vitro. 276 Jul 42

During the process of endochondral bone formation, proliferating chondrocytes give rise to hypertrophic chondrocytes, which then deposit a mineralized matrix to form calcified cartilage. Chondrocyte hypertrophy and matrix mineralization are associated with expression of type X collagen and the induction of high levels of the bone/liver/kidney isozyme of alkaline phosphatase. To determine what role vitamin C plays in these processes, chondrocytes derived from the cephalic portion of 14-day chick embryo sternae were grown in the absence or presence of exogenous ascorbic acid. Control untreated cells displayed low levels of type X collagen and alkaline phosphatase activity throughout the culture period. However, cells grown in the presence of ascorbic acid produced increasing levels of alkaline phosphatase activity and type X collagen mRNA and protein. Both alkaline phosphatase activity and type X collagen mRNA levels began to increase within 24 h of ascorbate treatment; by 9 days, the levels of both alkaline phosphatase activity and type X collagen mRNA were 15-20-fold higher than in non-ascorbate-treated cells. Ascorbate treatment also increased calcium deposition in the cell layer and decreased the levels of types II and IX collagen mRNAs; these effects lagged significantly behind the elevation of alkaline phosphatase and type X collagen. Addition of beta-glycerophosphate to the medium increased calcium deposition in the presence of ascorbate but had no effect on levels of collagen mRNAs or alkaline phosphatase. The results suggest that vitamin C may play an important role in endochondral bone formation by modulating gene expression in hypertrophic chondrocytes.
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PMID:Ascorbic acid induces alkaline phosphatase, type X collagen, and calcium deposition in cultured chick chondrocytes. 279 55

Alkaline phosphatase is inactivated by mixed function oxidation systems. OH. radicals, generated via an ascorbate-modified Haber-Weiss cycle or a Fenton-type reaction, seem to be responsible for the protein oxidative damage. Experiments with hydroxyl radical scavengers, enzyme substrates, products, and metal cofactors suggest that a "site-specific" radical attack takes place at or near the active center. Vitamin E fails to protect alkaline phosphatase; uric acid, instead, is particularly effective in shielding the protein against covalent modifications.
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PMID:Alkaline phosphatase inactivation by mixed function oxidation systems. 282 17

Selected serum parameters (enzyme activities and triglycerides) and liver glutathione and vitamin C concentrations were measured in English sole (Parophrys vetulus) after i.p. injection of carbon tetrachloride (CCl4), a hepatotoxin in fish. Serum lactate dehydrogenase (LDH), alkaline phosphatase (AP) and glutamate dehydrogenase (GDH) activities and the concentration of triglycerides increased in a dose-dependent manner 24 hr post injection. Concentrations of glutathione (reduced and oxidized) and ascorbic acid (vitamin C) in liver did not change in response to CCl4 toxicity 24 hr post injection. These studies indicate that serum AP activity and triglyceride concentrations can be useful in assessing the effects of CCl4-induced liver toxicity in this species of marine fish. Serum LDH and GDH activity should be used with some caution in assessing liver damage in English sole, as other tissues represent more likely sources for serum activity. The levels of liver antioxidants do not appear to be significantly affected, 24 hr post injection, by this particular hepatotoxin.
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PMID:Hepatotoxic effects of CCl4 on English sole (Parophrys vetulus): possible indicators of liver dysfunction. 287 55

The influence of 5,10-dihydroindeno[1,2-b]indole (indenoindole) on carbon tetrachloride (CCl4)-mediated hepatotoxicity and lipid peroxidation were examined. Indenoindole (25 mg/kg body weight) ameliorated the increase in liver enzymes appearing in the plasma 24 hr after CCl4 administration, with about a 63% reduction for alanine transaminase, 56% for ornithine transcarbamylase and 84% for alkaline phosphatase. Indenoindole also partially prevented, in a dose-dependent fashion, the decrease in hepatic cytochromes P-450, total tissue reducing equivalents and hepatic ascorbate levels resulting 4 hr after CCl4 administration. In a homogeneous chemical system consisting of purified soybean phospholipid substrate in chlorobenzene, azobisisobutyronitrile-initiated lipid peroxidation was inhibited by indeno-indole, with 50% inhibition occurring at about 17 microM. Inhibition by indenoindole of iron-ascorbate-initiated lipid peroxidation in aqueous buffer containing phospholipid vesicles was about tenfold more efficient, with 50% inhibition occurring at about 1.5 microM. Presumably, this was due to the increased concentration of indenoindole in the membrane of the phospholipid vesicle. The efficiency of inhibition of lipid peroxidation was in the order of indenoindole = butylated hydroxytoluene (BHT) greater than alpha-tocopherol much greater than indole greater than indene. These 50% inhibition values of lipid peroxidation for these compounds were similar in an assay system composed of NADPH-fortified mouse-liver microsomes initiated with CCl4. For indenoindole, the 50% inhibition value (1.3 microM) was more than two orders of magnitude less than the spectral binding constant for indenoindole to mouse-liver cytochrome P-450 (Kd = 236 microM), implying that the partial inhibition of metabolic activation of CCl4 was not responsible for the inhibition of lipid peroxidation observed with indenoindole in this system. It appears that indenoindole may trap reactive radicals and inhibit lipid peroxidation in vitro. Regardless of whether inhibition is at the level of scavenging CCl4 metabolite radicals, or lipid radicals in membranes, radical trapping provides a plausible mechanism by which this compound inhibited CCl4 hepatotoxicity.
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PMID:Protection against carbon tetrachloride hepatotoxicity by 5,10-dihydroindeno[1,2-b]indole, a potent inhibitor of lipid peroxidation. 316 51

No major structural alteration of alkaline phosphatase can be observed in the early stages of enzyme oxidative inactivation by the ascorbate model system. Fluorescence changes of protein-bound 8-anilino-1-naphthalenesulfonic acid suggest, however, that localized modifications take place. Oxidized alkaline phosphatase displays less catalytic efficiency (decrease of Vmax), while retaining the other kinetic properties, including the same affinity for substrates and inhibitors and the same activation energy of the native enzyme. Typical features of the modified protein are a decreased thermal stability and a biphasic heat inactivation profile, which make the oxidized form quite similar to aged enzymes. The lower response to Mg2+ activation indicates that the magnesium binding sites of alkaline phosphatase are probably the targets of the ascorbate system oxidative modifications.
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PMID:Mixed function oxidation and enzymes: kinetic and structural properties of an oxidatively modified alkaline phosphatase. 340 Oct 10

To investigate some biochemical changes during bovine follicle development, ovaries were obtained from cyclic heifers (7 to 11 heifers/d on each day of the 21-d estrous cycle; N = 152). Follicular fluid from the two largest follicles from both ovaries and a pool from small follicles (N = 30/cow) were collected from each animal and analyzed for ionic, enzymatic and endocrine changes in relation to day of the estrous cycle, follicle size, rank and atretic or growing status. Follicular fluid alkaline phosphatase activity and ascorbate concentrations were highest in all follicular sizes during the earlier portion of the estrous cycle (d 1 to 12; P less than .05), then decreased to the lowest levels (d 13 to 21). As follicular size (diameter) increased lactate dehydrogenase (LDH), acid and alkaline phosphatase activity was reduced in follicular fluid (P less than .05). Alkaline phosphatase and LDH activity tended to be increased in atretic follicles (P less than .10), and was correlated with increased progesterone and androgen concentrations of follicular fluid (r = .4, P less than .05). Both albumin and total protein concentrations decreased as follicular diameter increased (P less than .05). Sodium concentrations in follicular fluid were greater in growing-antral than atretic follicles, and increased with follicular enlargement (P less than .05). Follicular potassium concentrations increased as the estrous cycle progressed (P less than .05), and tended to be elevated in atretic follicles (nonsignificant). Both Ca and Mg concentrations increased with follicular enlargement (P less than .05). Dehydroepiandrosterone and testosterone were the predominant androgens in follicular fluid (androstenedione, the lowest concentration); their concentration decreased with follicle development (P less than .05), but were quite variable. Estradiol was increased in growing follicles (P less than .01). Estrone and estradiol concentrations increased as ovulation approached, particularly in small follicles (less than or equal to 4 mm diameter). Changes of biochemical components found in follicular fluid that relate to the growth and atresia process may provide a more sensitive and accurate method to classify follicle status, and thus aid in understanding the complexity of events associated with maturation of the bovine follicle and oocyte.
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PMID:Biochemical analysis of bovine follicular fluid: albumin, total protein, lysosomal enzymes, ions, steroids and ascorbic acid content in relation to follicular size, rank, atresia classification and day of estrous cycle. 357 Oct 24


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