EC:3.1.3.1 - FACTA Search

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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)

Chondrocyte terminal differentiation is associated with cellular hypertrophy increased activity of plasma membrane alkaline phosphatase and the synthesis of collagen type X. The hypertrophic phenotype of cultured chondrocytes can be stimulated by ascorbic acid but the underlying mechanisms for this phenotypic change are unclear. As ascorbic acid is central to many hydroxylation reactions, the possibility was examined that its pro-differentiating effects are mediated by its effects on collagen and vitamin D metabolite formation. In vitro studies indicated that ascorbic acid-induced chondrocyte alkaline phosphatase activity was inhibited by the addition of both collagen and proteoglycan synthesis inhibitors. The addition of arginine-glycine-aspartic acid (RGD)-containing peptides also resulted in lower alkaline phosphatase activity. Chicks supplemented with dietary ascorbic acid had higher concentrations of both collagen and proteoglycans within their growth plates but the chondrocyte maturation rate was unaltered. No evidence was obtained to suggest that ascorbic acid-induced collagen production was mediated by lipid peroxidation. In addition, supplementation with dietary ascorbic acid resulted in higher serum 1,25-dihydroxyvitamin D3 concentrations and increased chondrocyte vitamin D receptor number. Ascorbic acid-treated chondrocytes maintained in vitro also had increased vitamin D receptor numbers but chondrocyte receptor affinity for 1,25-dihydroxyvitamin D3 was unaltered. These results indicate that ascorbic acid promotes both chondrocyte matrix production and 1,25-dihydroxyvitamin D3 synthesis, accompanied by upregulation of the vitamin D receptor. Thus, ascorbic acid may be causing amplification of the vitamin D receptor-dependent genomic response to 1,25-dihydroxyvitamin D, resulting in promotion of terminal differentiation. Strong evidence is provided to support the hypothesis that ascorbic acid-induced chondrocyte terminal differentiation is mediated by interactions between integrins and RGD-containing cartilage matrix proteins.
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PMID:Ascorbic acid-induced chondrocyte terminal differentiation: the role of the extracellular matrix and 1,25-dihydroxyvitamin D. 969 50

Hydropathy profile analysis of the amino acid sequence of the Na+/proline transporter of Escherichia coli (PutP) suggests that the protein consists of 12 transmembrane domains (TMs) which are connected by hydrophilic loops (Nakao, T., Yamato, I., and Anraku, Y. (1987) Mol. Gen. Genet. 208, 70-75). We have tested this prediction by applying a gene fusion approach in combination with a Cys accessibility analysis and site-specific proteolysis. Characterization of a series of PutP-alkaline phosphatase (PhoA) and PutP-beta-galactosidase (LacZ) hybrid proteins yields a reciprocal activity pattern of the reporter proteins that is in agreement with the topology of TMs III to XII of the 12-helix model. Placement of the PutP-PhoA and PutP-LacZ junction sites closer to the N terminus does not yield conclusive results. As a prerequisite for further topology studies, a functional PutP molecule devoid of all five native Cys residues (Cys-free PutP) is generated. Subsequently, amino acids in Cys-free PutP are replaced individually with Cys, and the accessibility of the sulfhydryl groups is analyzed. Surprisingly, Cys residues placed close to the N terminus of PutP (Ile-3 --> Cys, Thr-5 --> Cys) or into putative TM II (Ser-71 --> Cys, Glu-75 --> Cys) are highly accessible to membrane permeant and impermeant thiol reagents in intact cells. In contrast, Cys at the C terminus (Ser-502 --> Cys) reacts only with the membrane permeant but not with the impermeant reagent in intact cells. These results contradict the 12-helix motif and indicate a periplasmic location of the N terminus whereas the C terminus faces the cytoplasm. In addition, a transporter with Cys in place of Leu-37 (putative periplasmic loop (pL2) shows the same accessibility pattern as the Cys at the C terminus. Furthermore, PutP which has been purified and reconstituted into proteoliposomes in an inside-out orientation, is readily cleaved by the endoproteinase AspN before Asp-33 (pL2), Asp-112 (putative cytoplasmic loop (cL3), Asp-262 (cL7), and Asp-356 (cL9). These results suggest a cytosolic location of Asp-33 and Leu-37, thereby implying the formation of an additional TM formed by amino acids of pL2. Based on these observations, a new secondary structure model is proposed according to which the protein consists of 13 TMs with the N terminus on the outside and the C terminus facing the cytoplasm. The 13-helix structure is discussed as a common topological motif for all members of the Na+/solute cotransporter family.
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PMID:Topology of the Na+/proline transporter of Escherichia coli. 975 72

The inner membrane protein CcmC (CytA) of Pseudomonas fluorescens ATCC17400, which has homologues in several bacteria and plant mitochondria, is needed for the biogenesis of cytochrome c. A CcmC-deficient mutant is also compromised in the production and utilization of pyoverdine, the high-affinity fluorescent siderophore. A topological model for CcmC, based on the analysis of alkaline phosphatase fusions, predicts six membrane-spanning regions with three periplasmic loops. Site-directed mutagenesis was used in order to assess the importance of some periplasm-exposed residues, conserved in all CcmC homologues, for cytochrome c biogenesis, and pyoverdine production/utilization. Despite the conservation of the residues His-61, Val-62 and Pro-63 in the first periplasmic loop, and Leu-184, His-185 and Gln-186 in the third periplasmic loop, their simultaneous replacement with Ala only partially affected cytochrome c biogenesis and pyoverdine production/utilization. Simultaneous replacements of residues Trp-115 and Gly-116 in the second periplasmic loop substantially affected pyoverdine production/utilization but not cytochrome c production. An Ala substitution of Asp-127, in the second periplasmic loop, resulted in decreased production of cytochrome c, slower growth in conditions of anaerobiosis and reduced pyoverdine production. On the other hand, a mutation in Trp-126, also in the second periplasmic loop, totally suppressed the production of cytochrome c, whereas it had no effect on the production and utilization of pyoverdine. These results show a differential involvement of amino acid residues in periplasmic domains of CcmC in cytochrome c biogenesis and pyoverdine production/utilization.
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PMID:Different residues in periplasmic domains of the CcmC inner membrane protein of Pseudomonas fluorescens ATCC 17400 are critical for cytochrome c biogenesis and pyoverdine-mediated iron uptake. 982 20

Mca-Gly-Asp-Ala-Glu-Tyr(PO(3)H(2))-Ala- Ala-Lys(DNP)-Arg-NH(2), where Mca is (7-methoxycoumarin-4-yl)acetyl and DNP is 2,4-dinitrophenyl, was synthesized as a fluorogenic substrate for protein tyrosine phosphatases (PTPs). In the peptide, the fluorescent Mca group is quenched efficiently by the DNP group. Although the fluorescence intensity of the substrate was practically unchanged upon PTP-catalysed dephosphorylation, it increased approx. 120-fold upon subsequent treatment with chymotrypsin. Analysis by HPLC showed that chymotrypsin cleaved only the dephosphorylated substrate at the Tyr-Ala bond. Thus with the aid of chymotrypsin, dephosphorylation of the substrate can be measured fluorometrically. A strictly linear correlation was observed between PTP concentration and dephosphorylation rate. The fluorogenic substrate was dephosphorylated by some PTPs much more rapidly than the corresponding (32)P-labelled substrate used for comparison, whereas alkaline phosphatase dephosphorylated the two substrates at similar rates. The fluorogenic substrate is therefore more specific for PTPs than the radiolabelled substrate. The assay with the fluorogenic substrate could be applied to the estimation of kinetc parameters and measurement of PTP activity in crude-enzyme preparations. The lower detection limit of our assay (1 microM substrate in 200 microliter of reaction mixture) was estimated to be 0.2-0.4 pmol, whereas it was estimated to be about 1 pmol in the assay that used (32)P-labelled peptide (specific radioactivity of approx. 1000 c.p.m. /pmol). Our assay is simple, specific, highly sensitive and non-radioisotopic, and hence would contribute greatly to the development of PTP biology.
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PMID:A phosphotyrosine-containing quenched fluorogenic peptide as a novel substrate for protein tyrosine phosphatases. 1051 Mar 4

Seventeen patients with established fasciolosis and ten normal controls were enrolled in the study. The Fasciola patients were divided according to infection intensity into two groups (four patients with high intensity and thirteen patients with low intensity) as assessed by egg counts coupled with ultrasonography for detection of worms in the biliary system. Aspartate and alanine aminotransferases (AST and ALT) levels were similar to those of the controls, within the accepted normal limits, before and after treatment denoting absence of hepatocellular injury. Total serum bile acids, individual bile acids: cholic acid (CA) and chenodeoxycholic acid (CDCA), gamma glutamyl transpeptidase (GGT) and serum alkaline phosphatase (SAP) were significantly higher among all patients as compared to the controls denoting a degree of cholestatic lesion in those patients. Patients with high infection intensity revealed higher parameters than those with low intensity. The difference was not significant. One month after treatment, there was a significant improvement in the cholestasis indicating parameters in all Fasciola cases compared to the pretreatment ones. This indicates the effective role of the drug on the hepatobiliary function. However, the levels were still different from the controls. In Fasciola infection, total and individual serum bile acids in conjunction with GGT and SAP evaluate the hepatobiliary status and detect any minor abnormalities especially in anicteric subjects. Studied after treatment, they can be useful indices for assessment of the improvement.
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PMID:Human fasciolosis: a study on the relation of infection intensity and treatment to hepatobiliary affection. 1060 89

NixA, the high-affinity cytoplasmic membrane nickel transport protein of Helicobacter pylori, imports Ni(2+) into the cell for insertion into the active site of the urease metalloenzyme, which is required for gastric colonization. NixA fractionates with the cytoplasmic membrane, and protein cross-linking studies suggest that NixA functions as a monomer. A preliminary topological model of NixA with seven transmembrane domains was previously proposed based on hydropathy, charge dispersion, and homology to other transporters. To test the proposed topology of NixA and relate critical residues to specific structural elements, a series of 21 NixA-LacZ and 21 NixA-PhoA fusions were created along the entire length of the protein. Expression of reporter fusions was confirmed by Western blotting with beta-galactosidase- and alkaline phosphatase-specific antisera. The activities of reporter fusions near to and upstream of the predicted translational initiation demonstrated the presence of an additional amino-terminal transmembrane domain including a membrane localization signal. Activities of fusions immediately adjacent to motifs which have been shown to be requisite for Ni(2+) transport localized these motifs entirely within transmembrane domains II and III. Fusion activities localized six additional Asp and Glu residues which reduced Ni(2+) transport by >90% when mutated within or immediately adjacent to transmembrane domains II, V, VI, and VII. All fusions strongly support a model of NixA in which the amino and carboxy termini are located in the cytoplasm and the protein possesses eight transmembrane domains.
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PMID:Membrane topology of the NixA nickel transporter of Helicobacter pylori: two nickel transport-specific motifs within transmembrane helices II and III. 1069 79

Tissue-non-specific alkaline phosphatase (TNSALP) with an Arg(54)-->Cys (R54C) or an Asp(277)-->Ala (D277A)substitution was found in a patient with hypophosphatasia [Henthorn,Raducha, Fedde, Lafferty and Whyte (1992) Proc. Natl. Acad. Sci. U.S.A.89, 9924-9928]. To examine effects of these missense mutations onproperties of TNSALP, the TNSALP mutants were expressed ectopically inCOS-1 cells. The wild-type TNSALP was synthesized as a 66-kDa endo-beta-N-acetylglucosaminidase H (Endo H)-sensitive form, and processed to an 80-kDa mature form, which is anchored to the plasma membrane via glycosylphosphatidylinositol (GPI). Although the mutant proteins were found to be modified by GPI, digestion with phosphatidylinositol-specific phospholipase C, cell-surface biotinylation and immunofluorescence observation demonstrated that the cell-surface appearance of TNSALP (R54C) and TNSALP (D277A) was either almost totally or partially retarded respectively. The 66-kDa Endo H-sensitive band was the only form, and was rapidly degraded in the cells expressing TNSALP (R54C). In contrast with cells expressing TNSALP(R54C), where alkaline phosphatase activity was negligible, significant enzyme activity was detected and, furthermore, the 80-kDa mature form appeared on the surface of the cells expressing TNSALP (D277A). Analysis by sedimentation on sucrose gradients showed that a considerable fraction of newly synthesized TNSALP (R54C) and TNSALP(D277A) formed large aggregates, indicating improper folding and incorrect oligomerization of the mutant enzymes. When co-expressed with TNSALP (R54C), the level of the 80-kDa mature form of TNSALP (D277A)was decreased dramatically, with a concomitant reduction in enzyme activity in the co-transfected cell. These findings suggest that TNSALP(R54C) interferes with folding and assembly of TNSALP (D277A) intrans when expressed in the same cell, thus probably explaining why a compound heterozygote for these mutant alleles developed severe hypophosphatasia.
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PMID:Possible interference between tissue-non-specific alkaline phosphatase with an Arg54-->Cys substitution and acounterpart with an Asp277-->Ala substitution found in a compound heterozygote associated with severe hypophosphatasia. 1083 96

Bone marrow cells are multipotent cells. When bone marrow cells were cultured with type I collagen matrix gels, they showed high alkaline phosphatase activity, collagen synthesis, and formed mineralized tissues. Furthermore, cells expressed osteocalcin and bone sialoprotein genes, which are osteoblast-specific genes. These findings indicate that type I collagen matrix gels induce osteoblastic differentiation of bone marrow cells. Type I collagen interacts with the alpha 2 beta 1 integrin receptor on the cell membrane and mediates extracellular signals into cells. DGEA peptide is a cell-binding domain of type I collagen molecule. When collagen-integrin interaction was interrupted by the addition of Asp-Gly-Glu-Ala (DGEA) peptide to the culture, the expression of osteoblastic phenotypes of bone marrow cells was inhibited. Furthermore, anti-alpha 2 integrin antibody, which interacts with alpha subunit of integrin and blocks the binding of integrin with collagen, suppressed the expression of osteoblastic phenotypes. These findings imply that collagen-alpha 2 beta 1 integrin interaction is an important signal for the osteoblastic differentiation of bone marrow cells.
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PMID:Type I collagen-induced osteoblastic differentiation of bone-marrow cells mediated by collagen-alpha2beta1 integrin interaction. 1086 45

Baculovirus phosphatase (BVP) is a member of the metazoan RNA triphosphatase enzyme family that includes the RNA triphosphatase component of the mRNA capping apparatus. BVP and other metazoan RNA triphosphatases belong to a superfamily of phosphatases that act via the formation and hydrolysis of a covalent cysteinyl-phosphate intermediate. Here we demonstrate the formation of a BVP phosphoenzyme upon reaction with [gamma-(32)P]ATP and identify the linkage as a thiophosphate based on its chemical lability. We surmise that the phosphate is linked to Cys(119) of BVP because replacement of Cys(119) by alanine or serine abrogates phosphoenzyme formation and phosphohydrolase activity. The catalytic cysteine is situated within a conserved phosphate-binding loop ((118)HCTHGINRTGY(128)). We show that all of the non-aliphatic side chains of the phosphate-binding loop are functionally important, insofar as mutants H118A, H121A, N124A, R125A, T126A, and Y128A were inactive in gamma phosphate hydrolysis and the T120A mutant was 7% as active as wild-type BVP. Structure-activity relationships at the essential positions of the phosphate-binding loop were elucidated by conservative substitutions. A conserved aspartic acid (Asp(60)) invoked as a candidate general acid catalyst was dispensable for phosphohydrolase activity and phosphoenzyme formation by BVP. We propose that the low pK(a) of the bridging oxygen of the beta phosphate leaving group circumvents a requirement for expulsion by a proton donor during attack by cysteine on the gamma phosphorus. In contrast, a conserved aspartic acid is essential for the phosphomonoesterase reactions catalyzed by protein phosphatases, where the serine or tyrosine leaving groups have a much higher pK(a) than does ADP.
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PMID:Mechanism of phosphoanhydride cleavage by baculovirus phosphatase. 1095 17

Three sows were fed a diet mixed with Fusarium moniliforme fungal culture from the 107th day of pregnancy until parturition. Fumonisin B(1) toxin was administered to two sows (sows 1 and 2) in a daily dose of 300 mg for an additional 7 days subsequent to parturition, i.e., for a total of 14-16 days. The third sow (No. 3) was given the toxin in the same daily dose only until parturition, i.e., for 7 days in total. There were no symptoms observed in any of the sows. Two piglets were taken from each of the three sows and sacrificed immediately after parturition, i.e., prior to the first suckling. After 24 h, two additional piglets were taken for slaughter from each of the litters, which by then had access to colostrum. Finally, on the 7th day postparturition another two piglets per litter were sacrificed and material obtained from them was processed for examination. It was established that fumonisin B(1) present in the Fusarium moniliforme culture resulted in damage to the fetuses in utero. Of the changes indicating toxic effect, intraalveolar, subpleural, and interstitial pulmonary edema of various degrees of severity could be detected in the piglets sacrificed immediately following parturition and before the first suckling. Pathological changes were observed in the histopathological sections of the liver, and increases in the activities of plasma aspartic acid transaminase (AST), gamma glutamyl transferase (GGT) and alkaline phosphatase (AKLP), higher than physiological levels were detected. The serum-free sphinganine/sphingosine ratio, considered a bioindicator of fumonisin B(1) toxicosis, varied in accordance with the degree of severity of the changes which occurred. The values obtained were found to be between 0.29 and 0.36 in the cases of severe pulmonary edema, and between 0.20 and 0.24 for the cases of mild pulmonary edema. In the piglets of the sows fed the toxin for an additional 7 days subsequent to parturition and which were born with severe pulmonary edema, mild pulmonary edema could be detected after colostrum suckling, 24 h, and 7 days after parturition. The SA/SO value of the serum in these two piglets was 0.19 and 0.20, while at the same time AST, GGT, and ALKP values higher than physiological levels were measured. In the milk samples taken from sows 1 and 2 and examined after 24 h and after 7 days FB(1) was detected in quantities of 18.0-27.5 ppb. There were no changes observed on the seventh day in the piglets of the third sow, the diet of which contained no toxin after parturition. However, as the piglets of the third sow demonstrated only mild effects of pulmonary edema it is not possible to establish with certainty a postpartum cause-effect relationship between fumonisin in colostrum and pulmonary edema.
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PMID:Preliminary communication: examination of the harmful effect to fetuses of fumonisin B(1) in pregnant sows. 1099 76

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