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)

Retinal neurons are extensively coupled through gap junction intercellular channels, but few connexin subtypes have been identified in mammalian retinal neurons. Based on previous findings that retinal gap junctional coupling is modulated by both dopamine and nitric oxide, presumably through connexin phosphorylation, we examined whether the connexin phosphoprotein subtype, connexin 40 (Cx40), was expressed in mammalian retinas. Immunostaining of rat and bovine retinas using Cx40-specific antibodies from two independent sources showed punctate staining between cells in the outer nuclear layer (ONL) and a sublayer of cells within the inner nuclear layer (INL). In addition, sparse punctate staining was detected in the ganglion cell/axon fiber layers (GCL/AFL). No punctate staining was observed in the outer (OS) or inner segment (IS) layers, and rarely in the outer plexiform layer (OPL) or inner plexiform layer (IPL). Double immunostaining of bovine retinas with antibodies to G(o), which stains bipolar cells, and to Cx40, showed little overlap, suggesting these bipolar cells do not express Cx40. Western blot analysis of alkaline-extracted bovine retinal membranes revealed Cx40 immunopositive bands of about 40 kD (monomer) and 80 kD (dimer). In both locations (monomer and dimer), the bands appeared as doublets, and their immunoreactivity was abolished when the antibody was pre-adsorbed with immunogenic Cx40 peptide. The doublet at 40 kD co-migrated with an immunopositive doublet present in heart membranes. Treatment with alkaline phosphatase altered the banding pattern of Cx40. The results suggest that the connexin phosphoprotein subtype, Cx40, is expressed within the neural layers of the mammalian retina.
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PMID:Connexin 40 expression in bovine and rat retinas. 1266 66

Yeast cadmium factor (Ycf1), an ATP-binding cassette (ABC) protein of the multidrug resistance protein subfamily, is a vacuolar GS-conjugate transporter required for heavy metal and drug detoxification. There is evidence that phosphorylation may play a critical role in the function of ABC transporters from higher organisms. In this work, the possibility of Ycf1 phosphorylation was examined using site-directed mutagenesis. We demonstrate that Ser908 and Thr911, within the regulatory domain (R domain), are functionally important for Ycf1 transport activity and likely sites for phosphorylation. Mutation of these residues to alanine severely impaired the Ycf1-dependent cadmium detoxification capacity and transport activity, while replacement by acidic residues (mimicking phosphorylation) significantly suppressed the cadmium resistance and transport defects. Both in vitro treatment of Ycf1 with alkaline phosphatase and changes in the electrophoretic mobility of the S908A, T911A and double mutant S908A/T911A proteins supported the conclusion that Ycf1 is a phosphoprotein. The screening of the yeast kinome identified four protein kinases affecting cadmium detoxification, but none of them was involved directly in the phosphorylation of Ycf1. Our data strongly implicate Ycf1 phosphorylation as a key determinant in cadmium resistance in yeast, a significant finding given that very little is known about phosphorylation of ABC transporters in yeast.
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PMID:Ycf1-dependent cadmium detoxification by yeast requires phosphorylation of residues Ser908 and Thr911. 1555 3

Osteopontin (OPN) is a highly acidic secreted phosphoprotein that binds to cells via an RGD (arginine-glycine-aspartic acid) cell adhesion sequence that recognizes the alphaVbeta3 integrin. OPN may regulate the formation and remodeling of bone. To elucidate the function of OPN in bone tissue, we examined the overexpression of OPN in osteoblasts in vitro and in vivo using an adenoviral vector carrying an OPN cDNA (Adv-OPN). Rat bone marrow-derived osteoblasts infected with Adv-OPN were examined by Western blotting, immunofluorescence, nodule formation measurements, assay of alkaline phosphatase (ALP) activity, and Northern blotting. The results suggested that not only osteoblast differentiation markers such as osteocalcin and ALP, but nodule formation and ALP activity are markedly enhanced by OPN overexpression in the case of viral infection. On the contrary, when Adv-OPN and uninfected osteoblasts were implanted into subcutaneous sites with a porous ceramic scaffold, the ALP activity and calcium content of the OPN-infected composite were higher than in uninfected composites, however, the differences were smaller than expected from the in vitro experiments. We speculate that the difference in the result of in vitro and in vivo experiments originates from the inhibitory effect of secreted OPN on the crystal growth of apatite in vivo, which competes with the induced activity of osteoblasts.
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PMID:In vitro and in vivo effects of the overexpression of osteopontin on osteoblast differentiation using a recombinant adenoviral vector. 1559 96

The tumoricidal mechanism of methyl-3,5-diiodo-4-(4'-methoxypropoxy)benzoate (DIME), or DIPE, has been analyzed beyond its first recognized cellular site, which is the inhibition of tubulin polymerization. DIME (or DIPE) pretreatment of Eras cells for 3 days abolished ceramide basic fibroblast growth factor (bFGF)-induced glycolysis, coinciding with a block produced by the phosphoprotein dephosphorylation of cdc 25 by protein phosphatase 2A (PP2A). Protein dephosphorylation is directly activated by DIME (or DIPE), and enzyme activities that are dependent on P-proteins are significantly down-regulated (e.g. Topo I and II, MAP-kinase, and cdc-cyclin kinase). Purified PP2A is one target of activation by DIME (or DIPE), and an alkaline phosphatase isoenzyme is also induced by the drug. It is proposed that the pleiotropic effects of DIME (or DIPE) on cancer cells involve the activation of protein dephosphorylations, as well as inhibition of tubulin polymerization.
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PMID:Mechanisms of antitumor action of methyl-3,5-diiodo-4-(4'-methoxyphenoxy)benzoate: drug-induced protein dephosphorylations and inhibition of the permissive action of ceramide on growth factor induced cell proliferation. 1570 18

A combination of affinity purification, 2D-PAGE and peptide mass fingerprinting was employed to study the phosphoprotein complement of Saccharomyces cerevisiae. Protein extracts were first passed through a phosphoprotein affinity column, and the phosphoprotein-enriched eluate fractions were then separated on 2D gels and visualized by staining with SYPRO Ruby. Proteins were excised from the gels and identified by peptide mass fingerprinting; 11/13 protein spots identified from a gel of the phosphoprotein-enriched fraction had prior published evidence indicating that they were phosphoproteins. Additional experiments using a specific stain for phosphoproteins, prior incubation of the protein extract with alkaline phosphatase and blotting with monoclonal antibodies to phosphothreonine, phosphoserine and phosphotyrosine demonstrated that the phosphoprotein affinity column was an effective method for enriching phosphoproteins. Further validating the method, growth of yeast in the presence of sorbic acid resulted in altered phosphorylation of 17 proteins, 13 of which had prior published evidence that they were phosphoproteins or had ATP binding activity.
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PMID:Rapid enrichment and analysis of yeast phosphoproteins using affinity chromatography, 2D-PAGE and peptide mass fingerprinting. 1580 15

The orphan nuclear hormone receptor estrogen-related receptor alpha (ERRalpha, NR3B1) is a constitutive transcription factor that is structurally and functionally related to the classic estrogen receptors. ERRalpha can recognize both the estrogen response element and its own binding site (ERRE) in either dimeric or monomeric forms. ERRalpha is also a phosphoprotein whose expression in human breast tumors correlates with that of the receptor tyrosine kinase ErbB2, suggesting that its transcriptional activity could be regulated by signaling cascades. Here, we investigated growth factor regulation of ERRalpha function and found that it is phosphorylated in MCF-7 breast cancer cells in response to epidermal growth factor (EGF), an event that enhances its DNA binding. Interestingly, treatment with alkaline phosphatase shifts ERRalpha from a dimeric to a monomeric DNA-binding factor, and only the dimeric form interacts with the coactivator PGC-1alpha. In vitro, the DNA-binding domain of ERRalpha is selectively phosphorylated by protein kinase Cdelta (PKCdelta), which increases its DNA-binding activity, whereas expression of constitutively active PKCdelta enhances TFF1 promoter activity via the ERRE. However, whereas treatment of MCF-7 cells with the phorbol ester phorbol-12-myristate 13-acetate also enhances ERRalpha activation of the TFF1 promoter reporter, it does not affect ERRalpha activity on its own promoter. In agreement, chromatin immunoprecipitation analysis shows that ERRalpha and RNA polymerase II are preferentially recruited to the TFF1 promoter after EGF treatment, whereas recruitment of these factors to its own promoter is not affected. These results reveal a mechanism through which growth factor signaling can selectively activate ERRalpha target genes in breast cancer cells.
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PMID:Epidermal growth factor-induced signaling in breast cancer cells results in selective target gene activation by orphan nuclear receptor estrogen-related receptor alpha. 1602 13

We investigated structural changes in the rabies virus (HEP-Flury strain) nucleocapsid (NC) during the virus replication, for which we used two anti-nucleoprotein (N) monoclonal antibodies (mAbs), #404-11 (specific for a conformation-dependently exposed linear epitope) and #1-7-11 (specific for a conformational epitope which is exposed after the nucleocapsid formation). Both mAbs recognized the N protein of the viral NC, but not of the RNA-free N-P complex. The 1-7-11 and 404-11 epitopes could be mapped to the N-terminal and the C-terminal regions of N protein, respectively. Immunoprecipitation studies demonstrated that treatment of the NC either with the alkaline phosphatase or sodium deoxycholate (DOC) resulted in dissociation of most P proteins from the NC and in the reduced reactivity to mAb #404-11, but not to mAb #1-7-11. NC-like structures produced in the N cDNA-transfected cells displayed strong reactivity to mAb #1-7-11; however, reactivity to mAb #404-11 was very weak. And, coexpression with viral phosphoprotein (P) resulted in little increase in reactivity to mAb #404-11 of the NC-like structures, while the reactivity was significantly increased by cotransfection with P and the viral minigenome whose 3'- and 5'-end structures were derived from the viral genome. From these results, we assume that, although the 404-11 epitope is a linear one, the epitope-containing region is exposed only when N proteins encapsidate properly the viral RNA in collaboration with the P protein. Further, exposure of the 404-11 epitope region might be function-related, and be regulated by association and dissociation of the P protein.
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PMID:Structural difference recognized by a monoclonal antibody #404-11 between the rabies virus nucleocapsid (NC) produced in virus infected cells and the NC-like structures produced in the nucleoprotein (N) cDNA-transfected cells. 1611 4

Dentine phosphoprotein (DPP) has been proposed to both promote and inhibit mineral deposition during dentinogenesis. The present study aimed to investigate the molecular interactions of DPP and dephosphorylated DPP (DPP-p) with hydroxyapatite (HAP). Bovine DPP was purified and dephosphorylated by alkaline phosphatase to obtain DPP-p. DPP and DPP-p adsorption to HAP was determined along with their ability, when free in solution or bound to collagen, to influence HAP-induced crystal growth. Absorption isotherms suggested that lower DPP concentrations (1.5-6.25 microg ml(-1)) demonstrated a reduced affinity for HAP compared with higher protein concentrations (12.5-50.0 microg ml(-1)). Dephosphorylated DPP had a much reduced affinity for HAP compared with DPP. Dentine phosphoprotein inhibited seeded HAP crystal growth, in a dose-dependent manner, whilst removal of the phosphate groups reduced this inhibition. When bound to collagen fibrils, DPP significantly promoted the rate of HAP crystal growth over 0-8 min. Conversely, DPP-p and collagen significantly decreased the rate of crystal growth over 0-18 min. These results indicate a major role for the phosphate groups present on DPP in HAP crystal growth. In addition, concentration-dependent conformational changes to DPP, and the interaction with other matrix components, such as collagen, are important in predicting its dual role in the mineralization of dentine.
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PMID:Adsorption and interactions of dentine phosphoprotein with hydroxyapatite and collagen. 1677 72

Apolipoprotein B (apoB) mRNA editing is a nuclear event that minimally requires the RNA substrate, APOBEC-1 and APOBEC-1 Complementation Factor (ACF). The co-localization of these macro-molecules within the nucleus and the modulation of hepatic apoB mRNA editing activity have been described following a variety of metabolic perturbations, but the mechanism that regulates editosome assembly is unknown. APOBEC-1 was effectively co-immunoprecipitated with ACF from nuclear, but not cytoplasmic extracts. Moreover, alkaline phosphatase treatment of nuclear extracts reduced the amount of APOBEC-1 co-immunoprecipitated with ACF and inhibited in vitro editing activity. Ethanol stimulated apoB mRNA editing was associated with a 2- to 3-fold increase in ACF phosphorylation relative to that in control primary hepatocytes. Significantly, phosphorylated ACF was restricted to nuclear extracts where it co-sedimented with 27S editing competent complexes. Two-dimensional phosphoamino acid analysis of ACF immunopurified from hepatocyte nuclear extracts demonstrated phosphorylation of serine residues that was increased by ethanol treatment. Inhibition of protein phosphatase I, but not PPIIA or IIB, stimulated apoB mRNA editing activity coincident with enhanced ACF phosphorylation in vivo. These data demonstrate that ACF is a metabolically regulated phosphoprotein and suggest that this post-translational modification increases hepatic apoB mRNA editing activity by enhancing ACF nuclear localization/retention, facilitating the interaction of ACF with APOBEC-1 and thereby increasing the probability of editosome assembly and activity.
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PMID:Metabolic regulation of apoB mRNA editing is associated with phosphorylation of APOBEC-1 complementation factor. 1682 May 30

Protein phosphorylation and dephosphorylation are important regulators of cellular and extracellular events. The purpose of this study was to define how these events regulate cartilage matrix calcification in a cell culture system that mimics endochondral ossification. The presence of casein kinase II (CK2), an enzyme known to phosphorylate matrix proteins, was confirmed by immunohistochemistry. The importance of phosphoprotein phosphorylation and dephosphorylation was examined by comparing effects of inhibiting CK2 or phosphoprotein phosphatases on mineral accretion relative to untreated mineralizing controls. Specific inhibitors were added to differentiating chick limb-bud mesenchymal cell micromass cultures during the development of a mineralized matrix at the times of cell differentiation, proliferation, formation of the mineralized matrix, or proliferation of the mineral crystals. The mineralizing media for these cultures contained 4 mM inorganic phosphate and no organic-phosphate esters; control cultures had 1 mM inorganic phosphate. Mineralization was monitored based on (45)Ca uptake and infrared characterization of the mineral; cell viability was assessed by three independent methods. Treatments that caused cell toxicity were excluded from the analysis. Inhibition of CK2 activity with apigenin or CK2 inhibitor II reduced the rate of mineral deposition, but did not block mineral accretion. Effects were greatest during the time of mineralized matrix formation. Inhibition of phosphoprotein phosphatase activities with okadaic acid, calyculin A, and microcystin-LR, at early time points also markedly inhibited mineral accretion. Inhibition after mineralization had commenced increased the mineral yield. Levamisole, an alkaline phosphatase inhibitor, had no effect on mineral accretion in this system, suggesting the involvement of other phosphatases. Adding additional inorganic phosphate to the inhibited cultures after mineralization had started, but not earlier, reversed the inhibition indicating that the phosphatases were, in part, providing a source of inorganic phosphate. To characterize the roles of specific phosphoproteins blocking studies were performed. Blocking with anti-osteopontin antibody confirmed osteopontin's previously reported role as a mineralization inhibitor. Blocking antibodies to bone sialoprotein added from day 9 or on days 9 and 11 retarded mineralization, supporting its role as a mineralization nucleator. Antibodies to osteonectin slightly stimulated early mineralization, but had no effect after the time that initial mineral deposition occurs. Taken together, the results of this study demonstrate the importance of the phosphorylation state of extracellular matrix proteins in regulating mineralization in this culture system.
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PMID:Modulation of extracellular matrix protein phosphorylation alters mineralization in differentiating chick limb-bud mesenchymal cell micromass cultures. 1839 25


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