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)

RU 486 is a synthetic steroid that binds avidly to glucocorticoid receptors without promoting their transformation into activated transcription factors. A significant part of this behavior has been shown to be due to a failure of the RU 486 bound receptor to be efficiently released from a larger (sedimenting at 8-9 S) multimeric complex containing the 90-kDa heat shock protein. Our studies have found that in vitro at 15 degrees C the RU 486-receptor was slowly released from the 8-9S complex and converted into a DNA binding protein by a process that could be blocked by sodium fluoride. Moreover, this transition was significantly accelerated by treatment with alkaline phosphatase. High-resolution anion-exchange chromatography showed that the profile of receptor subspecies released from the 8-9S complex (in the absence of phosphatase treatment) was different for the RU 486 bound receptor when compared to the receptor occupied by the agonist triamcinolone acetonide. Production of the earliest eluting receptor form (peak A) was inhibited with RU 486. Peak A had previously been shown to be the predominant form of the receptor possessing a capacity to bind DNA. Treatment of the RU 486-receptor with alkaline phosphatase increased the formation of the peak A subspecies as well as the capacity of receptor to bind DNA-cellulose. Taken together, the results indicate that phosphorylation of the receptor or a tightly bound factor contributes to defining the capacity with which individual steroids can promote dissociation of the 8-9S complex and conversion of the glucocorticoid receptor into a DNA-binding protein.
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PMID:Transformation of glucocorticoid receptors bound to the antagonist RU 486: effects of alkaline phosphatase. 226 52

We have examined the potential for using calf uterine progesterone receptor (PR) as a substrate for phosphorylation by cAMP-dependent protein kinase (cAMP-PK), PR was found to interact with anti-PR monoclonal antibody alpha PR6 (Sullivan et al., 1986), which was to immunopurify the receptor. Protein staining of the purified preparation revealed the presence of two major bands corresponding to 114 kDa and 90 kDa peptides; only 114 kDa peptide could be photoaffinity-labeled with R5020. The 90 kDa peptide co-migrated with 90 kDa heat shock protein (hsp-90) precipitated by anti-hsp-90 monoclonal antibody AC88 (Riehl et al., 1985). Incubation of the immunopurified protein-A-Sepharose-adsorbed PR with the catalytic subunit of cAMP-PK in the presence of gamma-[32P]ATP and divalent cations resulted in a Mg++-dependent incorporation of 32P-radioactivity into both the 114 kDa and the hsp-90 peptides. Small 32P-incorporation was also seen in the 114 kDa peptide in the presence of Mn++. A 60 degrees C preincubation of immunopurified PR increased the extent of phosphorylation of the hsp-90 peptide. A pretreatment with alkaline phosphatase reduced the ability of PR to act as a substrate while the steroid occupancy of PR appeared to enhance the phosphorylation of the 114 kDa peptide. The differential cation requirement for the phosphorylation of 114 kDa and hsp-90 peptides and a selective hormone-dependent increase in the phosphorylation of the 114 kDa peptide suggest a possible role of phosphorylation in mediating progesterone action in the calf uterus.
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PMID:Phosphorylation of calf uterine progesterone receptor by cAMP-dependent protein kinase. 254 44

The Ah receptor binds aryl hydrocarbons such as 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD) with high affinity. After binding aryl hydrocarbons, the receptor releases the 90-kDa heat shock protein and forms a dimer with the Arnt protein capable of binding at xenobiotic-responsive elements (XREs) and stimulating the transcription of genes involved in the metabolism of aryl hydrocarbons. The activity of the Ah receptor/ Arnt dimer can be decreased by treatments causing the down-regulation of protein kinase C and decreasing the nuclear accumulation of the receptor. Incubation with acid phosphatase or with alkaline phosphatase has been reported to block XRE binding. Thus the literature suggests that phosphorylation regulates Ah receptor activity by affecting DNA binding and/or nuclear transport. A reporter plasmid containing two XREs was used to investigate the effects of phosphatase inhibitors on TCDD-dependent transcription by the Hepa-1 mouse liver cell line. The inhibitors calyculin A and okadaic acid caused two- to threefold increases in TCDD-dependent transcription at concentrations capable of selectively inhibiting protein phosphatase 1 and protein phosphatase 2A. The inhibitor cyclosporin A doubled TCDD-dependent transcription at a concentration capable of selectively inhibiting protein phosphatase 2B. All three of the phosphatase inhibitors increased TCDD-dependent transcription without affecting transcription in the absence of TCDD. Nuclear extracts were prepared from cells treated with concentrations of okadaic acid or cyclosporin A which substantially stimulated TCDD-dependent transcription. Neither of the inhibitors significantly increased the level of TCDD-dependent XRE binding in the extracts. GAL4-Arnt fusion proteins were used to further investigate whether the phosphatase inhibitors affected a step other than DNA binding. Okadaic acid treatment specifically increased the ability of a GAL4 fusion protein containing the Arnt PAS and transactivation domains to stimulate transcription. These results suggest that serine/threonine-specific protein phosphatases can act at a level subsequent to XRE binding to inhibit the ability of the Ah receptor/Arnt dimer to stimulate transcription.
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PMID:Inhibitors of serine/threonine-specific protein phosphatases stimulate transcription by the Ah receptor/Arnt dimer by affecting a step subsequent to XRE binding. 912 79

A ubiquitously expressed nuclear receptor-associating protein of approximately 46 kDa (RAP46) was identified recently. Interaction experiments with in vitro-translated proteins and proteins contained in cell extracts revealed that a great variety of cellular regulators associate with RAP46. However, in direct interaction tests by the far-Western technique, only 70 kDa proteins showed up and were identified as members of the 70 kDa heat shock protein (hsp70) family. Interaction is specific since not all members of the hsp70 family bind to RAP46; interaction occurs through their ATP-binding domain. RAP46 forms complexes with hsp70 in mammalian cells and interacts with hsp70 in the yeast two-hybrid system. Consistent with the fact that hsp70 can bind a multitude of proteins, we identified heteromeric complexes of RAP46-hsp70 with some selected proteins, most notably c-Jun. Complex formation is increased significantly by pre-treatment with alkaline phosphatase, thus suggesting modulation of interactions by protein phosphorylation. We observed that RAP46 interferes with efficient refolding of thermally denatured luciferase. Moreover, ATP-dependent binding of misfolded proteins to hsp70 was greatly inhibited by RAP46. These data suggest that RAP46 functions as a regulator of hsp70 in higher eukaryotes.
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PMID:Mammalian protein RAP46: an interaction partner and modulator of 70 kDa heat shock proteins. 931 7

Monolayers of the porcine-derived renal epithelial cell line, LLC-PK1, were used to characterize the effects of heat stress on Na+-glucose cotransport. Transepithelial current dependent on 5 mM glucose (I(Glc)), phloridzin-sensitive current (I(phz)), and total transepithelial current (I(total)) were measured as indicators of Na+-glucose cotransport. Severe heat shock (SHS; 45 degrees C for 1 h, then 37 degrees C for measurements) decreased transepithelial electrical resistance (TER), I(Glc), I(phz), and I(total) 50-70%. Mild heat shock (MHS; 42 degrees C for 3 h, then 37 degrees C for 12 h) induced accumulation of 72-kDa heat shock protein (HSP-72), decreased damage to TER from SHS, and prevented damage to I(Glc), I(phz), and I(total). Kinetic analysis showed that SHS damaged and MHS protected total Na+-glucose transport capacity (Vmax of I(Glc)). MHS alone increased TER (50%), I(Glc) (20%), I(total) (20%), and Vmax of I(Glc) (25%). On enhancement of the Na+ gradient by depletion of intracellular Na+, MHS increased I(Glc) 50% and had no effect on transepithelial Na+-dependent sulfate reabsorptive flux measured concurrently or in Na+-replete tissues. These effects of MHS were not reflected in effects on cell survival or luminal membrane surface area as indicated by lactate dehydrogenase or alkaline phosphatase release. In conclusion, HSP-72-inducing heat treatment both protected and enhanced Na+-glucose cotransport independently of the luminal membrane Na+ gradient and selectively with respect to effects on TER, reabsorptive sulfate transport, cell survival, and luminal membrane surface area.
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PMID:Heat shock-induced protection and enhancement of Na+-glucose cotransport by LLC-PK1 monolayers. 936 30

The epsilon 4 allele of apolipoprotein E (APOE) is strongly associated with late-onset Alzheimer's disease (AD) in Caucasian populations, but our studies suggest that APOE epsilon 4 is not a risk factor for AD in Nigerian blacks and is a weak risk factor in African-Americans. The prevalence of AD is lower in Nigerians than in African-Americans. Increased oxidative damage to macromolecules in brain tissue by reactive oxygen species (ROS) has been reported in AD. Here we examined the effects of endogenous and induced oxidative stress on total (nuclear and mitochondrial) DNA damage in lymphoblastoid cell lines (5 probable AD and 3 controls) from Ibadan, Nigeria. Cells were exposed to 200 microM t-butyl peroxide (a generator of ROS) for 4 hours. Total DNA was isolated and digested with nuclease P1 and alkaline phosphatase. DNA fragments were separated by HPLC and the levels of 8-hydroxy-2'-deoxyguanosine (OH8dG, an indicator of DNA damage) and deoxyguanosine (dG) determined. We did not detect a significant difference in the OH8dG/dG ratio in untreated or treated cell lines in the two groups, and this was independent of APOE genotype. We also examined, by Western blotting, the level of beta-amyloid precursor protein (APP) which is involved in AD. The level of the heat shock protein (HSP-70) was examined as a control. There was a slight decrease in levels of APP and HSP-70 following treatment. Studies in cell lines from Caucasian subjects have shown an increase in mitochondrial DNA damage following oxidative challenge. Our preliminary results suggest that African populations are less vulnerable to chemical-induced oxidative DNA damage.
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PMID:Effect of oxidative stress on DNA damage and beta-amyloid precursor proteins in lymphoblastoid cell lines from a Nigerian population. 1067 60

We investigated the cellular localization of caveolin, a landmark protein of caveolae, by indirect immunofluorescence after heat shock or hyperosmotic shock. Caveolin was internalized to the perinucleus by heat shock (43 degrees C) and relocalized in the plasma membrane after recovery of NIH3T3 cells at 37 degrees C for 4 h. The caveolin internalization was also observed after cells were exposed to hyperosmotic shock. Caveolin disappeared from detergent-insoluble complexes in the heat-shocked cells, but alkaline phosphatase was still there, suggesting that their responses to heat shock are quite different even though both of them were enriched in detergent-insoluble complexes of normal cells. Caveolin was internalized by the actin depolymerizer cytochalasin D, but not by the tubulin depolymerizer nocodazole. In addition, cellular exposure to hydrogen peroxide caused caveolin internalization along with disintegrated microfilaments and intact microtubules. Since cellular exposure to heat shock showed disintegrated microfilaments but intact microtubules, caveolin internalization might be due to depolymerized microfilaments. When cells were exposed to heat shock and allowed to recover for 4 h, actin depolymerization and caveolin internalization were not induced by a second heat shock, suggesting that some heat shock protein(s) might prevent actin depolymerization and caveolin internalization.
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PMID:Caveolin internalization by heat shock or hyperosmotic shock. 1069 37

Recently, we documented that the short, proline-rich antibacterial peptides pyrrhocoricin, drosocin, and apidaecin interact with the bacterial heat shock protein DnaK, and peptide binding to DnaK can be correlated with antimicrobial activity. In the current report we studied the mechanism of action of these peptides and their binding sites to Escherichia coli DnaK. Biologically active pyrrhocoricin made of L-amino acids diminished the ATPase activity of recombinant DnaK. The inactive D-pyrrhocoricin analogue and the membrane-active antibacterial peptide cecropin A or magainin 2 failed to inhibit the DnaK-mediated phosphate release from adenosine 5'-triphosphate (ATP). The effect of pyrrhocoricin on DnaK's other significant biological function, the refolding of misfolded proteins, was studied by assaying the alkaline phosphatase and beta-galactosidase activity of live bacteria. Remarkably, both enzyme activities were reduced upon incubation with L-pyrrhocoricin or drosocin. D-Pyrrhocoricin, magainin 2, or buforin II, an antimicrobial peptide involved in binding to bacterial nucleic acids, had only negligible effect. According to fluorescence polarization and dot blot analysis of synthetic DnaK fragments and labeled pyrrhocoricin analogues, pyrrhocoricin bound with a K(d) of 50.8 microM to the hinge region around the C-terminal helices D and E, at the vicinity of amino acids 583 and 615. Pyrrhocoricin binding was not observed to the homologous DnaK fragment of Staphylococcus aureus, a pyrrhocoricin nonresponsive strain. In line with the lack of ATPase inhibition, drosocin binding appears to be slightly shifted toward the D helix. Our data suggest that drosocin and pyrrhocoricin binding prevents the frequent opening and closing of the multihelical lid over the peptide-binding pocket of DnaK, permanently closes the cavity, and inhibits chaperone-assisted protein folding. The biochemical results were strongly supported by molecular modeling of DnaK-pyrrhocoricin interactions. Due to the prominent sequence variations of procaryotic and eucaryotic DnaK molecules in the multihelical lid region, our findings pave the road for the design of strain-specific antibacterial peptides and peptidomimetics. Far-fetched applications of the species-specific inhibition of chaperone-assisted protein folding include the control of not only bacteria but also fungi, parasites, insects, and perhaps rodents.
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PMID:The antibacterial peptide pyrrhocoricin inhibits the ATPase actions of DnaK and prevents chaperone-assisted protein folding. 1125 15

Bone formation has been shown to be stimulated by local diathermy in vivo; however, the mechanisms involved in this heat-induced osteogenesis are unclear. In this study, we investigated the direct effect of temperature on human bone marrow-derived stromal cells (BMSCs) and the human osteoblast-like, osteosarcoma-derived MG-63 cells in culture conditions. Both cell types were shown to tolerate the transient exposure to mild heat shock conditions (1 h at 39-41 degrees C), and long-term (96 h) exposure at 39 degrees C stimulated DNA synthesis in BMSC but caused growth arrest in MG-63 cells. Furthermore, 1-h exposure to higher temperatures (42.5-45 degrees C) or continuous 96-h exposure to 40 degrees C or 41 degrees C inhibited the proliferation of both BMSCs and MG63 cells. The level of alkaline phosphatase (ALP) in these cells linearly correlated with the increase in temperature, and the ALP expression, either at the basal level or in response to 1,25-dihydroxyvitamin D3 [1,25(OH)2D3], was enhanced after a single 1-h exposure to 42.5 degrees C. In addition, continuous incubation at 39 degrees C or repeated transient exposure to 39/41 degrees C greatly enhanced the ability of BMSCs to form mineralizing nodules. The heat shock protein HSP70, which was expressed constitutively by BMSCs, was found to be up-regulated by hyperthermia (39 degrees C) and down-regulated at 33 degrees C. The expression of HSP70 could be induced in MG-63 cells by both low- and high-temperature conditions. These data suggest that treatment with a mild heat shock induces the proliferation and differentiation of osteoprogenitor cells, and the direct effects of temperature on bone-forming cells might be one of the mechanisms involved in heat-induced bone formation in vivo.
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PMID:Mild heat shock induces proliferation, alkaline phosphatase activity, and mineralization in human bone marrow stromal cells and Mg-63 cells in vitro. 1131 1

In order to establish whether tissues damaged by Chronic Periapical Pathology (CPP) of endodontic origin produced heat shock protein (HSP) capable of attracting reactive lymphocytes, paraffin sections of samples from the oral cavity of 10 patients with CPP were incubated with commercially available anti-HSP monoclonal antibodies. Antibodies were evidenced employing the alkaline phosphatase immunoenzymatic method (DAKO). HSP was found in the lamina propria infiltrated by lymphocytes, in six of the ten samples. These results suggest that HSP may be one of the lymphocyte recruiting factors in the damaged area and opens new possibilities for further research.
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PMID:Presence of heat shock protein in chronic periapical pathology of pulpal origin. 1188 52

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