Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Alkaline phosphatases (ALPase) (orthophosphoric-monoester phosphohydrolase, EC 3.1.3.1) are implicated in many biologic phenomena including ossification and differentiation of human neutrophils and choriocarcinoma cells. Another trait, demonstrated by microinjection into Xenopus oocytes, is their ability to block the first mitotic division. Previous work in our laboratory has established that ALPase is also present on murine B lymphocytes activated by either polyclonal mitogens or Th cells. We have now characterized the ALPase present on murine B cells as belonging to the liver-bone-kidney isoenzyme and found it to be implicated in B cell differentiation into antibody secretion. Thus, B cell proliferative responses, elicited either by high concentrations of rabbit anti-IgM antibodies or by LPS in the presence of PMA, are characterized by the lack of both antibody secretion and expression of ALPase activity. In contrast, B cells stimulated to differentiate into Ig-secreting cells by B cell differentiation factors, nearly in the absence of a proliferative response, express high levels of ALPase activity, as did those that were LPS-stimulated. These data showing the association of the ALPase expression with the process of B cell differentiation into antibody-secreting cells are discussed in the context of the possible role that phosphorylation-dephosphorylation mechanism may play in controlling the growth/differentiation rate in the B cell lineage.
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PMID:Expression of alkaline phosphatase in murine B lymphocytes. Correlation with B cell differentiation into Ig secretion. 278 37

Reversible endotoxic shock was induced in adult rats by i.v. injection of Escherichia coli O111:B4 lipopolysaccharide (1.6 mg/100 g). The shock progression was evaluated by measuring serum glucose levels as well as activities of aspartate aminotransferase (GOT) and alkaline phosphatase in serum. A rapid increase of serum glucose levels occurs, after LPS injection, followed by hypoglycaemia (minimum values at 6 h) with progressive reversion to control values. Serum GOT activity increased (twofold) 6 h after endotoxin administration and returned to control values at 72 h. No appreciable changes occurred in serum alkaline phosphatase activity. Endotoxaemia produced a decrease in the cytochrome P-450 levels in all target organs considered: lung, adrenal glands and liver. The progressive decrease in the serum albumin concentration as well as changes of the physical properties of the plasma membranes observed in vivo, can not be explained only by direct interaction of endotoxin with the target organs, underlining the importance of serum mediators in the induction of the shock response.
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PMID:Induction of reversible shock by Escherichia coli lipopolysaccharide in rats. Changes in serum and cell membrane parameters. 306

Guinea pigs were immunized subcutaneously with highly purified bovine retinal S antigen (SAg) in complete Freund's adjuvant and treated from day 0 with cyclosporin A (CsA; 25 mg/kg by mouth) or drug vehicle. Skin tests carried out at 7 and 13 days showed maximal reactions to SAg at 24 h; at 13 days, however, strong, early, 'Arthus'-like responses to SAg were also recorded. CsA profoundly reduced DTH skin reactions to SAg and PPD, and prevented vitreal inflammation assessed at 17 days and retinal damage. Lymphocytes from the draining lymph nodes but not spleens of immunized guinea pigs showed a proliferative response to SAg which was suppressed by CsA administration. Responses to PHA, Con A or LPS were not so affected. Immunohistochemical staining (alkaline phosphatase-anti-alkaline phosphatase; APAAP) of the eye with newly available monoclonal antibodies to guinea pig T lymphocytes revealed a predominantly T cytotoxic/suppressor cell (Tc/s) infiltrate of the choroid and retina. CsA administration did not affect choroidal infiltration of Tc/s cells but markedly inhibited Ia antigen expression.
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PMID:EAU in the guinea pig: inhibition of cell-mediated immunity and Ia antigen expression by cyclosporin A. 347 62

The correlation between murine lymphocytes blastoid transformation and alkaline phosphatase (AL-P) activity was examined. When murine spleen cells were stimulated with lipopolysaccharide, a B cell mitogen, for 48 h, the AL-P activity was induced in a dose dependent manner. Similarly, stimulation of the spleen cells with Concanavalin A (Con A), a T cell mitogen, induced the AL-P activity. However, when the thymocytes were treated with Con A, only the [3H]dThd uptake was increased. Other B cell mitogens, such as lipid A and fungal B cell mitogens, and T cell mitogen, Pusum sativum agglutinin (PSA) also induced the AL-P activity of spleen cells. Kinetics of [3H]dThd uptake and induction of AL-P was similar. Correlation coefficients between [3H]dThd uptake and AL-P activity were r = 0.98789, p less than 0.01 for LPS, r = 0.99530, p less than 0.01 for lipid A and r = 0.62595, p less than 0.001 for the fungal B cell mitogens. The AL-P activity of the spleen cell was also induced by treatment with Con A sup, which was a supernatant fluid prepared by spleen cell cultured with Con A for 48 h, containing various lymphokines. These findings suggest that the AL-P activity was induced in the case of B lymphocyte blast transformation when stimulated directly with B cell mitogen or indirectly via lymphokines with T cell mitogen. Measurement of the AL-P activity would be a useful method to assay murine blastoid lymphocytes.
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PMID:Induction of alkaline phosphatase activity in murine spleen cells treated with various mitogens. 349 May 61

Alkaline phosphatase activity was assayed by a microtiter assay (with p-nitrophenylphosphate used as substrate) in the plasma membrane of mouse spleen cells activated in vitro by the B cell mitogen LPS and the T cell-dependent B cell mitogen, PWM. No activity was detected in spleen cells cultured in the presence of the T cell mitogens PHA and Con A. This alkaline phosphatase activity was detected in the blast-enriched 30 to 40% fraction of discontinuous Percoll gradients in LPS-treated cultures, and the enzymatic activity assayed was susceptible to inhibition by the alkaline phosphatase inhibitors EDTA and L-phenylalanine. These data support the idea that the membrane alkaline phosphatase activity could be used as a marker for activated B cells.
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PMID:Alkaline phosphatase activity as a membrane marker for activated B cells. 680 66

The results concerning LPS priming and inactivation are summarized in table 4. This table clearly shows that priming by and inactivation of LPS are mediated via different pathways, because there is no correlation whatsoever between priming and inactivation. LPS priming nicely correlates with CD14 expression. Monocytes express high levels of CD14, and are highly sensitive to LPS. Neutrophils express lower levels of CD14, and also require a higher concentration of LPS to obtain a primed state. Eosinophils express even lower levels of CD14 (if any), and these cells are not primed by LPS up to 150 ng/ml in the presence of serum (data not shown). [table: see text] The inactivation experiments were performed with LPS, but unpublished results from M. Pabst et al. show the same phenomenon with synthetic lipid A. This indicates that the inactivation of LPS is caused by a modification of the lipid A moiety of LPS. As a first step, we tested the hypothesis that the inactivation of LPS is a dephosphorylation of lipid A by alkaline phosphatase (AP). However, AP activity in isolated neutrophils of one of the PNH patients was completely undetectable. Nevertheless, these neutrophils were able to inactivate LPS. This result clearly shows that AP is not the enzyme that inactivates LPS. Secondly, we measured neutral pH 7 phosphatase both in whole cells, and in cell lysate. All cell types tested (neutrophils, eosinophils and monocytes) contained comparable levels of pH 7 phosphatase, but only neutrophils were able to inactivate LPS.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Phosphatidyl-inositol-linked CD14 is involved in priming of human neutrophils by lipopolysaccharide (LPS), but not in the inactivation of LPS. 753 Mar 66

CD14 is a glycosylphosphatidylinositol (GPI)-anchored protein on the surfaces of monocytes and polymorphonuclear leukocytes (PMN) that binds and initiates cellular responses to bacterial LPS. PMN also contain an intracellular pool of CD14 that can be deployed rapidly to the cell surface in response to stimulation with a variety of agonists. To determine which of the well-characterized subcellular compartments of PMN contains CD14, cells were cavitated and fractionated on Percoll gradients. The gradient fractions were assayed for CD14 by ELISA and Western blot and for the marker proteins beta-glucuronidase (azurophil granules), vitamin B12 binding protein (specific granules), alkaline phosphatase (secretory vesicles and plasma membrane), and HLA (plasma membrane). Approximately one-half of the CD14 ran with plasma membrane fractions and one-half with intracellular membranes of light density. Both intracellular and cell surface CD14 were associated tightly with membrane, and both forms showed identical electrophoretic mobility. The intracellular CD14 was clearly not present in azurophil granules or specific granules, but ran precisely with alkaline phosphatase, a marker for secretory vesicles. Parallel studies showed that an additional GPI-linked protein, Fc gamma RIII (CD16), also fractionated precisely with CD14 and alkaline phosphatase. Association of CD14 with secretory vesicles were confirmed by studies on cells stimulated with the formyl peptide fNLLP for 20 min at 37 degrees C before fractionation. This treatment caused translocation of CD14 from intracellular fractions to plasma membrane fractions. No release of the specific granule marker vitamin B12 binding protein was observed under these conditions, whereas two other GPI-anchored proteins, alkaline phosphatase and CD16, moved coincidentally with CD14 to comigrate with the plasma membrane. Time course studies of CD14 and CD16 surface expression confirmed the rapid and coordinate up-regulation of these proteins. Thus, the intracellular compartment containing CD14 and CD16 had the properties of secretory vesicles. These vesicles may represent a specialized membrane domain of PMN enriched in GPI-anchored proteins.
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PMID:Endotoxin receptors (CD14) are found with CD16 (Fc gamma RIII) in an intracellular compartment of neutrophils that contains alkaline phosphatase. 754 38

Interleukin-1, a soluble polypeptide, plays an important role in inflammatory reactions by increasing prostaglandin E2 (PGE2) generation. Human recombinant IL-1 receptor antagonist (hrIL-1ra) is a natural inhibitor of IL-1 which blocks its activity in several inflammatory states. In these studies we found that hrIL-1ra (250 mg/ml) inhibits the generation of PGE2, as measured by RIA method, in minced mouse granuloma tissue (700 mg) treated overnight with LPS (10-1000 ng/ml) or hrIL-1 beta (0.1-10 ng/ml). In addition, we show that hrIL-1ra (250 ng/ml) strongly inhibited IL-1 alpha and IL-1 beta, as measured by ELISA method, in the minced granuloma tissue treated overnight with LPS 1 micrograms/ml or IL-1 beta (10 ng/ml). The granuloma tissue induced in mice by a dorsal subcutaneous injection (0.2 ml) of a saturated solution (1:40 dilution) of KMnO4 crystals, presented an alkaline phosphatase activity which was not inhibited by two intraperitoneal administrations of hrIL-1ra 20 micrograms/200 ml bolus injections (given at the same time as KMnO4 injection and one 24 h later). These results show for the first time that hrIL-1ra blocks PGE2, IL-1 alpha and IL-1 beta but not alkaline phosphatase activity, which is a marker in growing bone and in calcific and inflamed tissue.
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PMID:Human recombinant interleukin-1 receptor antagonist (hrIL-1RA) inhibits prostaglandin E2 (PGE2) generation but not alkaline phosphatase activity in in vivo chronic granulomatous tissue induced by KMnO4. 822 2

By searching the expressed sequence tag (EST) database, we identified partial cDNA sequences encoding a polypeptide with significant sequence identity to the human CC chemokine macrophage-inflammatory protein-1 alpha (MIP-1 alpha)/LD78 alpha. We determined the complete cDNA sequence that contained a reading frame of 89 amino acids with 61% identity to human MIP-1 alpha/LD78 alpha. The mRNA was expressed constitutively at high levels in human lung and at low levels in some lymphoid tissues. Furthermore, the mRNA was strongly induced in several human cell lines, including monocytic U937 cells, by PMA. From these results, we designated this novel CC chemokine as PARC from pulmonary and activation-regulated chemokine. In situ hybridization analyses showed that alveolar macrophages, follicular dendritic cells in the germinal centers of regional lymph nodes, and peripheral blood monocytes stimulated with LPS express PARC mRNA. Using the human CC chemokine yeast artificial chromosome contig that we constructed recently, we mapped the PARC gene (SCYA18) within one of the two subregions of the CC chemokine gene cluster at chromosome 17q11.2. To investigate its biologic activity, the PARC protein was expressed in insect cells. PARC was chemotactic for both activated (CD3+) T cells and nonactivated (CD14-) lymphocytes, but not for monocytes or granulocytes. Binding analysis using PARC fused with alkaline phosphatase-(His)6 showed the presence of a single class of receptors for PARC on lymphocytes with a Kd of 1.9 nM and 590 sites/cell. Thus, PARC is a novel CC chemokine with a close phylogenic relationship with MIP-1 alpha/LD78 alpha, but with a highly selective activity on lymphocytes.
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PMID:A novel human CC chemokine PARC that is most homologous to macrophage-inflammatory protein-1 alpha/LD78 alpha and chemotactic for T lymphocytes, but not for monocytes. 923 7

We studied the production of interleukin-1 (IL-1) by peripheral blood monocytes (Mo) from twelve normal subjects (NS) and eight and nine untreated lung and colorectal cancer patients (CP), respectively. No significant changes of extracellular IL-1 biological activity was observed between CP and NS by thymocyte proliferation assay. This result was independent that the cells were treated or not with lipopolisaccharide from E. coli (LPS, 10 micrograms/ml). Moreover, CP present normal amount of antigenic IL-1 beta in LPS treated Mo culture supernatants by enzyme-linked immunosorbent assay (ELISA). The biological activity of IL-1 released was not significant modified after indomethacin (Indo, 10(-6)M) and LPS + Indo treatments. Furthermore, patients showed a low percentage of LPS activated Mo with intracytoplasmatic IL-1 (alpha + beta) compared to normal values. These results were obtained by immuno-alkaline phosphatase staining using monoclonal antibody anti IL-1 (alpha + beta). In conclusion, CP had a reduced number of Mo with intracytoplasmatic IL-1 (alpha + beta) and the difference observed may depend on degradation or in the rate of synthesis of this cytokine.
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PMID:Intracytoplasmatic and extracellular interleukin-1 production by monocytes of lung and colorectal cancer patients. 933 44


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