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)

Regulation of intestinal epithelial differentiation is critical to normal function, malignant transformation, and healing. However, the intracellular regulation of intestinal epithelial differentiation is incompletely understood. We studied the effects of intracellular cyclic AMP and cyclic GMP on brush border enzyme activity in the human Caco-2 intestinal epithelial cell using pharmacologic agonists and antagonists of cAMP and cGMP mediated pathways as probes. The stable cyclic nucleotide analogs dibutyryl cAMP and dibutyryl cGMP selectively decreased Caco-2 dipeptidyl dipeptidase specific activity while increasing alkaline phosphatase. The inhibitors of adenylate and guanylate cyclase KT5720 and KT5823 each exerted the opposite effects. Combinations of dibutyryl cAMP and dibutyryl cGMP demonstrated synergistic effects on each brush border enzyme but KT5720 and KT5823 were less than additive. Thus, cAMP and CGMP may regulate human intestinal epithelial differentiation by interacting pathways.
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PMID:Regulation of human Caco-2 intestinal epithelial brush border enzyme activity by cyclic nucleotides. 861 19

Caco-2 intestinal epithelial cells differentiate spontaneously after confluence when contact inhibition slows proliferation. We hypothesized that such reversible differentiation might be dependent on DNA synthesis and repair. We studied the effects of the topoisomerase II inhibitor etoposide on Caco-2 proliferation and on the differentiation markers alkaline phosphatase and dipeptidyl dipeptidase specific activity, as well as cell motility. Etoposide (0.3-10 microM) dose-dependently inhibited proliferation and alkaline phosphatase activity. However, etoposide (0.7-3 microM dose-dependently stimulated dipeptidyl dipeptidase activity. Above this concentration, dipeptidyl dipeptidase was also inhibited. Similar effects on enzyme activity were observed when proliferation was blocked with mitomycin C. Etoposide (1-10 microM) also dose-dependently inhibited cell motility. The selective stimulation of dipeptidyl dipeptidase activity by etoposide may offer a clue to the regulation of intestinal brush border enzyme expression at the molecular level.
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PMID:Topoisomerase II inhibition differentially modulates Caco-2 intestinal epithelial cell phenotype. 861 32

Somatostatin modulates gastrointestinal mucosal growth and differentiation indirectly via inhibition of bioactive peptides and directly by less well understood mechanisms. We studied the direct effects of the somatostatin analog octreotide on proliferation, brush-border enzyme activity, cell-matrix interactions and intracellular cAMP in Caco-2 human intestinal epithelial cells. Proliferation was assessed by cell counting and [3H]thymidine uptake. The brush-border enzymes alkaline phosphatase (AP) and dipeptidyl dipeptidase (DP) were quantitated by synthetic substrate digestion. Adhesion and migration on purified matrix proteins were also measured. Octreotide (10(-9)-10(-5)M) shortened doubling time (46.5 +/- 6.2% at 10(-5) M, n = 20, P < 0.0001) and stimulated [3H]thymidine uptake. Octreotide decreased intracellular cAMP by 19.4 +/- 5.0% (n = 7, P < 0.0001) while dibutyryl-cAMP (10(-6) M) prolonged doubling time by 10.1 +/- 1.5% (n = 8, P < 0.0001), and blocked the octreotide effect. Octreotide decreased AP and DP with maximal effect at 10(-6) M (36.8 +/- 8.3% and 20.5 +/- 9.1%, n > 7, P < 0.0005 respectively). However, mitomycin proliferative blockade prevented octreotide inhibition of AP and DP, suggesting that the mitogenic effects of octreotide had simply decreased average maturity of the cells. Octreotide did not alter Caco-2 adhesion, EGF-or matrix-modulated motility, or integrin surface expression. Octreotide appears to directly stimulate Caco-2 proliferation by decreasing cAMP. These proliferative effects modulate Caco-2 differentiation but do not affect cell-matrix interactions.
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PMID:Octreotide differentially modulates human Caco-2 intestinal epithelial cell proliferation and differentiation by decreasing intracellular cAMP. 870 Oct 39

Little is known about the effects of repetitive deformation during peristaltic distension and contraction or repetitive villus shortening on the proliferation and differentiation of the intestinal epithelium. We sought to characterize the effects of repetitive deformation of a physiologically relevant magnitude and frequency on the proliferation and differentiation of human intestinal epithelial Caco-2 cells, a common cell culture model for intestinal epithelial biology. Human intestinal epithelial Caco-2 cells were cultured on collagen-coated membranes deformed by -20 kPa vacuum at 10 cycles/minute, producing an average 10% strain on the adherent cells. Proliferation was assessed by cell counting and 3H-thymidine incorporation. Alkaline phosphatase and dipeptidyl dipeptidase specific activity were measured in cell lysates. Since cells at the membrane periphery experience higher strain than cells in the center, the topography of brush border enzyme histochemical and immunohistochemical staining was analyzed for strain-dependence. Cyclic strain stimulated proliferation compared to static cells. Proliferation was highest in the membrane periphery where strain was maximal. Strain also modulated differentiation independently of its mitogenic effects, selectively stimulating dipeptidyl dipeptidase while inhibiting alkaline phosphatase. Strain-associated enzyme changes were also maximal in areas of greatest strain. The PKC inhibitors staurosporine and calphostin C ablated strain mitogenic effects while intracellular PKC activity was increased by strain. The strain-associated brush border enzyme changes were attenuated but not blocked by PKC inhibition. Thus, strain of a physiologically relevant frequency and magnitude promotes proliferation and modulates the differentiation of a well-differentiated human intestinal epithelial cell line in an amplitude-dependent fashion. PKC may be involved in coupling strain to increased proliferation.
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PMID:Amplitude-dependent modulation of brush border enzymes and proliferation by cyclic strain in human intestinal Caco-2 monolayers. 870 83

Intestinal epithelial cells migrating across a mucosal defect are generally described as dedifferentiated, a term that suggests a loss of regulatory biology. Since cell biology may be more readily studied in established cell lines than in vivo, a model is developed using the human Caco-2 intestinal epithelial cell migrating across matrix proteins. This resembles in vivo models of mucosal healing in its sheet migration and loss of the brush border enzymes, which are conventional markers for intestinal epithelial differentiation. Immunohistochemical studies of migrating Caco-2 cells suggest, however, that the rearrangements of cytoskeletal, cell-cell and cell-matrix proteins during migration are not random but seem adapted to the migratory state. Indeed, Caco-2 migration may be substantially regulated by a variety of physiologic and pharmacologic stimuli and differentiation, measured by the specific activity of the intestinal epithelial brush border enzymes alkaline phosphatase and dipeptidyl dipeptidase, may be independently pharmacologically programmed during the stimulation or inhibition of cell motility.
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PMID:Restitution at the cellular level: regulation of the migrating phenotype. 911 47

Several mammalian enzymes are anchored to the outer surface of the plasma membrane by a covalently attached glycosyl-phosphatidylinositol (GPI) structure. These include acetylcholinesterase, alkaline phosphatase, membrane dipeptidase and 5'-nucleotidase. All GPI anchors determined to date have the conserved core structure ethanolamine-PO4-6Man alpha 1-2Man alpha 1-6Man alpha 1-4GlcNH2 alpha 1-6myo-inositol-1-PO4- lipid. In most mammalian GPI anchors the lipid is 1-alkyl-2-acyl-glycerol, although in porcine membrane dipeptidase it is diacylglycerol. Attached to the conserved core are various side chain residues that appear to be either protein- or tissue-specific. In addition to membrane attachment, a GPI anchor may confer additional properties on the protein, such as the susceptibility to cleavage by phospholipases and the potential to cluster in detergent-insoluble domains. GPI anchors can also act as intracellular targeting signals, in transmembrane signalling, in the clathrin-independent endocytic process of potocytosis and as hormone mediators. Thus, a GPI anchor can confer additional properties on enzymes that may be important in their physiological and pathophysiological functioning.
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PMID:Glycosyl-phosphatidylinositol anchored membrane enzymes. 943 83

Short-chain fatty acids produced by bacterial fermentation of dietary fiber may provide a tonic stimulus to colonocyte differentiation that contributes to the protective effect of fiber against colorectal malignancy. Since brush-border enzymes are common markers of colonocytic differentiation, we compared the effects of equimolar (10 mmol/L) concentrations of the three most common short-chain fatty acids, acetate, butyrate, and propionate, on the alkaline phosphatase and dipeptidyl dipeptidase specific activity of human colonic mucosal biopsies obtained from normal volunteers. Only butyrate significantly stimulated alkaline phosphatase specific activity (50.4% +/- 18.6%, P < .05). Short-chain fatty acid stimulation of dipeptidyl dipeptidase did not achieve statistical significance. Fibers yielding high colonic butyrate levels could have different effects on human colonic mucosal differentiation.
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PMID:Effects of short-chain fatty acids on human rectosigmoid mucosal colonocyte brush-border enzymes. 947 58

Fermentation of dietary fiber within the colonic lumen yields short chain fatty acids (SCFA) such as butyrate, which may modulate colonic mucosal biology and inhibit the development of a malignant phenotype. However, different fibers yield varying proportions of various SCFA. We studied the effects of the three most common SCFA, acetate, butyrate, and propionate, on the proliferation, adhesion, and motility of the human intestinal Caco-2 cell line, as well as the effects of these SCFA on alkaline phosphatase and dipeptidyl dipeptidase specific activity (common laboratory markers of differentiation). In addition, we examined the modulation of c-myc protein and the tyrosine phosphorylation of cellular proteins by these SCFA in order to determine whether the variations in the potency of these three SCFA for phenotypic change extended to variations in effects on intracellular signaling and protooncogene expression. All three SCFA tended to slow proliferation, promote brush border enzyme activity, and inhibit both adhesion to and motility across a type I collagen matrix substrate. However, we observed substantial differences in the potency of these three SCFA with regard to these effects. In particular, butyrate was uniformly more potent than an equimolar concentration of acetate whereas equimolar propionate achieved comparable effects with regard to proliferation and brush border enzyme activity but was intermediate between butyrate and acetate with regard to modulation of cell-matrix interactions. Similarly, the SCFA downregulated c-myc protein levels and modulated the phosphorylation of several intracellular tyrosine phosphoproteins, but the effects of the three SCFA varied substantially for these parameters. These results suggest that the common short chain fatty acids are not equipotent in their effects on human Caco-2 colon cancer cell biology. Such differences in potency could contribute to the observed differences in effects of different dietary fibers in vivo.
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PMID:Differential modulation of human (Caco-2) colon cancer cell line phenotype by short chain fatty acids. 952 Oct 97

Cammurati-Engelmann's Disease or Progressive Diaphyseal Dysplasia (PDD), is a rare autosomal dominant disorder, sometimes non hereditable, which begins in childhood, and is characterized by symmetrical excess of osseous apposition in diaphysis and metaphysis of long bones. In severe cases skull and vertebrae could be involved. Clinically, patients refer limb pain, muscular weakness and atrophy, easy fatigability and waddling gait. Later on S. Ribbing described an illness that he thought was a separate entity with sclerosis and enlargement of diaphysis of femora and tibiae, which begins after puberty, is less extensive, not always symmetric and without gait or neurological involvement. Some authors think it may be an adult form of the PDD. As no specific treatments are available we report one case of each entity, treated with the bisphosphonate pamidronate, by the oral route. A white female, 69 years old, with clinic and radiology of Ribbing's Disease, had positive scintigraphy in the affected areas and elevated bone biochemical markers: Serum alkaline phosphatase (SAP): 57 UKA. Total urinary hydroxyproline (THP): 60 mg/24 h. Bone Gla protein (BGP): 40 ng/ml. Considering the high bone turnover treatment with oral pamidronate, 400 mg/day plus Calcium 1g/day was started, dose was then progressively reduced. After two months pain almost disappeared, and THP became normal: 14 mg/24 h; with normalization of BGP values: 8 ng/ml, and a decrease of SAP: 21 UKA, 99mTc MDP uptake by affected bones decreased after 1 year of treatment. Because of these results we decided to begin treatment in a white female 17 years old, 32 kg weight, 1.47 m height with PDD characteristics and also a high bone turnover (THP: 95 mg/24 h. SAP: 32 UKA). After six months of Calcium 1 g/day, given with meals, and oral pamidronate 100 mg/day, she became painless with normal strength and gait, almost normalization of THP (48 mg/24 h). Although a small decrease of SAP, and no charges in scintigraphy. These results obtained with pamidronate suggest that it may be useful to treat dysplasias with high bone turnover.
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PMID:[Clinical, humoral and scintigraphic assessment of a bisphosphonate as potential treatment of diaphyseal dysplasia: Ribbing and Cammurati-Engelmann diseases]. 956 56

Mucosal pH abnormalities are associated with anastomotic dehiscence, ischemia, and malignancy. We postulated that intraluminal pH influences intestinal epithelial motility, proliferation, and differentiation and studied extracellular pHo (7.0-8.5) effects on human (Caco-2) intestinal epithelial motility, proliferation, and differentiation. Mucosal healing was modeled by sheet migration and differentiation by alkaline phosphatase and dipeptidyl dipeptidase specific activity. In parallel differentiation and motility studies, we inhibited proliferation with mitomycin to dissociate indirect mitogenic effects. Intracellular pHi was quantitated using BCECF/AM at varying extracellular pHo and in migrating cells. Motility was maximal at pHo 7.6 and proliferation at 7.2. Each decreased with acidity and alkalinity. By contrast, brush border enzyme activity was lowest at pHo 7.0 and highest at pHo 8.5. pHi was highest at pHo 8.5. Migrating cell pHi was higher than static cell pHi. Thus, extracellular pHo deviations perturb Caco-2 pHi homeostasis and motility. Alkalinity promotes differentiation while acidity induces proliferation and limits differentiation.
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PMID:Differential effects of mucosal pH on human (Caco-2) intestinal epithelial cell motility, proliferation, and differentiation. 969 Mar 92


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