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)

Experiments were performed in vivo and in vitro to determine the effects of enalaprilat, a specific inhibitor of angiotensin-converting enzyme, on various aspects of the decidual cell reaction in rats. Ovariectomized, adult female rats were sensitized for the decidual cell reaction with steroid treatments. For in vivo experiments, intrauterine infusions of enalaprilat alone, and in combination with angiotensin II and prostaglandin E2 (PGE2), were initiated on the day of uterine sensitivity. Enalaprilat inhibited the increases in uterine PG concentrations, endometrial vascular permeability, alkaline phosphatase activity and uterine weight that occurred sequentially following infusion of vehicle. Concurrent infusion of angiotensin II did not reverse any of these inhibitory effects; PGE2 infusion partially, but not completely, reversed the inhibition of increase in uterine weight, although it did not alter the inhibition of endometrial vascular permeability. For in vitro experiments, endometrial stromal cells were obtained from uteri on the day of sensitivity and cultured for up to 3 days in the presence of enalaprilat and angiotensin II. Enalaprilat inhibited in a dose-dependent manner the increases in stromal cell alkaline phosphatase activity and media PGE concentration that occurred in the control cultures; these effects were fully reversed by concurrent treatment with angiotensin II. The inhibition of stromal alkaline phosphatase activity was also reversed by PGE2; conversely, the ability of angiotensin II to reverse the effect of enalaprilat was lost in the presence of indomethacin. These studies provide evidence of a requirement for angiotensin II during the decidual cell reaction in rats and suggest that it acts, at least in part, through a PG-dependent mechanism.
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PMID:Evidence for a role for a uterine renin-angiotensin system in decidualization in rats. 132 28

Prostaglandin (PG) E2, known as a bone-resorption factor, was released as a predominant arachidonate metabolite in the culture medium of an osteoblastic cell line cloned from mouse calvaria (MC3T3-E1). Epidermal growth factor (EGF) (10 ng/ml) prominently enhanced endogenous PGE2 synthesis, requiring the simultaneous presence of unidentified factor(s) contained in bovine serum. PGE2 synthesis increased after a lag phase for 1-2 h and reached a maximum level at about 3 h after EGF addition. EGF-stimulated PGE2 synthesis was almost completely blocked by 10 microM cycloheximide or 1 microM actinomycin D. Furthermore, when the cells were pretreated with EGF, the microsomes exhibited an increased activity of fatty acid cyclooxygenase (arachidonic acid----PGH2), whereas the activity of PGE synthase (PGH2----PGE2) remained unchanged. These results suggested an EGF-mediated induction of cyclooxygenase. Following increased PGE2 synthesis, DNA synthesis increased and alkaline phosphatase activity decreased in a slower response to EGF. PGE2 (above 0.1 microM) added to the cells could replace EGF. However, such effects of EGF on the osteoblasts could not be attributed totally to an autocrine function of PGE2 produced by stimulation with EGF because these effects of EGF were not abolished by indomethacin, which blocked the PGE2 synthesis.
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PMID:Stimulation of prostaglandin E2 synthesis in cloned osteoblastic cells of mouse (MC3T3-E1) by epidermal growth factor. 309 86

A manifest clinical response has been achieved in 38 patients with chronic enteritis kept on apple diet in the form of apple powder produced from apple juice refuse. Carbohydrate loading with starch (polysaccharide), saccharose (disaccharide), glucose (monosaccharide), d-xylose made it clear that the apple powder improves hydrolysis and carbohydrate absorption: by 30%, 23%, 32% and 40% for starch, saccharose, glucose and d-xylose, respectively. Attenuation of the inflammation in the small intestine was also evident from the tendency to normalization of some fecal intestinal enzymes activity (entero-kinase, alkaline phosphatase). Changes in the systems PGE-cAMP and PGF-cGMP are suggested to play a role in the emergence of malabsorption syndrome, diarrhea, structural lesions in small intestinal mucosa.
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PMID:[Apple powder in the treatment of patients with chronic enteritis]. 797 20

Six healthy horses were anaesthetised with halothane (1.2 times the horse minimal alveolar concentration) in oxygen for more than 12 hours. Serum bilirubin, aspartate aminotransferase, alkaline phosphatase and L-iditol dehydrogenase values were significantly (P < 0.05) increased for up to nine days after anaesthesia. These changes suggest an anaesthesia related liver dysfunction. Creatine kinase increased to an average of more than 1400 IU litre-1 24 hours after anaesthesia and this change is indicative of muscle cell disruption. Renal-associated biochemical results, (that is serum creatinine and inorganic phosphate concentrations) were significantly increased transiently and are indicative of reduced renal function during and immediately after anaesthesia. Plasma concentrations of eicosanoids (6-keto-PGF1a, PGF2a, PGE and thromboxane) following anaesthesia were not different from preanaesthetic values. The magnitude of liver and muscle cell related increases in serum enzyme activities resulting from prolonged halothane anaesthesia was in excess of that previously reported for anaesthesia of shorter duration.
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PMID:Biochemical and haematological changes following prolonged halothane anaesthesia in horses. 828 98

PGE2 is one of the key molecules in the osteoblast. It is the major prostanoid in the bone, and its production is under the control of both systemic and local factors. PGE2 has been reported to have multiple actions in the osteoblast, such as growth promotion and cell differentiation. To better understand the action of PGE2 in the osteoblast, we determined the PGE receptor subtypes in MC3T3-E1, an osteoblastic cell line derived from the normal mouse calvaria. Northern blot analysis revealed that EP1 and EP4 subtypes are expressed in MC3T3-E1. In contrast, EP3 subtype was not detected by either Northern blot analysis or RT-PCR. The contribution of each subtype was evaluated by studying the effects of subtype-specific analogs on osteoblastic function at confluency and 5 days after confluency. An EP1 agonist, 17-phenyl-omega-trinor PGE2, increased DNA synthesis and decreased alkaline phosphatase activity. 11-Deoxy-PGE1, and EP2 and EP4 agonist, decreased DNA synthesis and increased alkaline phosphatase activity at both stages. Butaprost, an EP2-selective agonist, showed effects similar to those of 11-deoxy-PGE1 only at confluency. Another and more differentiated osteoblastic marker, osteocalcin production, was detectable and was stimulated by 11-deoxy-PGE1 only 5 days after confluency. The exposure of these cells to EP1 agonist changed the cell shape to a more fibroblastic appearance. These results indicate that EP1, EP4, and probably EP2 are present in MC3T3-E1 cells; EP1 promotes cell growth, and EP2 and EP4 mediate differentiation of the osteoblast. Furthermore, the decreased response to EP2-specific agonist 5 days after confluency suggests that the expression of PGE receptor subtype is dependent on the stage of osteoblastic differentiation. This is the first report to determine PGE receptor subtypes in the bone.
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PMID:Prostaglandin E receptor subtypes in mouse osteoblastic cell line. 861 4

Implant surface roughness influences osteoblast proliferation, differentiation, and local factor production. Moreover, the responsiveness of osteoblasts to systemic hormones such as 1, 25-(OH)(2)D(3) is altered by the effects of surface roughness; on the roughest Ti surfaces the effects of roughness and 1, 25-(OH)(2)D(3) are synergistic. Prostaglandin E(2) (PGE(2)) appears to be involved in mediating the effects of surface roughness on the cells, as well as in the response to 1,25-(OH)(2)D(3). However, it is not yet known through which signaling pathways surface roughness exerts its effects on the response of osteoblasts to 1, 25-(OH)(2)D(3). The present study examined the potential role of protein kinase A (PKA), phospholipase A(2)(PLA(2)), and protein kinase C (PKC) in this process. MG63 osteoblast-like human osteosarcoma cells were cultured on cpTi disks with R(a) values of 0. 54 microm (PT), 4.14 microm (SLA), or 4.92 microm (TPS). PKA was inhibited by adding H8 to the cultures; similarly, PLA(2) was inhibited with quinacrine or activated with melittin, and PKC was inhibited with chelerythrine. Inhibitors or activators were included in the culture media through the entire culture period or for the last 24 h of culture. In addition, cultures were treated for 24 h with inhibitors or activators in the presence of 1,25-(OH)(2)D(3). The effects on cell number and alkaline phosphatase specific activity were determined after 24 h; PKC activity was determined after 9 min and at 24 h. Cell number was reduced on rough surfaces, and alkaline phosphatase activity was increased. 1,25-(OH)(2)D(3) had a synergistic effect with surface roughness on alkaline phosphatase. However, neither surface roughness nor 1,25-(OH)(2)D(3) had an effect on PKC. H8 treatment for 24 h inhibited cell number and alkaline phosphatase on all surfaces; however, when it was present throughout the culture period, the PKA inhibitor had no effect on cell number, but decreased alkaline phosphatase-specific activity. H8 reduced the 1,25-(OH)(2)D(3)-mediated effect on cell number and alkaline phosphatase. Quinacrine inhibited cell proliferation and alkaline phosphatase on all surfaces and further reduced the 1,25-(OH)(2)D(3)-dependent decreases in both parameters. Melittin had no effect when applied for 24 h and did not modify the 1,25-(OH)(2)D(3) effect; however, when present throughout the culture period, it caused a decrease in proliferation and an increase in enzyme activity. Chelerythrine, the PKC inhibitor, only inhibited cell proliferation when it was present throughout the entire culture period. However, it decreased alkaline phosphatase in cultures treated for 24 h, but increased enzyme activity when it was present for the entire culture period. The results indicate that surface roughness and 1,25-(OH)(2)D(3) both mediate their effects through PLA(2) which catalyzes the rate-limiting step in PGE(2) production. Further downstream, PGE(2) activates PKA. Surface roughness-dependent effects are also mediated through PKC, but only after the cells have reached confluence and are undergoing phenotypic maturation. The effect of surface roughness on responsiveness to 1,25-(OH)(2)D(3) is mediated through PLA(2)/PKA and not through PKC.
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PMID:Surface roughness modulates the response of MG63 osteoblast-like cells to 1,25-(OH)(2)D(3) through regulation of phospholipase A(2) activity and activation of protein kinase A. 1044 25

The effects of prostaglandin E(2) (PGE(2)) on the parameters for proliferation and differentiation were studied in calvarial osteoblast-like cells isolated from rats of various ages. In cells not treated with PGE(2), it was found that mineralized bone nodule (BN) formation, alkaline phosphatase (ALP) activity, and the incorporation rate of [(3)H]thymidine into the cells sharply decreased with the age of the cell donor at 6-50 weeks and then remained at a relatively constant level up to 120 weeks. Before studying the effects of PGE(2) on these parameters, we determined the change in the levels of PGE(2) produced by the untreated cells during the culture period and found that the endogenous PGE(2) reached a maximum on the 4th day of the culture, regardless of the cell donor age, followed by a sharp decrease. The endogenous production was blocked by pretreatment with a cyclooxygenase-2 (COX-2) inhibitor, NS-398, indicating the generation of PGE(2) through a COX-2 pathway. The area of BN was effectively suppressed by NS-398 in the cells from 10- to 35-week-old rats, whereas it was enhanced in the cells from 90- to 120-week-old rats. Treatment with PGE(2 )markedly increased the BN formation and the ALP activity in the cells from 4- to 35-week-old rats (defined as young rats). By contrast, PGE(2) decreased [(3)H]thymidine incorporation into the cells from young rats. The area of BN and the ALP activity decreased significantly, whereas [(3)H]thymidine incorporation into the cells increased by 60-80% in the cells of 80- to 120-week-old rats (defined as aged rats). The stimulatory effects on the cell differentiation and the inhibitory effect on the proliferation in the cells from young rats was mimicked by an EP(1) agonist, 17-phenyl-omega-trinor PGE(2), while an EP(2)/EP(4) agonist, 11-deoxy-PGE(1) and an adenylate cyclase activator, forskolin suppressed the differentiation and enhanced the proliferation regardless of the cell donor age. PGE(2), 11-deoxy-PGE(1) and forskolin, but not 17-phenyl-omega-trinor PGE(2) increased cyclic adenosine monophosphate (cAMP) production. Generation of inositol 1, 4,5-triphosphate (IP(3)) was stimulated by 17-phenyl-omega-trinor PGE(2) or PGE(2), but not by 11-deoxy-PGE(1) or forskolin increased cAMP production in the cells from young rats. By contrast, PGE(2 )had little effect on IP(3 )generation in aged rats. From the overall results, we concluded that PGE(2) exerts stimulatory and inhibitory effects on differentiation through the EP(1)-IP(3) pathway and EP(2)/EP(4)-cAMP pathway, respectively, in the cells from young rats. The EP(1)-IP(3) pathway seems to be inactive in the cells from aged rats.
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PMID:Formation of mineralized bone nodules by rat calvarial osteoblasts decreases with donor age due to a reduction in signaling through EP(1) subtype of prostaglandin E(2) receptor. 1050 94

Resting zone chondrocyte differentiation is modulated by the vitamin D metabolite, 24,25-(OH)(2)D(3), via activation of protein kinase C (PKC). In previous studies, inhibition of prostaglandin production with indomethacin caused an increase in PKC activity, suggesting that changes in prostaglandin levels may mediate the 24, 25-(OH)(2)D(3)-dependent response and act as autocrine or paracrine regulators of chondrocyte metabolism. Supporting this hypothesis is the fact that resting zone cells respond directly to prostaglandin E(2) (PGE(2)). The aim of the present study was to identify which PGE(2) receptor subtypes (EP) mediate the effects of PGE(2) on resting zone cells. Using primers specific for EP1-EP4, reverse transcription-polymerase chain reaction (RT-PCR) amplified EP1 and EP2 cDNA in a RT-dependent manner. A variant form of the EP1 cDNA, EPlv, was also amplified in an RT-dependent manner. In parallel experiments, we used EP subtype-specific agonists to examine the role of EP receptors in 24,25-(OH)(2)D(3)-mediated cell proliferation and differentiation. 17-phenyl-trinor-PGE(2) (PTPGE(2)), an EP1 agonist, increased [(3)H]-thymidine incorporation in a dose-dependent manner and reversed the 24, 25-(OH)(2)D(2)-induced inhibition of [(3)H]-thymidine incorporation. SC-19220, an EP1 antagonist, caused a further dose-dependent decrease in 24,25-(OH)(2)D(3)-induced inhibition of [(3)H]-thymidine incorporation. PTPGE(2) also caused a biphasic increase in [(35)S]-sulfate incorporation and increased alkaline phosphatase enzyme activity at high concentrations (10(-8) M). 24, 25-(OH)(2)D(3)-induced alkaline phosphatase activity was synergistically stimulated in a dose-dependent manner by PTPGE(2). In contrast, 24,25-(OH)(2)D(3)-induced PKC activity was inhibited in a dose-dependent manner by PTPGE(2) and SC-19220, the EP1 antagonist, elevated PKC activity at high concentrations (10(-8) M). The EP2 agonist, misoprostol, only affected [(35)S]-sulfate incorporation, but in a dose-dependent manner. The EP3 and EP4 agonists had no effect on cell response. These results suggest that the EP1 receptor subtype mediates some of the PGE(2)-induced cellular responses in resting zone cells that lead to both increased proliferation and differentiation. Because 24,25-(OH)(2)D(3) inhibits PGE(2) synthesis in these cells, EP1-mediated induction of proliferation is blocked, encouraging cellular maturation and activation of PKC activity.
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PMID:Characterization of prostaglandin E(2) receptors and their role in 24,25-(OH)(2)D(3)-mediated effects on resting zone chondrocytes. 1062 83

Prostaglandins (PGs) have complex and multiple effects on bone metabolism. Although the osteogenic effect of PGE in humans was initially found in an infant with a congenital heart disease, there have been few reports on the effect of PGE in human in vivo. The aim of this study was to investigate the effect of PGE1 on human bone metabolism, using biochemical bone markers. A total of 18 subjects were treated with PGE1 in lipid microspheres. Six subjects were given 10 microg of lipo-PGE, intravenously daily for 14 days, and twelve subjects were given the same dose twice a week for 7 weeks. Before and after the administration of PGE1, blood and a spot urine was obtained in the morning. Bone formation markers (alkaline phosphatase, osteocalcin, procollagen I carboxy-terminal peptide) did not change. In the subjects with daily administration for 2 weeks, type I collagen pyridinolines crosslinked C-telopeptide (ICTP) increased significantly. In the subjects treated twice a week, free deoxypyridinoline (Dpd) increased significantly. When all subjects were analyzed, bone resorption markers (ICTP and Dpd) increased, but not significantly (p=0.055 for ICTP, p=0.055 for Dpd). Therefore, PGE1 at the dosage used in this study did not increase bone formation but increased bone resorption in humans.
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PMID:The effect of prostaglandin E1 on human bone metabolism: evaluation by biochemical markers for bone turnover. 1071 28

During long-term spaceflight, astronauts lose bone, in part due to a reduction in bone formation. It is not clear, however, whether the force imparted by gravity has direct effects on bone cells. To examine the response of bone forming cells to weightlessness, human fetal osteoblastic (hFOB) cells were cultured during the 17 day STS-80 space shuttle mission. Fractions of conditioned media were collected during flight and shortly after landing for analyses of glucose utilization and accumulation of type I collagen and prostaglandin E(2) (PGE(2)). Total cellular RNA was isolated from flight and ground control cultures after landing. Measurement of glucose levels in conditioned media indicated that glucose utilization occurred at a similar rate in flight and ground control cultures. Furthermore, the levels of type I collagen and PGE(2) accumulation in the flight and control conditioned media were indistinguishable. The steady-state levels of osteonectin, alkaline phosphatase, and osteocalcin messenger RNA (mRNA) were not significantly changed following spaceflight. Gene-specific reductions in mRNA levels for cytokines and skeletal growth factors were detected in the flight cultures using RNase protection assays. Steady-state mRNA levels for interleukin (IL)-1alpha and IL-6 were decreased 8 h following the flight and returned to control levels at 24 h postflight. Also, transforming growth factor (TGF)-beta(2) and TGF-beta(1) message levels were modestly reduced at 8 h and 24 h postflight, although the change was not statistically significant at 8 h. These data suggest that spaceflight did not significantly affect hFOB cell proliferation, expression of type I collagen, or PGE(2) production, further suggesting that the removal of osteoblastic cells from the context of the bone tissue results in a reduced ability to respond to weightlessness. However, spaceflight followed by return to earth significantly impacted the expression of cytokines and skeletal growth factors, which have been implicated as mediators of the bone remodeling cycle. It is not yet clear whether these latter changes were due to weightlessness or to the transient increase in loading resulting from reentry.
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PMID:Effects of orbital spaceflight on human osteoblastic cell physiology and gene expression. 1071 74

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