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)

To effectively treat osteoporosis and other bone-loss disorders, small compounds that potently induce bone formation are needed. The present study initially attempted to establish a monitoring system that could detect osteogenic differentiation easily, precisely, and noninvasively. For this purpose, we established pre-osteoblastic MC3T3E1 cells stably transfected with the GFP reporter gene driven by a 2.3 kb fragment of rat type I collagen promoter (Col1a1GFP-MC3T3E1). Among these cells, we selected a clone that fluoresced upon osteogenic stimulation by BMP2. The GFP fluorescence intensity corresponded well to the intensity of alkaline phosphatase (ALP) staining and to the level of osteocalcin (Oc) mRNA. Using this system, we screened natural and synthetic compound libraries and thus identified an isoflavone derivative, glabrisoflavone (GI). GI induced ALP staining and Oc mRNA in a dose-dependent manner. The Col1a1GFP-MC3T3E1 system may be useful for identifying novel osteogenic drugs.
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PMID:Development of high-throughput screening system for osteogenic drugs using a cell-based sensor. 1878 92

Injuries and other damage to large bone can result in defects that do not heal spontaneously and lead to severe functional impairment. Better therapies are greatly needed to address this worldwide problem. The objective of the present study was to determine whether adenoviral delivery of modified human BMP2 gene (AdBMP2) using beta tricalcium phosphate (ss-TCP) as a carrier could promote osteoblastic differentiation of bone marrow mesenchymal stem cells (BMSCs) and ectopic bone formation. Rabbit BMSCs were separated from tibia aspirates and expanded in vitro. The BMSCs were then infected with AdBMP-2. Expression of BMP2, alkaline phosphatase, type I collagen, osteonectin, osteopontin, and mineralization of the cells confirmed secretion of active BMP2. Cells were observed to differentiate and maintain the osteoblast phenotype. For additional in vivo experiments, subcutaneous pockets were created on the backs of nude mice, which were then implanted with AdBMP2-BMSCs/ss-TCP, Adbetagal-BMSCs/ss-TCP, BMSCs/ss-TCP, or ss-TCP alone. The nude mice were sacrificed after 4 weeks for histological evaluation. Adbetagal-BMSCs/ss-TCP, BMSCs/ss-TCP, and ss-TCP did not show bone formation, although extensive fibrous tissue formed in the subcutaneous space in the rats implanted with ss-TCP. However, new bone tissue formation was observed on the inner walls of the pores of the ss-TCP-treated animals, and ectopic bone formation (mainly ''cartilage-bone inducing'') was observed in the AdBMP2-BMSCs/ss-TCP composite. These results confirmed the osteogenic potential of BMSCs after AdBMP2 transduction and revealed that AdBMP2-BMSC/ss-TCP composites could provide the capacity for bone formation and maturation during the more advanced stages of healing.
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PMID:Ectopic osteogenesis by ex vivo gene therapy using beta tricalcium phosphate as a carrier. 1899 Oct 87

Signaling through the IGF-I receptor by locally synthesized IGF-I or IGF-II is crucial for normal skeletal development and for bone remodeling. Osteogenesis is primarily regulated by bone morphogenetic proteins (BMPs), which activate gene expression programs driven by bone-specific transcription factors. In a mesenchymal stem cell model of osteoblast commitment and differentiation controlled by BMP2, we show that an inhibitor of PI3-kinase or a dominant-negative Akt were as potent in preventing osteoblast differentiation as the IGF binding protein IGFBP5, whereas a Mek inhibitor was ineffective. Conversely, an adenovirus encoding an inducible-active Akt was able to overcome the blockade of differentiation caused by IGFBP5 or the PI3-kinase inhibitor, and could restore normal osteogenesis. Inhibition of PI3-kinase or Akt did not block BMP2-mediated signaling, because the Smad-responsive genes Sox9 and JunB were induced normally under all experimental conditions. When activated during different stages of osteoblast maturation, dominant-negative Akt prevented accumulation of bone-specific alkaline phosphatase and reduced mineralization, and more significantly inhibited the longitudinal growth of metatarsal bones in primary culture by interfering with both chondrocyte and osteoblast development and function. We conclude that an intact IGF-induced PI3-kinase-Akt signaling cascade is essential for BMP2-activated osteoblast differentiation and maturation, bone development and growth, and suggest that manipulation of this pathway could facilitate bone remodeling and fracture repair.
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PMID:Akt promotes BMP2-mediated osteoblast differentiation and bone development. 1920 58

Recent studies suggest that the elevation of intracellular cyclic adenosine monophosphate (cAMP) and the activation of the protein kinase A regulate BMP-induced osteogenesis. However, the precise mechanisms underlying the enhancing effect of cAMP on BMP2 signaling were not completely revealed. In this study we investigated the effect of elevated cAMP level and PKA activation on the BMP2-induced osteoblastic differentiation in pluripotent C2C12 cells. Alkaline phosphatase activity and its mRNA were consistently induced by BMP2 treatment. The pretreatment of C2C12 cells with Forskolin, a cAMP generating agent, dbcAMP, an analogue of cAMP, or IBMX (3-isobutyl 1-methyl xanthine), and a nonspecific inhibitor of phosphodiesterases elicited further activation of alkaline phosphatase. Furthermore, elevated intracellular cAMP level increased BMP2-induced MKP1. On the other hand, BMP2-induced Erk phosphorylation (p44/p42) and cell proliferation were suppressed in the presence of cAMP. Thus, cAMP might enhance BMP2-induced osteoblastic differentiation by a MKP1-Erk-dependent mechanism.
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PMID:cAMP enhances BMP2-signaling through PKA and MKP1-dependent mechanisms. 1921 86

Estrogen receptor-related receptor gamma (ERRgamma/ERR3/NR3B3) is a member of the orphan nuclear receptor with important functions in development and homeostasis. Recently it has been reported that ERRalpha is involved in osteoblast differentiation and bone formation. In the present study we examined the role of ERRgamma in osteoblast differentiation. Here, we showed that ERRgamma is expressed in osteoblast progenitors and primary osteoblasts, and its expression is increased temporarily by BMP2. Overexpression of ERRgamma reduced BMP2-induced alkaline phosphatase activity and osteocalcin production as well as calcified nodule formation, whereas inhibition of ERRgamma expression significantly enhanced BMP2-induced osteogenic differentiation and mineralization, suggesting that endogenous ERRgamma plays an important role in osteoblast differentiation. In addition, ERRgamma significantly repressed Runx2 transactivity on osteocalcin and bone sialoprotein promoters. We also observed that ERRgamma physically interacts with Runx2 in vitro and in vivo and competes with p300 to repress Runx2 transactivity. Notably, intramuscular injection of ERRgamma strongly inhibited BMP2-induced ectopic bone formation in a dose-dependent manner. Taken together, these results suggest that ERRgamma is a novel negative regulator of osteoblast differentiation and bone formation via its regulation of Runx2 transactivity.
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PMID:The orphan nuclear receptor estrogen receptor-related receptor gamma negatively regulates BMP2-induced osteoblast differentiation and bone formation. 1932 83

Hesperidin found in citrus fruits has been reported to be a promising bioactive compound for maintaining an optimal bone status in ovariectomized rodent models. In this study, we examined the capacity of hesperetin (Hp) to affect the proliferation, differentiation and mineralization of rodent primary osteoblasts. Then, the impact of Hp on signalling pathways known to be implicated in bone formation was explored. We exposed osteoblasts to physiological concentrations of 1 microM Hp (Hp1) and 10 microM Hp (Hp10). Neither proliferation nor mineralization was affected by Hp at either dose during 19 days of exposure. Hp at both doses enhanced differentiation by significantly increasing alkaline phosphatase (ALP) activity from Day 14 of exposure (Day 19: Hp1: +9%, Hp10: +14.8% vs. control; P<.05). However, Hp did not induce an obvious formation of calcium nodules. The effect of Hp10 on ALP was inhibited by addition of noggin protein, suggesting a possible action of this flavanone through the bone morphogenetic protein (BMP) pathway. Indeed, Hp10 significantly induced (1.2- to 1.4-fold) mRNA expression of genes involved in this signalling pathway (i.e., BMP2, BMP4, Runx2 and Osterix) after 48 h of exposure. This was strengthened by enhanced phosphorylation of the complex Smad1/5/8. Osteocalcin mRNA level was up-regulated by Hp only at 10 microM (2.2 fold vs. control). The same dose of Hp significantly decreased osteopontin (OPN) protein level (50% vs. control) after 14 days of culture. Our findings suggest that Hp may regulate osteoblast differentiation through BMP signalling and may influence the mineralization process by modulating OPN expression.
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PMID:Hesperetin stimulates differentiation of primary rat osteoblasts involving the BMP signalling pathway. 1942 85

Studies revealed that PI3K/AKT/mTOR signaling is important in the regulation of human embryonic stem cell (hESC) self-renewal and differentiation. However, its action on osteogenic differentiation of hESCs is poorly understood. We tested the effects of pharmacological PI3K/AKT/mTOR inhibitors on their potential to induce osteogenic differentiation of hESCs. Under feeder-free culture conditions, rapamycin (an mTOR inhibitor) potently inhibited the activities of mTOR and p70S6K in undifferentiated hESCs; however, LY294002 (a PI3K inhibitor) and an AKT inhibitor had no effects. Treatment with any of these inhibitors down-regulated the hESC markers Oct4 and Nanog, but only rapamycin induced the up-regulation of the early osteogenic markers BMP2 and Runx2. We also observed that hESCs differentiated when treated with FK506, a structural analog of rapamycin, but did not exhibit an osteogenic phenotype. Increases in Smad1/5/8 phosphorylation and Id1-4 mRNA expression indicated that rapamycin significantly stimulated BMP/Smad signaling. After inducing both hESCs and human embryoid bodies (hEBs) for 2-3 weeks with rapamycin, osteoblastic differentiation was further characterized by the expression of osteoblastic marker mRNAs and/or proteins (osterix, osteocalcin, osteoprotegerin, osteonectin, and bone sialoprotein), alkaline phosphatase activity, and alizarin red S staining for mineralized bone nodule formation. No significant differences in the osteogenic phenotypes of rapamycin-differentiated hESCs and hEBs were detected. Our results suggest that, among these 3 inhibitors, only rapamycin functions as a potent stimulator of osteoblastic differentiation of hESCs, and it does so by modulating rapamycin-sensitive mTOR and BMP/Smad signaling.
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PMID:Rapamycin promotes the osteoblastic differentiation of human embryonic stem cells by blocking the mTOR pathway and stimulating the BMP/Smad pathway. 1964 65

To investigate the role of Wnt-beta-catenin signaling in bone remodeling, we analyzed the bone phenotype of female Axin2-lacZ knockout (KO) mice. We found that trabecular bone mass was significantly increased in 6- and 12-month-old Axin2 KO mice and that bone formation rates were also significantly increased in 6-month-old Axin2 KO mice compared with wild-type (WT) littermates. In vitro studies were performed using bone marrow stromal (BMS) cells isolated from 6-month-old WT and Axin2 KO mice. Osteoblast proliferation and differentiation were significantly increased and osteoclast formation was significantly reduced in Axin2 KO mice. Nuclear beta-catenin protein levels were significantly increased in BMS cells derived from Axin2 KO mice. In vitro deletion of the beta-catenin gene under Axin2 KO background significantly reversed the increased alkaline phosphatase activity and the expression of osteoblast marker genes observed in Axin2 KO BMS cells. We also found that mRNA expression of Bmp2 and Bmp4 and phosphorylated Smad1/5 protein levels were significantly increased in BMS cells derived from Axin2 KO mice. The chemical compound BIO, an inhibitor of glycogen synthase kinase 3beta, was utilized for in vitro signaling studies in which upregulated Bmp2 and Bmp4 expression was measured in primary calvarial osteoblasts. Primary calvarial osteoblasts were isolated from Bmp2(fx/fx);Bmp4(fx/fx) mice and infected with adenovirus-expressing Cre recombinase. BIO induced Osx, Col1, Alp and Oc mRNA expression in WT cells and these effects were significantly inhibited in Bmp2/4-deleted osteoblasts, suggesting that BIO-induced Osx and marker gene expression were Bmp2/4-dependent. We further demonstrated that BIO-induced osteoblast marker gene expression was significantly inhibited by Osx siRNA. Taken together, our findings demonstrate that Axin2 is a key negative regulator in bone remodeling in adult mice and regulates osteoblast differentiation through the beta-catenin-BMP2/4-Osx signaling pathway in osteoblasts.
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PMID:Axin2 controls bone remodeling through the beta-catenin-BMP signaling pathway in adult mice. 1973 15

This study evaluated whether the murine leukemia virus (MLV)-based cyclooxygenase-2 (Cox-2) ex vivo gene-transfer strategy promotes healing of calvarial defects and/or synergistically enhances bone morphogenetic protein (BMP) 4-mediated bone regeneration. Gelatin scaffolds impregnated with mouse marrow stromal cells (MSCs) transduced with MLV-expressing BMP4, Cox-2, or a control gene were implanted into mouse calvarial defects. Bone regeneration was assessed by X-ray, dual-energy X-ray absorptiometry, and histology. In vitro, Cox-2 or prostanglandin E(2) enhanced synergistically the osteoblastic differentiation action of BMP4 in mouse MSCs. In vivo, implantation of BMP4-expressing MSCs yielded massive bone regeneration in calvarial defects after 2 weeks, but the Cox-2 strategy surprisingly did not promote bone regeneration even after 4 weeks. Staining for alkaline phosphatase (ALP)-expressing osteoblasts was strong throughout the defect of animals receiving BMP2/4-expressing cells, but defects receiving Cox-2-expressing cells displayed weak ALP staining along the edge of original intact bone, indicating that the Cox-2 strategy lacked bone-regeneration effects. The Cox-2 strategy not only lacked bone-regeneration effects but also suppressed the BMP4-induced bone regeneration. In vitro coculture of Cox-2-expressing MSCs with BMP4-expressing MSCs in gelatin scaffolds reduced BMP4 mRNA transcript levels, suggesting that Cox-2 may promote BMP4 gene silencing in BMP4-expressing cells, which may play a role in the suppressive action of Cox-2 on BMP4-mediated bone formation. In summary, the Cox-2 ex vivo gene-transfer strategy not only lacks bone-regeneration effects but also suppresses the bone-regeneration action of BMP4 in healing of calvarial defects.
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PMID:Marrow stromal cell-based cyclooxygenase 2 ex vivo gene-transfer strategy surprisingly lacks bone-regeneration effects and suppresses the bone-regeneration action of bone morphogenetic protein 4 in a mouse critical-sized calvarial defect model. 1976 74

The aim of this study was to evaluate a semi-automated perfusion bioreactor system for the production of clinically relevant amounts of human tissue-engineered bone. Human bone marrow stromal cells (hBMSCs) of eight donors were dynamically seeded and proliferated in a perfusion bioreactor system in clinically relevant volumes (10 cm(3)) of macroporous biphasic calcium phosphate scaffolds (BCP particles, 2-6 mm). Cell load and distribution were shown using methylene blue staining. MTT staining was used to demonstrate viability of the present cells. After 20 days of cultivation, the particles were covered with a homogeneous layer of viable cells. Online oxygen measurements confirmed the proliferation of hBMSCs in the bioreactor. After 20 days of cultivation, the hybrid constructs became interconnected and a dense layer of extracellular matrix was present, as visualized by scanning electron microscopy (SEM). Furthermore, the hBMSCs showed differentiation towards the osteogenic lineage as was indicated by collagen type I production and alkaline phosphatase (ALP) expression. We observed no significant differences in osteogenic gene expression profiles between static and dynamic conditions like ALP, BMP2, Id1, Id2, Smad6, collagen type I, osteocalcin, osteonectin and S100A4. For the donors that showed bone formation, dynamically cultured hybrid constructs showed the same amount of bone as the statically cultured hybrid constructs. Based on these results, we conclude that a semi-automated perfusion bioreactor system is capable of producing clinically relevant and viable amounts of human tissue-engineered bone that exhibit bone-forming potential after implantation in nude mice.
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PMID:Human tissue-engineered bone produced in clinically relevant amounts using a semi-automated perfusion bioreactor system: a preliminary study. 1983 55

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