Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.1.3.1 (alkaline phosphatase)
 47,916 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Estrogen plays a major role in bone mineral homeostasis, maintaining a balance between bone formation and bone resorption not only in women but also in men. Extraglandular aromatization of circulating androgen is the major source of estrogen in post-menopausal women and men. In order to assess the capacity of bone cells as a local source of estrogen, osteoblast-like cells (OLCs) were obtained from human fetal bone in mid-trimester by the explant method and by mechanical disaggregation. The integrity of OLCs was confirmed by their ability to produce alkaline phosphatase and osteocalcin in response to vitamin D3 and also by their ability to deposit mineral. Aromatase activity was assessed by the formation of estrone from [1,2,6,7-3H]androstenedione and by the release of tritium from [1beta-3H]androstenedione into [3H]water. Formation of estrone was confirmed by thin layer chromatography (TLC) in OLCs stimulated with dexamethasone (DEX) + oncostatin M. The aromatase activity was 10 x higher in non-passaged OLCs than in passaged cells in the presence or absence of the stimulants (DEX + IL-1beta). The apparent Km and Vmax estimated by the release of [3H]water was 5.8+/-0.6 nM and 10.8+/-1.4 pmol/mg per 6 h in the presence of DEX + IL-1beta. The effects of several stimulants on aromatase activity in OLCs were examined: serum, IL-1beta, TNFalpha and type I cytokines stimulated activity in the presence of DEX, while PMA and PMA + dibutyryl cAMP did not. To confirm the expression of aromatase in OLCs, cells prepared from periosteal membranes were also examined: These cells in culture possessed aromatase activity corresponding to OLCs prepared from bone specimens. Moreover, the fresh periosteum expressed aromatase at higher levels than that of metaphyseal specimens. The aromatase gene employs several different promoters (I.1, 1.2, I.3, I.4, I.5, I.6, 2a, 1f and PII) and the usage of these promoters is known to be controlled in a tissue-specific fashion. Accordingly, promoter usage in OLCs and fetal long bone (tibia) tissue was examined using the 5' rapid amplification of cDNA ends (RACE) technique. The major promoter used was I.4, not only in stimulated and non-stimulated OLCs, but also in fetal tibia. Some minor transcripts were also found: 1f (brain-specific promoter), PII and I.6 in OLCs stimulated by DEX + IL-1beta, and PII and I.3 in OLCs stimulated by DEX + serum. Fetal tibia also expressed I.3 (15%) and I.6 (10%). Thus, regulation and promoter usage in OLCs was quite different from other tissues known as estrogen sources including adipose tissue, ovary and placenta. These results suggest that bone is an extraglandular source of local estrogen which plays an important role in bone mineral metabolism through autocrine and paracrine actions.
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PMID:Aromatase expression of human osteoblast-like cells. 970 80

Rabbit bone marrow- and periosteum-derived cells were cultured in medium containing dexamethasone, bone morphogenetic protein-2 (BMP2) or both. The response of bone marrow-derived cells, measured as alkaline phosphatase expression, depended on the stage of growth. In subconfluent cultures, BMP2 had a greater effect than dexamethasone and treatment with both further increased enzyme activity. In confluent cultures, the effect of dexamethasone was greater than that of BMP2 and, when used together, they had an additive effect. The mineral deposition observed in these cultures did not have the typical structure of bone nodules. For periosteum-derived cells, dexamethasone did not increase the expression of alkaline phosphatase, while BMP2 did; treatment with both was less effective than treatment with BMP2 alone. Typical bone nodules were observed in cultures of periosteum-derived cells treated with dexamethasone and BMP2. These findings indicate that either osteoprogenitor cells from these two sources are intrinsically different or else non-progenitor cells in the preparations directly or indirectly affect the responsiveness to osteo-inductive agents.
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PMID:Different response to osteo-inductive agents in bone marrow- and periosteum-derived cell preparations. 979 56

Cell lines were established by a two-step method from osteomas which had been induced by infection of mice with RFB MuLV, a bone-pathogenic, replication-competent murine retrovirus. The benign tumors, consisting of mature lamellar bone and surrounded by a thin periosteum, were cultured on sponges of denatured collagen type I fibres for up to 4 weeks. At this time osteoma cells had grown into the collagenous matrix. After release and further cultivation in monolayers, the cell lines established from these cultures varied in morphology; they expressed T1, collagen type I and type III, alkaline phosphatase, osteonectin and osteopontin mRNAs at variable levels, but not osteocalcin/BGP. They also showed alkaline phosphatase activity, but lacked responsiveness to parathyroid hormone. All cell lines established from infected mice expressed retroviral and c-myc mRNA and viral protein. In contrast to cells from control mice they showed an extended life span in culture. After growth in a three-dimensional (3-D) collagen sponge culture the cells formed an extracellular matrix containing collagen type I, alkaline phosphatase and osteocalcin/BGP. These data indicate that the two-step method facilitates the establishment of osteoblast-like cell lines from osteomas and calvaria of old mice, and provides means for further analyses of retrovirus-induced skeletal pathogenesis and bone induction.
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PMID:Establishment and characterization of osteoblast-like cell lines from retrovirus (RFB MuLV)-induced osteomas in mice. 981 Jul 4

A tibial lengthening scheme in the mouse was used to study the molecular and cellular events regulating tissue regeneration during distraction osteogenesis. Here, we report on the surgical technique and frame design and describe the histochemical and molecular aspects of distraction during different phases of treatment. A total of 26 mice were used in this study. The treatment protocol was divided into a latency period of 7 days, a phase of active distraction that lasted 10 days with a distraction rate of 0.42 mm/day, and a maturation phase of 9 days. During latency, the distraction site resembled a stabilized fracture callus on both a histochemical and a molecular level. During active distraction, the gap was characterized by a central fibrous interzone bordered by primary matrix fronts, regenerate bone aligned with the distraction force, parallel columns of vascular sinusoids, and a medullary cavity. Alkaline phosphatase activity was detected in the endosteal and periosteal surfaces of the bone ends. Tartrate resistant acid phosphatase staining revealed that osteoclasts remodeled the bone regenerate as it formed. Collagen type I was expressed in the periosteum and the primary matrix front during distraction, whereas collagen type-II transcripts were localized to discrete regions on the periosteal surfaces, immediately adjacent to the osteotomy ends. Collagen type-II transcripts were not detected in the fibrous interzone. During the maturation phase, cells within the fibrous interzone expressed collagen type I and exhibited abundant alkaline phosphatase activity, suggesting that they had begun to terminally differentiate. Collectively, these data demonstrate the utility of a mouse model to study the molecular and cellular bases for the regeneration and remodeling of tissue.
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PMID:Histochemical and molecular analyses of distraction osteogenesis in a mouse model. 982 Feb 90

The time course of the bone cellular response to mechanical loading is important in the design of optimal exercise prescriptions. This study examined the time course of periosteal cellular changes in the rat tibia following a single exposure of mechanical loading in four-point bending. The right tibiae of adult female Sprague Dawley rats (n = 48, 346 +/- 29 g) were loaded at 40 N (2000 mu epsilon) for 36 cycles at 2 Hz. Right loaded (L) and left nonloaded (NL) tibiae were collected on days 1, 2, 3, 4, 6, and 9 after loading. Cross sections from the loaded region were examined for periosteal differences in bone lining cell surface length, osteoblast surface length, and both alkaline phosphatase-positive cell surface length and width in the cellular layer. A single loading session increased osteoblast surface length as early as day 2, with a peak in expression on day 3. Nine days after a single loading session osteoblast surface length was not different from nonloaded control levels. Alkaline phosphatase width in the cellular periosteum was elevated by day 2 and remained elevated through day 9. This study shows the transient increase in osteoblast surface following a single loading session. It provides fundamental information regarding the timing of osteoblast appearance and the longevity of the response following mechanical stimulation.
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PMID:Time course of osteoblast appearance after in vivo mechanical loading. 982 46

The precursors of bone, cartilage, fat and muscle cells are likely to be derived from more primitive mesenchymal cells which exhibit some of the characteristics of stem cells. Despite extensive study of stromal cell differentiation, neither mesenchymal stem cells or the more committed, tissue-specific progenitors have been well characterized. Here we describe the use of flow cytometry to isolate from fetal rat periosteum a population of small, relatively agranular cells (S cells) that display stem cell characteristics. After plating, S cells demonstrated extensive self-renewal with osteogenic potential. Electron microscopy showed that S cells have high nuclear:cytoplasmic ratios with large condensed nuclei and a paucity of cytoplasmic organelles. Freshly sorted suspensions of immunocytochemically stained S cells did not express differentiation-associated markers such as type I, II, and III collagens, alkaline phosphatase or osteopontin. However following attachment, S cells became immunopositive for collagens I, II, III, osteopontin and also for the cell surface receptor CD44, which mediates cell attachment to hyaluronan and osteopontin. S-cells showed two discrete populations of surface-stained protein by sulforhodamine, wheat germ agglutinin and Thy-1. In contrast, large (L) cells that did not exhibit stem cell characteristics exhibited low staining levels for Thy-1 and for wheat germ agglutinin. These studies demonstrate that viable osteogenic precursor cells with the stem cell characteristics of self-renewal, high proliferative capacity and multipotentiality can be enriched from heterogeneous stromal cell populations with simple flow cytometric methods.
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PMID:Stromal mesenchymal progenitor cells. 1003 19

This study examined the ability of cells isolated from early healing segmental defects and from tissue from chronic nonunions to support bone and cartilage formation in vivo and their response to transforming growth factor-beta1 in vitro. Ostectomies (3 mm) were created in the radial diaphysis of four dogs. The dogs were splinted 3-5 days postoperatively and then allowed to bear full weight. At 7 days, tissue in the defect was removed and any periosteum was discarded; cells in the defect tissue were released by enzymatic digestion. The dogs were splinted again and allowed to bear full weight for 12 weeks. Radiographs confirmed a persistent nonunion in each dog. Defect tissue was again removed, any periosteum was discarded, and cells were isolated. Cells were also obtained from the defect tissue by nonenzymatic means with use of explant cultures. One-half of the tissue and one-half of any preconfluent, first-passage cultures were shipped to Cleveland by overnight carrier. At second passage, cells were loaded into ceramic cubes and implanted into immunocompromised mice for 3 or 6 weeks. Harvested cubes were examined histologically for cartilage and bone with use of a semiquantitative scoring system. Confluent fourth-passage cultures of 7 and 84-day defect tissue cells were cultured with 0.03-0.88 ng/ml transforming growth factor-beta1 for 24 hours, and [3H]thymidine incorporation and alkaline phosphatase specific activity were determined. Donor-dependent differences were noted in the rate at which defect cells achieved confluence; in general, cells from 7-day tissue divided most rapidly. Seven-day defect cells formed less bone and at a slower rate than was seen in the ceramic cubes containing samples from day 84. Cells derived enzymatically behaved similarly to those from explant cultures. Ceramic cubes contained fibrous connective tissue, cartilage, bone, and fat, indicating that multipotent cells were present. Stimulation of [3H]thymidine incorporation in response to transforming growth factor-beta1 was donor dependent and variable; only two of six separate isolates of cells exposed to it had measurable alkaline phosphatase activity (which was relatively low), and none of the cultures exhibited an increase in response to transforming growth factor-beta1 for 24 hours. This indicates that mesenchymal progenitor cells are present in the healing defect tissue at 7 and 84 days and that the relative proportion of osteochondroprogenitor cells is greater at the later time. The response to transforming growth factor-beta1 is typical of multipotent mesenchymal cells but not of committed chondrocytes or osteoblasts, indicating that these committed and differentiated cells are not present in early stages of healing and suggesting that their differentiation is inhibited in chronic nonunion.
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PMID:Osteochondral progenitor cells in acute and chronic canine nonunions. 1022 42

The structure of the epiphyseal cartilage of the bullfrog Rana catesbeiana and its role in the growth of long bones were examined. The epiphyseal cartilage was inserted into the end of a tubular bone shaft, defining three regions: articular cartilage, lateral articular cartilage and growth cartilage. Joining the lateral cartilage to the bone was a fibrous layer of periosteum, rich in blood vessels. Osteoblasts with alkaline phosphatase activity were found on the surface of the periosteal bone, which presented a fibrous non-mineralised tip. The growth cartilage was inside the bone. The proliferative chondrocytes presented perpendicular separation of daughter cells and there was no columnar arrangement of the cells. Furthermore, chondrocyte hypertrophy was not associated with either calcification or endochondral ossification, in apparent contrast to the avian and mammalian models. Finally, there was no reinforcement system capable of directing cell volume increase into longitudinal growth. Since bone extension depends on the intramembranous ossification of the periosteum, the growth cartilage is inside and not at the end of the bone and the cells in the growth cartilage show no columnar arrangement and separate in a direction perpendicular to the long bone axis, we conclude that the growth cartilage mainly contributes to the radial expansion of the bone.
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PMID:The epiphyseal cartilage and growth of long bones in Rana catesbeiana. 1048 2

Calvarial and facial bones form by intramembranous ossification, in which bone cells arise directly from mesenchyme without an intermediate cartilage anlage. However, a number of studies have reported the emergence of chondrocytes from in vitro calvarial cell or organ cultures and the expression of type II collagen, a cartilage-characteristic marker, in developing calvarial bones. Based on these findings we hypothesized that a covert chondrogenic phase may be an integral part of the normal intramembranous pathway. To test this hypothesis, we analyzed the temporal and spatial expression patterns of cartilage characteristic genes in normal membranous bones from chick embryos at various developmental stages (days 12, 15 and 19). Northern and RNAse protection analyses revealed that embryonic frontal bones expressed not only the type I collagen gene but also a subset of cartilage characteristic genes, types IIA and XI collagen and aggrecan, thus resembling a phenotype of prechondrogenic-condensing mesenchyme. The expression of cartilage-characteristic genes decreased with the progression of bone maturation. Immunohistochemical analyses of developing embryonic chick heads indicated that type II collagen and aggrecan were produced by alkaline phosphatase activity positive cells engaged in early stages of osteogenic differentiation, such as cells in preosteogenic-condensing mesenchyme, the cambium layer of periosteum, the advancing osteogenic front, and osteoid bone. Type IIB and X collagen messenger RNAs (mRNA), markers for mature chondrocytes, were also detected at low levels in calvarial bone but not until late embryonic stages (day 19), indicating that some calvarial cells may undergo overt chondrogenesis. On the basis of our findings, we propose that the normal intramembranous pathway in chicks includes a previously unrecognized transient chondrogenic phase similar to prechondrogenic mesenchyme, and that the cells in this phase retain chondrogenic potential that can be expressed in specific in vitro and in vivo microenvironments.
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PMID:Transient chondrogenic phase in the intramembranous pathway during normal skeletal development. 1075 May 67

Pluripotent cells from the periosteal layer adjacent to cortical bone attain an osteoblast-like phenotype in culture when reaching confluence in monolayer. It is unknown whether such newly differentiated osteoblast-like cells preserve the chondrogenic potential characteristics for stem cells derived from the periosteum. Primary osteoprogenitor cells derived from bovine metacarpal periosteum were differentiated into alkaline phosphatase-positive osteoblast-like cells by an established monolayer culture protocol. After transfer into suspension culture in agarose gels, the cells differentiated into chondrocytes demonstrated by the production of collagen II, but not of collagen I, as well as alkaline phosphatase activity was abated. Contrarily, with continuation of monolayer culture, the cells maintained their osteoblast-like phenotype and secreted large amounts of collagen I and a minor quantity of collagen III and V. The alkaline phosphatase activity steadily increased during the entire culture period of 2 weeks. Thus, our culture techniques can serve as useful tools to study mechanisms of differentiation by modulating the phenotypic potential of osteogenic cells. The results presented here support the notion that the extracellular environment strongly influences the cell type and its metabolism.
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PMID:Periosteally derived osteoblast-like cells differentiate into chondrocytes in suspension culture in agarose. 1082 Mar 14


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