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)

The role of extracellular matrix as a determinant of intestinal cell maturation was explored by growing a normal, but immature, rat small intestinal cell line (IEC-6) on basement membrane extract from Engelbreth-Holm-Swarm (EHS) sarcoma cells (ECM). Grown on plastic or glass, these cells are relatively immature and proliferate rapidly. In contrast, cells on ECM attached more rapidly, stopped proliferating, and rapidly organized into multicellular complex structures. Ultrastructurally, cells grown on ECM displayed significantly more mitochondria, rough endoplasmic reticulum, apical microvilli, and complex golgi apparatus, consistent with greater maturity and synthetic activity. By indirect immunofluorescence, sucrase, alkaline phosphatase, and cellular apolipoprotein B were present in cells grown on ECM only. In contrast to cells grown on glass, these cells also demonstrated Na-dependent glucose absorption, a function unique to mature villus cells (7). We conclude that the basement membrane may be a key determinant of intestinal epithelial cell maturation. The development of a mature villuslike intestinal cell in vitro may have wide application for future studies of induction and regulation of intestinal maturation and function.
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PMID:Differentiation of rat small intestinal epithelial cells by extracellular matrix. 334 2

The aim of this study was to determine the role of ECM components of bone in regulating the differentiation and function of cells of the osteoblast lineage. Rat UMR 201 cells, phenotypically preosteoblast, were plated onto plastic tissue culture dishes or dishes coated with gelled type I collagen or reconstituted basement membrane (matrigel). Acute cell attachment assays showed that cells adhered to substrates in the following order: collagen > matrigel >> plastic. Proliferation rate up to 96 hr were similar on each substrate. However, if cells were treated with 10(-6) M retinoic acid (RA), proliferation rates were reduced compared with control for cells grown on collagen and matrigel but not on plastic. Morphological changes were matrix-specific; in subconfluent cultures, long thin processes were seen with cells grown on collagen and a pattern of interconnecting cell processes formed when cells were plated on matrigel. Striking differences were observed in the constitutive or RA-induced gene expression of cells grown on the different substrates. When cells plated on collagen were treated with RA, induction of mRNA for alkaline phosphatase (ALP) as well as ALP enzyme activity were much less than with cells grown on plastic. In contrast, RA treatment induced osteopontin (OP) mRNA expression more strongly in cells plated on collagen compared with plastic within 24 hr and this was maintained for 72 hr. RA treatment produced a two fold increase of pro-alpha 1(I) collagen mRNA in cells grown on plastic and matrigel but not in cells grown on collagen. Growth on collagen produced changes in the way UMR 201 cells responded to RA from which they did not fully recover in subsequent 48-hr growth periods on plastic. These results indicate that ECM components regulate the function of and are capable of modulating RA-induced differentiation of preosteoblasts.
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PMID:Cell substratum modulates responses of preosteoblasts to retinoic acid. 822 57

Transdifferentiation of hypertrophic chondrocytes into osteogenic cells was induced in 14 day chick embryo femurs by cutting through the region of hypertrophic cartilage. The process was studied in organ culture, using electron microscopy, staining for alkaline phosphatase, immunocytochemistry of collagen type I and proliferative cell nuclear antigen, and in situ localization of DNA strand-breaks. In addition, DNA and RNA synthesis were studied by 3[H]-T and 3[H]-U radioautography. Loss of ECM components from the cut edge occurred in culture. During the 12 day period necessary for transdifferentiation we observed phenotypic instability and bi-potentiality, the death of some cells and the gradual promotion of the osteoblastic phenotype in the survivors. Transition from chondrocytic to osteoblastic phenotype progressed stepwise, through variable mosaic intermediates, and involved a few cell cycles including asymmetric (differential) divisions. Proliferating and apoptotic cells were found in close proximity. As judged by the relative proportion of apoptotic cells and composition of the surrounding intralacunar matrix, negative selection of intermediate cell types displaying chondrocytic and altered mosaic phenotypes occurred. When the osteoblastic lineage was finally established, apoptotic cells were no longer present. Our hypothesis is that after disruption of cell-cell or cell-matrix interactions and lack of growth factors certain cells are selected and channelled through proliferation into the new stable phenotype. This process is targeted by the environment through a set of pre-determined steps.
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PMID:Epigenetic selection as a possible component of transdifferentiation. Further study of the commitment of hypertrophic chondrocytes to become osteocytes. 879 45

An in vitro mineralizing cell-implant system was developed to study osteoblast attachment, secretion of extracellular (ECM) matrix proteins and mineralization. Saos-2 cells were plated on Tivanium (Tiv, Ti-6A1-4V), Zimaloy (Zim, Co-Cr-Mo) and glass disks. The cells were cultured in alpha-MEM medium with 10% fetal bovine serum and 50 microg ml(-1) ascorbic acid. The cultures were analyzed for calcification and for mRNA expression for ECM proteins after 1, 2, 4 and 6 weeks. Calcium content was significantly higher in cells on Tiv, less on Zim and least on glass disks. With the addition of 3 mm beta-glycerophosphate (beta-GP), the cell layer was more calcified on Zim than on Tiv and all substrates had three times more calcium than cultures without beta-GP. All subsequent experiments were performed without beta-GP. Phalloidin immunofluorescence microscopy of the actin-based cytoskeleton at 2 weeks demonstrated nodules composed of multilayered, cobblestone-appearing osteoblasts overlying calcified matrix which was stained with calcein. On Tiv, calcified nodules were connected in a trabecular-like pattern while on Zim, calcification was dispersed throughout the cell layer. Northern blots for alkaline phosphatase, bone sialoprotein, osteocalcin and alpha1(I) procollagen mRNAs were performed at different time points. The amount and pattern of calcification as well as the expression of ECM-mRNAs differed on each implant material. The results indicate that Tiv stimulates the production of more ECM proteins and mineralized matrix than Zim or glass in this osteoblast-like cell/implant culture.
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PMID:An in vitro model for mineralization of human osteoblast-like cells on implant materials. 1003 May 97

The Granulocyte-Macrophage Colony-Stimulating Factor (GM-CSF) is a hematopoietic growth factor that regulates the in vitro and in vivo proliferation and differentiation of hematopoietic cells through the interaction with a specific heterodimeric receptor complex (GM-CSFR), consisting of an alpha and a beta chain with molecular weights of 80 and 120 KDa, respectively. We have studied the expression of the GM-CSFR (alpha chain) on the surface of the human osteosarcoma cell line SaOS-2 and the in vitro effects of different concentrations (10, 100, and 200 ng/ml) of GM-CSF on GM-CSFR expression and the biological activity of SaOS-2 cells. Our data show that SaOS-2 cells express GM-CSFR and that GM-CSF can down-regulate the expression of its own receptor on these cells. Furthermore, to evaluate the biological effects of GM-CSF on SaOS-2 cells, we have investigated cell proliferation and differentiation of these cells treated with different doses of the growth factor through: (1) a morphological analysis of typical osteoblast differentiation markers such as osteopontin and BSP-II; (2) measurement of alkaline phosphatase (ALP) activity; (3) production of bone ECM components (collagen I, fibronectin, tenascin, and laminin); (4) production of interleukin-6 (IL-6) and osteocalcin in the culture medium. The results show that the in vitro treatment of SaOS-2 cells with recombinant human GM-CSF causes a decreased cell proliferation and an increased production of osteopontin, BSP-II, ALP, IL-6, and most but not all ECM components. These findings suggest that GM-CSF can regulate proliferation and differentiation of osteoblast-like SaOS-2 cells and could also play an unexpected role in the maturation of bone tissue.
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PMID:Granulocyte-macrophage colony-stimulating factor (GM-CSF) induces the osteoblastic differentiation of the human osteosarcoma cell line SaOS-2. 1223 77

It is known that the (micro-) structure of a substrate surface is of major influence on the growth behaviour of adherent cells. In the current study, we aimed to produce a surface that exactly mimics the structure of natural dentin, and to describe the effect of this surface on the growth behaviour of primary periodontal ligament fibroblasts (PDLF) or gingival fibroblasts (GF). First, we used scanning electron microscopy (SEM) and morphometric techniques to analyse the porous dentin structure. Then, using a template made by photolithographic techniques, cell culture dishes with similar surface structure were made. On these dishes, and on smooth controls, primary PDLF and GF were seeded and assayed up to 14 days for proliferation, alkaline phosphatase (ALP) activity, and collagen content. Also, cell morphology was observed with SEM and transmission electron microscopy (TEM). Results showed that GF showed significantly less ALP activity than PDLF. Abundant collagen fibres were only formed by GF grown on the textured surfaces. SEM assessment showed equal spreading of both cell types on smooth and textured surfaces. TEM showed a preferential deposition of ECM material in the texture porosity. From our study we can conclude that dentin-like surfaces have no negative effect on either cell type, and could be used to enhance extracellular matrix deposition in GF formation. However, considerable differences were observed between primary cells from different animals. Therefore, final efficacy of the surfaces remains to be proven in implantation experiments.
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PMID:Periodontal ligament and gingival fibroblast adhesion to dentin-like textured surfaces. 1526 76

It is known that calcium-phosphate (Ca-P) coatings are able not only to improve the bone bonding behaviour of polymeric materials, but at the same time play a positive role on enhancing cell adhesion and inducing the differentiation of osteoprogenitor cells. Recently an innovative biomimetic methodology, in which a sodium silicate gel was used as a nucleative agent, was proposed as an alternative to the currently available biomimetic coating methodologies. This methodology is especially adequate for coating biodegradable porous scaffolds. In the present work we evaluated the influence of the referred to treatment on the mechanical properties of 50/50 (wt%) blend of corn starch/ethylene-vinyl alcohol (SEVA-C) based scaffolds. These Ca-P coated scaffolds presented a compressive modulus of 224.6 +/- 20.6 and a compressive strength of 24.2 +/- 2.20. Cytotoxicity evaluation was performed according ISO/EN 10993 part 5 guidelines and showed that the biomimetic treatment did not have any deleterious effect on L929 cells and did not inhibit cell growth. Direct contact assays were done by using a cell line of human osteoblast like cells (SaOS-2). 3 x 10(5) cells were seeded per scaffold and allowed to grow for two weeks at 37( composite function)C in a humidified atmosphere containing 5% CO(2). Total protein quantification and scanning electron microscopy (SEM) observation showed that cells were able to grow in the pre-mineralized scaffolds. Furthermore cell viability assays (MTS test) also show that cells remain viable after two weeks in culture. Finally, protein expression studies showed that after two weeks osteopontin and collagen type I were being expressed by SaOS-2 cells seeded on the pre-mineralized scaffolds. Moreover, alkaline phosphatase (ALP) activity was higher in the supernatants collected from the pre-mineralized samples, when compared to the control samples (non Ca-P coated). This may indicate that a faster mineralization of the ECM produced on the pre-mineralized samples was occurring. Consequently, biomimetic pre-mineralization of starch based scaffolds can be a useful route for applying these materials on bone tissue engineering.
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PMID:Biological response to pre-mineralized starch based scaffolds for bone tissue engineering. 1574 19

The presence of multiple cell types in bone marrow and their varying proportions from isolation to isolation may count for the considerable variation in the outcome of different experiments. The presence of these multiple subpopulations suggests a need for a method that can purify the osteogenic component, i.e. osteoprogenitors, from other components. The availabilities of monoclonal antibodies recognizing subpopulations of osteoblasts are providing means for antibody-based methods. The cell surface antigens STRO-1, ALP and HOP-26 were used for cell sorting experiments with fluorescence activated cell sorting (FACS). These cell populations were analyzed on differential gene expression, cell proliferation and differentiation into the osteoblastic lineage. The oligo-microarray results showed that only the ALP positive cell population expressed genes of the extracellular matrix; like different collagens, ECM-1 and matrix protease MMP-14. The real-time polymerase chain reaction (QPCR) results showed that STRO-1 and ALP positive cells had an upregulation in expression of lipoprotein lipase, osteocalcin, and collagen type I. Integrin beta-3 was only upregulated for ALP positive cells, while for these cells downregulation occurred for the genes myosine, alkaline phosphatase and integrin beta-1. HOP-26 positive cells showed an upregulation in collagen type I compared to control group. The DNA analysis revealed that the cells of the control group and the HOP-26 positive cells showed a 5 times higher cell growth compared to the STRO-1 and ALP positive cells. The alkaline phosphatase activity showed no activity for the control group. The STRO-1 and ALP positive cells had a higher activity compared to the HOP-26 positive. The calcium measurements revealed only for the control group calcium at day 24. Based on the results of our study, we conclude that the FACS method had no negative effect on the proliferating as well as differentiating response of the cells. Further, we conclude that by using an antibody-based cell selection method, different cell populations with different mRNA expression profiles and different osteogenic characteristics can be obtained.
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PMID:Enrichment of osteogenic cell populations from rat bone marrow stroma. 1696 17

Calcium phosphates (CaPs) have been investigated as substrates to promote bone formation both in vitro and in vivo. The aim of this study was to examine the proliferation and differentiation of rat bone marrow stromal cells (BMSCs) cultured on three-dimensional (3D) octacalcium phosphate (OCP) crystal assemblies. The cytotoxicity of OCP crystal assemblies was evaluated by measuring the lactate dehydrogenase (LDH) release from BMSCs during 10h of incubation with OCP crystal assemblies. The proliferation of BMSCs on OCP crystal assemblies in medium with or without osteogenic supplements was also investigated using the MTT assay with tissue culture treated plastic (TP) as the control. The tissues formed by BMSCs cultured on OCP crystal assemblies for 24 days were examined following staining with haematoxylin and eosin (H&E), alkaline phosphatase (ALP) and Van Gieson's techniques. The influence of OCP crystal assemblies on mRNA expression of alpha chain of collagen type I (Coll-Ia), ALP and osteocalcin (OC), osteonectin (ON), osteopontin (OP), lumican, Cbfa1, EST317 and EST350 by the BMSCs were also investigated using semi-quantitative RT-PCR. Although OCP crystals were relatively cytotoxic compared with TP, proliferation of BMSCs occurred when seeded onto OCP crystal assemblies. BMSCs cultured on OCP demonstrated similar proliferation rates as found on the control and no significant difference (P<0.05) in the number of cells cultured in medium supplemented with or without osteogenic additives on TP and OCP. The deposition of collagen and ALP were detected in tissue synthesised by BMSCs cultured on OCP crystals assemblies. OCP crystal assemblies down-regulated basal bone ECM proteins, including Coll-Ia, ON and lumican, in the first week of culture, whilst up-regulation of the same genes was observed after 24 days of culture. The observed down-regulation of Cbfa1 on OCP substrates was consistent with the negative effect of OCP crystal assemblies on the genes encoding bone ECM proteins. The up-regulation of OC mRNA expression by OCP crystal assemblies could be related to the requirement for synthesis of more OC proteins to control the concentration of calcium ions in culture medium.
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PMID:Influence of calcium phosphate crystal assemblies on the proliferation and osteogenic gene expression of rat bone marrow stromal cells. 1716 82

Uniform distribution of cells and their extracellular matrix is essential for the in vivo success of bone tissue engineering constructs produced in vitro. In this study, the effects of biphasic calcium phosphate (BCP) granules embedded into chitosan scaffolds on the distribution, morphology, and phenotypic expression of osteoblastic cells were investigated. Mesenchymal stem cells (MSCs) and preosteoblasts were cultured on chitosan scaffolds with and without BCP under osteoblastic differentiation/maturation conditions for periods up to 4 weeks. The addition of 25 wt % BCP to chitosan created a uniform layer of calcium phosphate (CaP) precipitation similar to bone mineral on the scaffold surfaces as determined by scanning electron microscopy and X-ray spectroscopy. Scaffolds with this CaP layer yielded more uniform and complete cell and ECM distribution than chitosan scaffolds without BCP. The suggestion of chemotaxis in the appearance of this response was confirmed by successive experiments in a Boyden chamber. The CaP layer also altered morphology of cells initially attached to the scaffold surfaces, leading to higher expression of marker proteins of osteoblastic phenotype including alkaline phosphatase and osteocalcin. The use of chitosan/BCP scaffolds for culture of MSCs and preosteoblasts enhances bone tissue development in vitro.
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PMID:The addition of biphasic calcium phosphate to porous chitosan scaffolds enhances bone tissue development in vitro. 1718 98


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