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)

Clinical and laboratory findings from 15 patients with icteric viral hepatitis during pregnancy (VHP) and from 22 patients with intrahepatic cholestasis during pregnancy (CJP) were evaluated statistically in order to find out which parameters might help in order to find out which parameters might help in differentiating the two diseases. Diagnosis was established by needle liver biopsy in all cases. The following data were considered: history, physical examination, erythrocyte sedimentation rate (ESR) serum cholesterol, prothrombin time, total serum bilirubin, SGOT, SGPT, serum alkaline phosphatase, serum protein, serum flocculation tests, BSP blood clearance and serum HB Ag. Vomiting, high GOT and GPT serum levels, and serum HB Ag positivity suggest VHP diagnosis. Otherwise a severe itching with scratching lesions, high ESR, elevated total cholesterol and serum alkaline phosphatase values mainly if occurring in the later stage of pregnancy are consistent with CJP diagnosis. When clinical and laboratory data from a jaundiced pregnant female do not allow diagnosis, this can be established only on the basis of needle liver biopsy.
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PMID:The differential diagnosis between intrahepatic cholestatic jaundice and viral hepatitis during pregnancy. 122 May 7

The differentiation of adipocytic and osteogenic cells has been investigated in cultures of adult rat marrow stromal cells. Adipocytic differentiation was assessed using morphological criteria, changes in expression of procollagen mRNAs, consistent with a switch from the synthesis of predominantly fibrillar (types I and III) to basement membrane (type IV) collagen, and the induction of expression of aP2, a specific marker for differentiation of adipocytes. Osteogenic differentiation was assessed on the basis of changes in the abundance of the mRNAs for the bone/liver/kidney isozyme of alkaline phosphatase and the induction of mRNAs for bone sialoprotein and osteocalcin. In the presence of foetal calf serum and dexamethasone (10(-8) M) there was always differentiation of both adipocytic and osteogenic cells. When the steroid was present throughout primary and secondary culture the differentiation of osteogenic cells predominated. Conversely, when dexamethasone was present in secondary culture only, the differentiation of adipocytes predominated. When marrow stromal cells were cultured in the presence of dexamethasone in primary culture and dexamethasone and 1,25-dihydroxyvitamin D3 (1,25(OH)2D3; 10(-8) M) in secondary culture, the differentiation of adipocytes was inhibited whereas the differentiation of osteogenic cells was enhanced, as assessed by an increase in expression of osteocalcin mRNA. The results, therefore, demonstrate an inverse relationship between the differentiation of adipocytic and osteogenic cells in this culture system and are consistent with the possibility that the regulation of adipogenesis and osteogenesis can occur at the level of a common precursor in vivo.
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PMID:Evidence for an inverse relationship between the differentiation of adipocytic and osteogenic cells in rat marrow stromal cell cultures. 140 Jun 36

When fetal rat calvarial cells are cultured in medium containing vitamin C, osteoid nodules develop after approximately 15 days of culture. Upon addition of an organic phosphate (beta-glycerophosphate, beta GP), these nodules mineralize. We have now used this system to explore the suggestion made by others that a negative feedback may exist between matrix mineralization on the one hand and the synthesis of alkaline phosphatase and bone matrix collagen on the other by analyzing the synthesis of these proteins and the levels of their mRNAs in mineralizing and nonmineralizing cultures. Our results indicate that in the osteoid nodule-bone nodule system, matrix mineralization did not affect the mRNA levels for osteopontin, type I collagen, bone sialoprotein, or osteocalcin. Synthesis of total protein and collagen and the osteocalcin content of culture media were also not different in the mineralizing and nonmineralizing cultures. However, alkaline phosphatase mRNA was increased in early mineralizing cultures and alkaline phosphatase activity in the cell layer was also increased in mineralizing cultures. Thus, the hypothesis that a direct negative feedback exists between mineralization and matrix protein synthesis is not supported by our experiments.
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PMID:beta-Glycerophosphate-induced mineralization of osteoid does not alter expression of extracellular matrix components in fetal rat calvarial cell cultures. 145 88

In the accompanying study, we report an in vitro culture system from bovine bone cells that can be applied to investigate bone cell growth and differentiation. In this system, bovine bone cells placed in mineralization medium formed multilayers (days 2-3), began deposition of mineral (days 5-6), and eventually acquired a mineralized matrix sheet (days 14-20) through the stages of mineralizing nodules and trabecular-like structure. In the current study we used this system to investigate the relative expression of bone matrix genes that may play an important role in bone development and metabolism. alpha 1(I)-collagen, alkaline phosphatase, osteonectin, biglycan (PgI), decorin (PgII), osteopontin, and bone sialoprotein mRNA gene expression were measured on days 0, 2, 6, 10, and 20 (date when the cells were placed in mineralization medium as day 0). Total RNA was purified and analyzed by northern blot using radiolabeled cDNA encoding these genes. To comprehend the relationship between gene expression and mineralization, total calcium content in the cultures was also measured. During the culture period we observed several very different gene expression profiles. The expression of both alpha 1(I)-collagen and biglycan increased 3- to 4-fold by day 6 and then returned to basal levels by day 20. The osteonectin gene was highly expressed throughout the culture, with no significant increase in induction found during any time of culture. A significant induction of alkaline phosphatase (13.8-fold) gene expression was observed by day 6. Osteopontin showed a similar profile to that of alkaline phosphatase but had a much greater level of relative expression (26-fold) compared to day 0. Interestingly, downregulation during mineral accumulation seemed a common occurrence among many of the genes measured. In contrast, the bone sialoprotein gene showed a significant and distinct expression pattern, increasing rapidly after the onset of mineralization on day 6 and ultimately reaching 140-fold that of day 0. Decorin (Pg II) showed an increasing pattern, with the final relative level of induction 5-fold on day 20. These data suggest that the development of the mature osteoblastic phenotype, complete with the ability to produce a thick mineralized matrix, requires the differential regulation of a series of genes and their gene products over the culture period.
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PMID:Bone matrix mRNA expression in differentiating fetal bovine osteoblasts. 164 43

Osteoblasts, the bone-forming cells, synthesize the macromolecules of the bone matrix including: type I collagen; osteocalcin; osteonectin; osteopontin; proteoglycan I and II; bone sialoprotein; matrix gla-protein; bone glycoprotein 75; several other proteins, which have not been extensively characterized; growth factors, including transforming growth factor beta and fibroblast growth factor. Osteoblasts also have high levels of the membrane-bound enzyme, alkaline phosphatase, which plays a role in matrix mineralization, and receptors for tissue-specific hormones, such as parathyroid hormone, as well as many other hormones, cytokines and growth factors, which regulate bone growth, differentiation and metabolism. The expression of these various proteins, most of which are not unique to bone but which together characterize the bone phenotype, is induced during osteoblastic differentiation in a stepwise fashion, suggestive of multiple regulatory factors. The detailed sequence of the expression of osteoblastic genes in situ has not been fully characterized. It appears that type I collagen and alkaline phosphatase are expressed early during the commitment to the osteoblastic phenotype, whereas osteopontin and osteocalcin appear late during osteoblastic differentiation. Diversity among "osteoblastic" cells is also apparent, probably not all osteoblastic cells express all the features. A large number of osteoblastic models are currently available to study the expression of osteoblast-related genes in vitro. These include primary cultures from calvaria or trabecular bone from several species, including humans, osteosarcoma-derived cell lines, and experimentally immortalized cells. Some of these in vitro models, especially the calvaria-derived cultures, undergo changes which mimic osteoblastic differentiation in vivo. The study of these and other cell models started providing insights into the regulation of gene expression in osteoblastic cells. In addition to a vast body of information on the conditions required for the expression of various proteins in culture and their regulation by hormones and growth factors, more detailed information on specific genes has recently been obtained. For example, regulation of type I collagen gene expression has been studied in osteosarcoma cell lines where 1,25(OH)2 vitamin D3 was shown to act via specific DNA segment(s) in the 5' flanking region of the gene, while parathyroid hormone affected gene expression by altering the stability of the transcripts. TGF beta 1, which stimulates osteogenesis, was shown to promote the transcription of osteopontin and type I collagen, the latter effect requiring the binding site for the transactivating protein, nuclear factor I.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Gene expression in osteoblastic cells. 180 5

The nature and tissue distribution of non-collagenous bone proteins synthesized by adult rat bone marrow cells, induced to differentiate in the presence of dexamethasone (DEX) and beta-glycerophosphate (beta-GP), was studied in vitro to determine the potential role of these proteins in bone formation. Northern hybridization analysis revealed a strong induction of bone sialoprotein (BSP) and osteocalcin in DEX-treated cultures, whereas the constitutive expression of secreted phosphoprotein I (SPP-1), type I collagen, SPARC, and alkaline phosphatase was stimulated 6-, 5-, 3-, and 2.5-told, respectively. Metabolic labeling of proteins showed that the sialoproteins (SPP-1 and BSP) were mostly secreted into the culture medium in the non-mineralizing (-beta-GP) cultures, but were the predominant non-collagenous proteins associated with the hydroxyapatite of the bone nodules in mineralizing cultures (+ beta-GP). Extraction of the tissue matrix with 4 M GuHCl and digestion of the demineralized tissue matrix with bacterial collagenase revealed that some BSP was also associated non-covalently and covalently with the collagenous matrix. SPP-1 was present in two distinct, 44 kDa and 55 kDa, forms in the conditioned medium of all cultures and was preferentially associated with the hydroxyapatite in the mineralizing cultures. In comparison, SPARC was abundant in culture media but could not be detected in de-mineralizing extracts of the mineralized tissue. Radiolabeling with [35SO4] demonstrated that both SPP-1 and BSP synthesized by bone cells are sulfated, and that a 35 kDa protein and some proteoglycan were covalently associated with the collagenous matrix in +DEX cultures. Labeling with [32PO4] was essentially confined to the sialoproteins; the 44 kDa SPP-1 incorporating significantly more [32PO4] than the 55 kDa SPP-1 and the BSP. These studies demonstrate that BSP and osteocalcin are only expressed in differentiated osteoblasts and that most of the major non-collagenous bone proteins associate with the bone mineral. However, some novel proteins together with some of the BSP are associated with the collagenous matrix where they can influence hydroxyapatite formation.
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PMID:Expression of bone matrix proteins associated with mineralized tissue formation by adult rat bone marrow cells in vitro: inductive effects of dexamethasone on the osteoblastic phenotype. 203 18

Rat frontonasal and mandibular mesenchyme was isolated from day-12 1/2 (stage-22) rat embryos and cultured at high density for up to 12 days. The stage chosen was based on the observation that mandibular mesenchyme at this stage became independent of its epithelium with respect to the production of both cartilage and bone. Frontonasal cultures developed aggregates of anastomosing columns of cells within 2 days. These grew as the cells enlarged, laying down an Alcian-blue-positive matrix by day 3 of culture. Significant mineral was detected by von Kossa staining by day 5 at which time the aggregates covered a large portion of the culture, eventually covering the entire micromass by day 10-12. Mandibular cultures developed centrally located nodular aggregates by 3 days of culture. These nodules increased in number, spreading outwards as the cells enlarged, laying down an Alcian-blue-positive matrix by day 4 and mineral by days 6-7. At this time the nodules began to elongate and coalesce, but never covered the entire culture over the 12-day period. Antibody staining revealed that in both cultures the cells were initially positive for type I collagen. Subsequently, the aggregates began expressing type II collagen, followed by type X, which coincided with the onset of mineralization. At this time some cells were negative for these cartilage markers, but positive for osteoblast markers, bone sialoprotein II, osteocalcin and type I collagen. In addition osteonectin and alkaline phosphatase were demonstrable in all of the aggregate cells late in the culture period. This provided clear evidence that chondroblast and osteoblast differentiation was proceeding within these cultures. The culture of rat facial mesenchyme should prove very useful, not only for the analysis of bone and cartilage induction and lineage relationships, but also in furthering our knowledge of craniofacial differentiation, growth and pattern formation by extending our analysis to a mammalian system.
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PMID:Formation of chondrous and osseous tissues in micromass cultures of rat frontonasal and mandibular ectomesenchyme. 227 11

The non-collagen proteins of bone are a complex set of molecules that arise from local or exogenous sources. Because bone mineral is an excellent adsorbent, many circulatory and/or cell surface proteins bind to bone, where they may have immediate or subsequent effects. These include the alpha 2-HS-glycoprotein from blood and the potent growth factors TGF-beta, PDGF, IGF-1, FGF-a and -b, and IL-1, derived from both bone and non-bone cells. Furthermore, bone cell membrane proteins such as alkaline phosphatase may be cleaved from the cell surface and entrapped in the bone matrix. Bone is enriched in a variety of enzymes and their inhibitors by similar adsorption processes. Even osteocalcin, a bone cell product, is adsorbed to bone via mineral-binding (Gla) groups. The bone sialoproteins (BSP-I or osteopontin and BSP-II) also bind to the mineral via acidic groups. Because of this phenomenon it is difficult to distinguish whether a given protein's presence in bone is advantageous or merely fortuitous. The bone matrix proper consists of type I collagen and other osteoblast products such as osteonectin (a phosphorylated glycoprotein) and small proteoglycans (PG-I and/or PG-II) which are incorporated into bone collagen fibrils. These proteins may have additional roles in tissue morphogenesis and/or differentiation.
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PMID:Non-collagen proteins in bone. 306 9

Examined were 42 CS2-exposed subjects, 34 CV-exposed subjects and 14 healthy people (control group) with no exposure to chemicals that might change the hepatic microsomal enzymes activity. All the subjects underwent antipyrine test (clearance and plasma half-time). The activities of AspAT and AlAT aminotransferases, alkaline phosphatase, gamma-glutamyl-transferase, and the value of thymol test and BSP were determined. Furthermore, in CV-exposed subjects, the organic clearance for N 2,4-dimethyl-acetanilide-iminodiacetic acid was determined. It was demonstrated that the mean value of antipyrine clearance was significantly reduced in CS2-exposed group, whereas in CV-exposed subjects the mean clearance value differed significantly from the control group value. The pathological values of antipyrine clearance were found in 12 CS2-exposed and only in 3 CV-exposed subjects. Pathological findings of the Hepida test were found in 3 CV-exposed subjects who exhibited normal antipyrine clearance values. This would imply that the Hepida test detects disturbances of different type in hepatic cells functioning, as compared to the antipyrine test. The studies confirmed that the antipyrine test performed in a simplified version (a single biological sampling) bears the same reference value for the detection of disturbances in hepatic microsomal enzymes as the traditional version of the test calling for repeated collection of blood or saliva.
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PMID:[Evaluation of the functional status of hepatic microsomal enzymes in workers exposed to carbon dioxide and vinyl chloride by using the antipyrine test]. 311 36

Mandibular condyles of fetal mice 19 to 20 days in utero comprising clean cartilage and its perichondrium were cultured for up to 14 days, and their capacity to develop osteoid and to mineralize in vitro was examined. After 3 days in culture the cartilage of the mandibular condyle appeared to have lost its inherent structural characteristics, including its various cell layers: chondroprogenitor, chondroblastic, and hypertrophic cells. At that time interval no chondroblasts could be seen; instead, most of the cartilage consisted of hypertrophic chondrocytes. By that time, the surrounding perichondrium, which contains pluripotential mesenchymal stem cells, revealed the first signs of extracellular matrix enclosing type I collagen, bone alkaline phosphatase, osteonection, fibronectin, and bone sialoprotein as demonstrated by immunofluorescent techniques. Electron microscopic examinations of the newly formed matrix revealed foci of mineralization within and along collagen fibers as is normally observed during bone development. The composition of the latter mineral deposits resembled calcium pyrophosphate crystals. Following 14 days in culture larger portions of the condyle revealed signs of osseous matrix, yet the tissue reacted positively for type II collagen. Hence, the condylar cartilage, a genuine representative of secondary-type cartilage, elaborated in vitro a unique type of bone that would be most appropriately defined as chondroid bone. Biochemical assays indicated that the de novo formation of chondroid bone was correlated with changes in alkaline phosphatase activity and 45Ca incorporation. The findings of the present study imply that mesenchymal stem cells that ordinarily differentiate into cartilage possess the capacity to differentiate into osteogenic cells and form chondroid bone.
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PMID:Chondroid bone arises from mesenchymal stem cells in organ culture of mandibular condyles. 359 22


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