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 consumption of plants containing the diterpenoid atractyloside (ATR) causes selective proximal tubule injury, renal failure and death in humans. We have compared the effects of ATR in freshly isolated renal proximal tubules and glomeruli from rat and also in cell lines: NRK, derived from the proximal tubules, and MDBK and MDCK more closely representing the distal nephron. The effects of ATR (10-500 microM) on proximal tubules and glomeruli were assessed by changes in lipid peroxidation, de novo protein synthesis and the leakage of alkaline phosphatase (ALP), lactate dehydrogenase (LDH), glutamate dehydrogenase (GDH) and N-acetyl-beta-D-glucosaminidase (NAG). The susceptibility of NRK, MDBK and MDCK cell lines to ATR was assessed by the 3-(4,5-dimethylthiazole-2-yl)-2,5-diphenyl tetrazolium bromide (MTT) assay, measuring mitochondrial reduction. Enzyme leakage was the most sensitive of the markers of cell injury in fresh fragments and ranked LDH > GDH > ALP > NAG in proximal tubules. As little as 20 microM ATR caused significant enzyme leakage from proximal tubules, but there were no increases in enzyme leakage from glomeruli at concentrations < and = 500 microM ATR. De novo protein synthesis was only inhibited 50% at ATR concentration > 5 mM in the proximal tubules, but there were no effects in glomeruli. Malondialdehyde production was significantly elevated at 1 mM ATR for proximal tubules, and 500 microM for glomeruli. NRK cells were sensitive to ATR (IC50, 120 microM), but MDBK or MDCK cells were unaffected by < and = 1 mM of this diterpenoid. Both freshly isolated fragments and continuous cell lines representing the proximal tubules are more sensitive to ATR than either glomeruli or cells representing the distal nephron. These data also show that protein synthesis is a less specific and sensitive measure of ATR cytotoxicity than enzyme leakage in fragments. MTT reduction to formazan was the most sensitive in the NRK cell line. The low levels of lipid peroxidation products in proximal tubular fragments or sensitive renal cell lines at toxic levels of ATR suggest that oxidative injury is not a key mechanism.
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PMID:Selective cytotoxicity associated with in vitro exposure of fresh rat renal fragments and continuous cell lines to atractyloside. 901 May 90

The cytocompatibility of stainless steel 316L (SS 316L) corrosion products was investigated with particular focus on the dose- and time-effect of electrochemically dissolved SS and the corresponding separate metal ions on osteogenic bone marrow derived cells. Type AISI 316L stainless steel (Fe 63.9%, Cr 18.0%, Ni 12.5%, Mo 2.8%, Si 1.2%, Mn 1.6% and C 0.025%, weight for weight) was anodically dissolved in Hank's Balanced Salt Solution (HBSS) and diluted to the following concentrations: 500 microg ml(-1) of Fe, 122 microg ml(-1) of Cr and 101 microg ml(-1) of Ni, as estimated by atomic absorption spectrometry. Similarly, salt solutions containing 50 microg ml(-1) of Fe (FeCl3 x 6H2O), 122 microg ml(-1) of Cr (CrCl3 x 6H2O) or 101 microg ml(-1) of Ni (NiNO3) were prepared. All solutions were diluted 1:10(3), 1:10(4) and 1:10(5) and their effects on cell proliferation and function of rabbit bone marrow cells were studied up to 28 days of culture. Bone marrow cells (second subculture) were cultured in alpha-Minimal Essential Medium (alpha-MEM) supplemented with 10% fetal bovine serum 10(-8) mol l(-1) dexamethasone, 2.52 x 10(-4) mol l(-1) ascorbic acid and 10(-2) mol l(-1) beta-glycerophosphate. The osteoblast response to the presence of metal ions was evaluated by biochemical assays (enzymatic reduction of MTT for evaluation of cell viability/proliferation, and estimation of alkaline phosphatase (ALP) activity) and histochemical assays (identification of ALP positive cells and calcium and phosphates deposits). Results suggest a decrease in the expression of the osteoblast phenotype in the presence of ion and alloy solutions. Stainless steel corrosion products elicited slight effects but the corresponding metal ions produced pronounced effects on the osteoblast phenotype, namely an alteration in the levels and temporal expression of ALP and lower and retarded tissue mineralization ability.
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PMID:In vitro biomineralization by osteoblast-like cells. I. Retardation of tissue mineralization by metal salts. 967 45

The behavior of cultured rat bone cells growing on modified polyethylene terephthalate (mPET), glass, and machinable ceramic substrates containing enstatite (MgO, SiO2) and glass (CaO-P2O5-Al2O3) was studied. Cell attachment was measured directly on the substrates using an image analysis system. Electron microscopy observations and the MTT test revealed that cells are able to spread and proliferate on the material surface, keeping a healthy ultrastructure on all materials tested in the present study. After having colonized the surface of the materials, as shown by immunocytochemistry, the cells synthesize an osteoid-like matrix composed of osteocalcin, type I collagen, and fibronectin fibrils. The titration of alkaline phosphatase activity showed that the cells grown on the ceramic exhibit a greater osteogenic activity than those grown on controls (glass and mPET). This osteogenic activity results in a mineralization of the extracellular matrix in cultures on ceramic or plastic whereas only few calcium phosphate crystallite traces were revealed by Von Kossa staining on glass. Enstatite constitutes, therefore, an environment compatible with in vitro bone cell life.
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PMID:Effects of new machinable ceramic on behavior of rat bone cells cultured in vitro. 973 58

Chloragocytes were isolated from the earthworm species Lumbricus terrestris. After mechanical dissociation and sedimentation through Percoll, a highly purified fraction of viable chloragocytes was obtained. The isolated chloragocytes accumulated the vital dye neutral red and reduced the tetrazolium dye MTT, thereby indicating cellular integrity. Time of flight flow cytometric analyses revealed a main population of large and highly granulated cells in the 30-33 microm size range. Hydrolase measurements showed that beta-D-N-acetyl-glucosaminidase and acid phosphatase exhibited the highest activities (146.6 and 24.9 mU/mg of protein, respectively), possibly indicating a major role for these 2 hydrolases in the physiological function of chloragocytes. In contrast, other acid hydrolases such as beta-D-galactosidase and beta-D-glucuronidase had specific activities of respectively 26 and 182 times lower than the glucosaminidase. The specific activity of the membrane-bound alkaline phosphatase was comparable to that of its acid counterpart (18.9 vs. 24.9 mU/mg of protein, respectively) and this level of activity may show an important trans-membrane activity in chloragocytes. The cytoplasmic and mitochondrial enzyme isocitrate dehydrogenase had a level of activity comparable to that of the exclusively cytoplasmic enzyme lactate dehydrogenase (6.6 vs. 8.1 mIU/mg of protein, respectively). When L. terrestris chloragocyte homogenates were separated on Percoll, results showed that hydrolases and dehydrogenases were mainly associated with the lighter materials that remained above the Percoll layer. Nonetheless, the detection of significant proportions (15-25%) of the total recovered activity of acid phosphatase and beta-galactosidase in the enriched chloragosome fraction supports the notion that some chloragosomes may be 'lysosome-like' organelles.
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PMID:Isolation, purification and partial characterization of chloragocytes from the earthworm species Lumbricus terrestris. 974 18

The purpose of this study was to investigate the effects of 316L stainless steel (SS) corrosion products on the in vitro biomineralization process, because tissue necrosis, bone loss, impaired bone mineralization, and loosening of orthopedic implants are associated with ions and debris resulting from biodegradation. Rat bone marrow cells were cultured in experimental conditions that favored the proliferation and differentiation of osteoblastic cells and were exposed to SS corrosion products obtained by electrochemical means for periods ranging from 1 to 21 days. Quantification of total and ionized Ca and P, as well as Fe, Cr, and Ni, ions in the culture media of control and metal added cultures during the incubation period was performed to study the influence of corrosion products on the Ca and P consumption that occurs during the mineralization process. Control cultures and metal effects on cultures were evaluated concerning DNA content, enzymatic reduction of 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide (MTT), and alkaline phosphatase (ALP) activity. Histochemical detection of ALP, Ca, and phosphate deposition, and examination of the cultures by scanning and transmission electron microscopy (SEM and TEM) were also performed. The presence of SS corrosion products resulted in impairment of the normal behavior of rat bone marrow cultures. Levels of Cr and Ni in the medium of cultures exposed to 316L SS corrosion products decreased throughout the incubation period, suggesting a regular deposition of these species; these results were supported by TEM observation of the cultures. Cultures exposed to the corrosion products presented lower DNA content, MTT reduction, and ALP activity and failed to form mineralized areas. These cultures showed negative staining on histochemical reactions for the identification of calcium and phosphate deposition and SEM and TEM examination did not show mineral globular structures or mineralization foci, respectively, which is characteristic of cultures grown in control conditions. These results suggest that metal ions associated with 316L SS are toxic to osteogenic cells, affecting their proliferation and differentiation.
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PMID:Decreased consumption of Ca and P during in vitro biomineralization and biologically induced deposition of Ni and Cr in presence of stainless steel corrosion products. 977 16

Explant cultures of adult rabbit bone were obtained from a variety of skeletal sites, with the intention of using the cells in a new type of bone graft. The explant cultures contained large numbers of esterase-positive, alkaline phosphatase-negative, TRAP-negative macrophage-like cells (MP), as well as osteoblast-like osteoprogenitor (OP) cells (alkaline phosphatase-positive). OP numbers were assessed by cell counts and MTT assay. The presence of the MP cells appeared to give rise to a reduction in OP numbers in culture, through cell detachment and cell lysis. In addition, after passaging, many OP were unable to reattach to the culture vessels in the presence of MP, depending upon the surface area available for reattachment. The presence of tumor necrosis factor alpha (TNFalpha) in culture medium from these cell cultures was demonstrated by a specific enzyme-linked immunosorbent assay (ELISA). A direct relationship was demonstrated between MP numbers and TNFalpha concentration and an inverse relationship between MP numbers and OP numbers in co-cultures. This was also found when OP cells were exposed to different concentrations of rTNFalpha, in place of the MP. Incubation with anti-TNFalpha inhibited the effect of MP and TNFalpha on OP. These results suggest that MP are able to cause detachment and lysis of OP cells, probably by secretion of a soluble factor in vitro which may be TNFalpha.
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PMID:Soluble factors secreted by macrophage-like cells in vitro cause osteoprogenitor cell detachment. 981 44

Previous studies have indicated that thrombin can activate pulp cells, including fibroblasts. Because pulp cells and periodontal ligament (PDL) fibroblasts can express thrombin receptor mRNA, the specific aim of this study was to determine whether thrombin can activate the growth, attachment, protein synthesis, alkaline phosphatase activities and cellular clustering of cultured human PDL fibroblasts. Thrombin can stimulate the growth of PDL fibroblasts in a dose dependent manner (as analyzed by MTT assay). At concentrations of 5 and 10 U/ml, thrombin increased the cell numbers to 141% and 153% greater than that of the control after 5 days of incubation, respectively. Thrombin (5-20 U/ml) also stimulated the protein synthesis rate (assayed by [3H]proline incorporation) to 1.88-2.13 fold that of the control. However, pretreatment of PDL fibroblasts with thrombin (1-20 U/ml) could not promote the attachment of PDL fibroblasts to type I collagen and fibronectin. Moreover, thrombin could induce clustering of PDL fibroblasts within a concentration range of 5-20 U/ml. However, thrombin (1-20 U/ml) exerted neither stimulatory nor inhibitory effect on cellular alkaline phosphatase activities. In conclusion, it appears that the presence of thrombin seems to have effects on PDL fibroblasts in terms of cell growth, protein synthesis and cell clustering. This suggests that thrombin might be important in the early healing process of periodontium following periodontal surgery.
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PMID:Effects of thrombin on the growth, protein synthesis, attachment, clustering and alkaline phosphatase activity of cultured human periodontal ligament fibroblasts. 985 May 96

For periods up to 21 days human bone marrow was cultured in control conditions that favor the proliferation and differentiation of osteoblastic cells. The effect of AISI 316L corrosion products and the corresponding major separate metal ions (Fe, Cr, and Ni) were studied in three different phases of the culture period in order to investigate the effects of metal ions in cell populations representative of osteoblastic cells in different stages of differentiation. Toxicity consequences of the presence of metal ions in bone marrow cultures were evaluated by biochemical parameters (enzymatic reduction of MTT, alkaline phosphatase activity, and total protein content), histochemical assays (identification of ALP-positive cells and Ca and phosphates deposits), and observation of the cultures by light and scanning electron microscopy. Culture media were analyzed for total and ionized Ca and P and also for metal ions (Fe, Cr, and Ni). The presence of AISI 316L corrosion products and Ni salt in bone marrow cultures during the first and second weeks of culture significantly disturbs the normal behavior of these cultures, interfering in the lag phase and exponential phase of cell growth and ALP expression. However, the presence of these species during the third week of culture, when expression of osteoblastic functions occurs (mineralization process), did not result in any detectable effect. Fe salt also disturbs the behavior of bone marrow cell cultures when present during the lag phase and proliferation phase, and a somewhat compromised response between the normal pattern (control cultures) and intense inhibition (AISI 316L corrosion products and Ni salt-added cultures) was observed. Fe did not affect the progression of the mineralization phase. Osteogenic cultures exposed to Cr salt (Cr3+) presented a pattern similar to the controls, indicating that this element does not interfere, in the concentration studied, in the osteoblastic differentiation of bone marrow cells. Quantification of metal ions in the culture media showed that Cr (originated from AISI 316L corrosion products but from not Cr3+ salt) and Ni (originated from AISI 316L corrosion products and Ni salt) appear to be retained by the bone marrow cultures.
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PMID:In vitro osteoblastic differentiation of human bone marrow cells in the presence of metal ions. 1039 19

Activin-A is a member of the transforming growth factor-beta (TGF-beta) superfamily and is expressed by osteoblasts. However, the role of activin-A on osteoblasts is not clearly understood. We examined the effects of activin-A on osteoblast proliferation or differentiation, and mineralization by the osteoblasts in the first subcultures of fetal rat osteoblasts obtained from calvarial bones. Exogenous activin-A led to impaired formation of bone nodules in a dose-dependent manner, although it did not influence cell proliferation using an MTT assay. This inhibitory effect depended upon the time at which activin-A was added to the culture media, and the effect was most significant when addition took place at the early phase of the culture. In addition, exogenous activin-A inhibited gene expression of type I procollagen, alkaline phosphatase, osteonectin, and osteopontin in the cultured cells using Northern blot analysis. The peak of osteocalcin mRNA was delayed. Gene expression for TGF-beta was not influenced by exogenous activin-A. The betaA subunit (activin-A) mRNA was detected during the early phase of this culture. These results indicate that activin-A inhibited early differentiation of the fetal rat calvarial cells, or osteoblasts.
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PMID:Inhibitory effects of activin-A on osteoblast differentiation during cultures of fetal rat calvarial cells. 1050 93

Irradiation is a well established therapeutical concept to prevent heterotopic ossification after joint replacement. The influence of irradiation on proliferation of mature osteoblasts and their potential osteoprogenitors, matrix formation and mineralization are not well known in this setting. We therefore studied the effect of different doses of ionizing irradiation on the several steps of osteogenesis in vitro, using cells isolated from the juvenile rat. A colony forming test, the MTT-viability assay, a cell count, measurement of the cellular protein content and alkaline phosphatase activity, as well as determination of in vitro mineralisation have been applied to calvarian osteoblasts, fibroblasts and stromal bone marrow cells. Irradiation results in a dose-dependent suppression of clonogenic activity in all mitotically active cells, but metabolic activity and matrix synthesis were not impaired. In dense cultures alkaline phosphatase expression and in vitro mineralisation were not significantly affected by irradiation. Our experimental in vitro data suggest that irradiation inhibits the initial phase of in vivo osteogenesis due to the cytostatic effect. Postoperative irradiation after THR must therefore take place as early as possible. The homoeostasis of normal, orthotopic bone does not seem to be severely affected by local low-dose irradiation.
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PMID:[Osteogenesis in exposure to ionizing radiation in vitro]. 1066 62


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