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: UMLS:C0029463 (osteosarcoma)
16,637 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Morbidity rates for osteogenic sarcoma in the Armenian SSR within 10 years (1970-1979) were studied. The climatic, geographic and geochemical peculiarities of low and high morbidity rate regions of the Republic were compared. The rates were high in areas where the soil is rich in boron and poor in silicon, cobalt and zinc and where, as a rule, calcium level in irrigating and drinking water is high.
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PMID:[Analytical epidemiology of osteogenic sarcoma in the Armenian SSR]. 622 25

Animal cells release traces of material onto glass or silicon surfaces during adhesion and migration. This little studied phenomenon is a widespread and normal concomitant of cell migration. The paper introduces the study of such material. The traces can be visualised by different microscopic techniques (e.g. TIRF, IRM, CLSM, AFM, SEM). Cell traces typical for different cell lines (NIH 3T3 and L929 mouse fibroblasts, mouse macrophages, mouse sarcoma cells and human osteosarcoma cells) are shown and discussed. There are well organised structures such as different linear and nodular elements as well as patches. Traces can extend up to some hundred micrometers from the cell, but the dimensions of the linear elements are in the submicron range. Cell traces are not identical with focal contacts but can include them. A first classification of basic elements is proposed. It allows an estimation of the total volume and surface in comparison to the donor cell. Higher order structures are discussed and a first insight into the protein composition of traces produced by mouse fibroblasts is given. Our observations, together with the cell adhesion literature suggest that the amount of released material, its extent and chemical and structural properties depend on cell type and physiology as well as other external influences. Cell traces in combination with the adhesion pattern of the donor cell should give information about the activity and physiological status of individual cells, the mechanisms of cell locomotion and the molecular composition of the donor cell membrane. The traces might possibly be used as submicron elements for passive electric characterisation and biotechnological applications.
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PMID:Cell traces--footprints of individual cells during locomotion and adhesion. 979 50

The biological effect of a radiopharmaceutical depends heavily on the heterogeneity of the uptake in the various tissues. A comparative study of two radiopharmaceuticals should therefore include a comparison of the uptake patterns in different tissues. To eliminate the problems caused by variation in kinetics and tumour characteristics between individuals, such a comparison should be based on measured distributions of the radiopharmaceuticals in the same tissue sample. The excellent linearity between activity and counts in images obtained with a digital silicon strip detector allows such distributions to be derived from two autoradiographs acquired at different time points. This method was applied in a comparison of the uptake patterns of 153Sm-EDTMP and 89SrCl2 in sections obtained from a dog with spontaneous osteosarcoma, containing both tumour and normal bone tissues. As the areas of the section were larger than the detector area, the section had to be cut into smaller parts. Images of these were later merged by means of image processing techniques. There were significant differences in the uptake patterns of the two nuclides. In the primary tumour, the uptake of 153Sm was highly heterogeneous, while 89Sr was more uniformly distributed. In trabecular bone, the accumulation of 153Sm was higher than that of 89Sr. In solid cortical bone, 89Sr had the highest uptake.
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PMID:A method for measurement of the uptake patterns of two beta-emitting radionuclides in the same tissue section with a digital silicon detector: application to a study of 89SrCl2 and 153Sm-EDTMP in a dog with spontaneous osteosarcoma. 1227 28

Silicon deficiency in animals leads to bone defects. This element may therefore play an important role in bone metabolism. Silicon is absorbed from the diet as orthosilicic acid and concentrations in plasma are 5-20 microM. The in vitro effects of orthosilicic acid (0-50 microM) on collagen type 1 synthesis was investigated using the human osteosarcoma cell line (MG-63), primary osteoblast-like cells derived from human bone marrow stromal cells, and an immortalized human early osteoblastic cell line (HCC1). Collagen type 1 mRNA expression and prolyl hydroxylase activity were also determined in the MG-63 cells. Alkaline phosphatase and osteocalcin (osteoblastic differentiation) were assessed both at the protein and the mRNA level in MG-63 cells treated with orthosilicic acid. Collagen type 1 synthesis increased in all treated cells at orthosilicic acid concentrations of 10 and 20 microM, although the effects were more marked in the clonal cell lines (MG-63, HCCl 1.75- and 1.8-fold, respectively, P < 0.001, compared to 1.45-fold in the primary cell lines). Treatment at 50 microM resulted in a smaller increase in collagen type 1 synthesis (MG-63 1.45-fold, P = 0.004). The effect of orthosilicic acid was abolished in the presence of prolyl hydroxylase inhibitors. No change in collagen type 1 mRNA level was seen in treated MG-63 cells. Alkaline phosphatase activity and osteocalcin were significantly increased (1.5, 1.2-fold at concentrations of 10 and 20 microM, respectively, P < 0.05). Gene expression of alkaline phosphatase and osteocalcin also increased significantly following treatment. In conclusion, orthosilicic acid at physiological concentrations stimulates collagen type 1 synthesis in human osteoblast-like cells and enhances osteoblastic differentiation.
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PMID:Orthosilicic acid stimulates collagen type 1 synthesis and osteoblastic differentiation in human osteoblast-like cells in vitro. 1263 84

Cell adhesion to biomaterials is a prerequisite for tissue integration with the implant surface. Herein, we show that we can generate a model silica surface that contains a minimal-length arginine-glycine-aspartic acid (RGD) peptide that maintains its biological activity. In the first part of this study, attachment of MC3T3-E1 osteoblast-like cells was investigated on silicon oxide, amine terminated substrates [i.e., 3-aminopropyl triethoxysilane (APTS)], grafted RGD, and physisorbed RGD control. The APTS layer exhibited nanoscale roughness and presented amine functional groups for grafting a minimal RGD tripeptide devoid of any flanking groups or spacers. Contact angle measurements indicated that the hydrophobicity of the APTS surface was significantly lower than that of the surface with grafted RGD (RGD-APTS). Atomic force microscopy showed that surfaces covered with RGD-APTS were smoother (Ra = 0.71 nm) than those covered with APTS alone (Ra = 1.59 nm). Focusing mainly on cell morphology, experiments showed that the RGD-APTS hybrid provided an optimum surface for cell adhesion, spreading, and cytoskeletal organization. Discrete focal adhesion plaques were also observed consistent with successful cell signaling events. In a second set of experiments, smooth, monolayers of APTS (Ra = 0.1 nm) were used to prepare arginine-glycine-aspartic acid-serine (RGDS)-APTS and arginine-glycine-glutamic acid-serine (RGES)-APTS (control) substrates. Focusing mainly on cell function, integrin and gene expression were all enhanced for rate osteosarcoma cells on surfaces containing grafted RGDS. Both sets of studies demonstrated that grafted molecules of RGD(S) enhance both osteoblast-like cell adhesion and function.
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PMID:Model surfaces engineered with nanoscale roughness and RGD tripeptides promote osteoblast activity. 1498 17

To gain insight into the early response of osteoblastic cells to a physiological level of mechanical strain in vitro, the secretion of osteopontin by MG-63 osteosarcoma cells was assessed by [35S] incorporation and autoradiography. First, osteopontin secreted from MG-63 cells was immunolocalized at 60-64 kDa (Mr) by polyacrylamide gel electrophoresis. A uniform physiological level of strain was generated by a vacuum added to the convex side of a half-ball shaped silicon rubber membrane on which the cells were cultured on the concave side. After labelling proteins with [35S]-methionine/cysteine (147 microCi/ml), the membranes were exposed to a strain of 0.5 per cent (5000 microepsilon), 3 cycles/minute (sine wave) with 10 minutes on and off. At 1, 2 and 4 hours after strain, the supernatants were collected and analysed by 10 per cent sodium dodecyl sulphate-polyacrylamide gel electrophoresis and autoradiography. The results showed that osteopontin was secreted by the strained cells at significantly higher amounts than the non-strained cells at all three time points (P < 0.05), with the first hour being the most prominent. A physiological level of mechanical strain increased the secretion of osteopontin from MG-63 cells in an early phase. This finding implies an accelerated process of bone remodelling, which suggests that the application of light and intermittent forces would result in the cellular reaction identified in relation to orthodontic tooth movement. The results indirectly indicate that the level of force presently used might be too high.
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PMID:Secretion of osteopontin from MG-63 cells under a physiological level of mechanical strain in vitro--a [35S] incorporation approach. 1513 36

This paper presents an ongoing effort to characterize performance and reliability of micro electromechanical systems used for biomedical diagnostics (BioMEMS). In order to study the interactions of human osteosarcoma (HOS) cells with BioMEMS devices, cultures were performed on silicon (Si) surfaces as well as silicon surfaces coated with 50 nm of titanium (Ti). Cell spreading on the surfaces was observed over time for up to 2 hours. It was seen that titanium coated silicon surfaces have the potential to provide a better interface for BioMEMS devices, due to enhanced adherence and spreading of the cells on these surfaces. Atomic force microscope (AFM) cantilevers were used as cell detection sensors. These cantilevers were coated with 50nm of titanium metal to provide a cell friendly surface. Theoretical models were then developed for the prediction of the vibrational responses of the AFM cantilevers before and after cell attachment. The models were used to relate the experimentally observed changes in frequency to the number of cells that are attached on the cantilever. The bounds in the possible frequency changes were determined within a theoretical framework. From experimentally calculated values for the mass of cells, random number simulations were carried out to determine the probability of cell attachment as a function of the change in resonance frequency of the cantilever sensor. The implications of the results are then discussed for the future reliability modeling of the sensor.
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PMID:Bounds in the sensitivity of BioMEMS devices for cell detection. 1530 41

Many researches have shown that anionic clays can be used as delivery carriers for drug or gene molecules due to their efficient cellular uptake in vitro, and enhanced permeability and retention effect in vivo. It is, therefore, highly required to establish a guideline on their potential toxicity for practical applications. The toxicity of anionic clay, layered metal hydroxide nanoparticle, was evaluated in two human lung epithelial cells, carcinoma A549 cells and normal L-132 cells, and compared with that in other human cancer cell lines such as cervical adenocarcinoma cells (HeLa) and osteosarcoma cells (HOS). The present nanoparticles showed little cytotoxic effects on the proliferation and viability of four cell lines tested at the concentrations used (<250 microg/ml) within 48 h. However, exposing cancer cells to high concentrations (250-500 microg/ml) for 72 h resulted in an inflammatory response with oxidative stress and membrane damage, which varied with the cell type (A549>HOS>HeLa). On the other hand, the toxicity mechanism seems to be different from that of other inorganic nanoparticles frequently studied for biological and medicinal applications such as iron oxide, silica, and single walled carbon nanotubes. Iron oxide caused cell death associated with membrane damage, while single walled carbon nanotube induced oxidative stress followed by apoptosis. Silica triggered an inflammation response without causing considerable cell death for both cancer cells and normal cells, whereas layered metal hydroxide nanoparticle did not show any cytotoxic effects on normal L-132 cells in terms of inflammation response, oxidative stress, and membrane damage at the concentration of less than 250 microg/ml. It is , therefore, highly expected that the present nanoparticle can be used as a efficient vehicle for drug delivery and cancer cell targeting as well.
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PMID:Toxicological effects of inorganic nanoparticles on human lung cancer A549 cells. 1918 88

Silicon has been shown to have important effects on skeletal development and repair, and soluble silicate ions have been found to stimulate the expression of type-I collagen in osteoblast-like cell cultures. Furthermore, silicon has been incorporated into the hydroxyapatite lattice and enhanced metabolic activity of human osteosarcoma cells was observed when cells were cultured on this material. In vivo assessments have demonstrated enhanced bioactivity of silicon-substituted hydroxyapatite (Si-HA) over pure HA. However, detailed mechanisms for the stimulative effects of Si-HA have not been described. In this study, we found that silicon substitution into hydroxyapatite affects the adhesion of human osteoblast-like cells (HOBs) in culture, with 0.8 wt % silicon substitution being optimal. In addition, metabolic activity and proliferation of HOBs were increased by supplementation of the growth medium with 30 microM silicon. It was determined that this response may depend on the proportion of cells at different stages of differentiation within the cultures.
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PMID:The effects of silicate ions on human osteoblast adhesion, proliferation, and differentiation. 1919 62

The adhesion and contact guidance of human primary osteogenic sarcoma cells (Saos-2) were characterized on smooth, microstructured (MST) and micro- and nano-structured (MNST) polypropylene (PP) and on the same samples with a silicon-doped carbon nitride (C(3)N(4)-Si) coating. Injection molding was used to pattern the PP surfaces and the coating was obtained by using ultra-short pulsed laser deposition (USPLD). Surfaces were characterized using atomic force microscopy and surface energy components were calculated according to the Owens-Wendt model. The results showed C(3)N(4)-Si coated surfaces to be significantly more hydrophilic than uncoated ones. In addition, there were 86% more cells in the smooth C(3)N(4)-Si coated PP compared to smooth uncoated PP and 551%/476% more cells with MST/MNST C(3)N(4)-Si coated PP than could be obtained with MST/MNST uncoated PP. Thus the adhesion, spreading and contact guidance of osteoblast-like cells was effectively improved by combining surface texturing and deposition of osteocompatible C(3)N(4)-Si coating.
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PMID:Improved adherence and spreading of Saos-2 cells on polypropylene surfaces achieved by surface texturing and carbon nitride coating. 1950 5


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