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排序方式: 共有57条查询结果,搜索用时 109 毫秒
1.
Butyric acid causes morphological changes in cultured chondrocytes through alterations in the extracellular matrix 总被引:1,自引:0,他引:1
Butyric acid induces characteristic changes in the morphology of chick embryo chondrocytes. Chick embryo chondrocytes when cultured in the absence of butyrate exhibit a spherical morphology and synthesize cartilage-specific chondroitin sulfate proteoglycan (CSPG). When these cultures are initiated and maintained in the presence of butyric acid, chondrocytes exhibit a mesenchymal morphology, a 90% reduction in the synthesis of CSPG, and a 75% reduction in DNA synthesis. The reduced synthesis of CSPG and DNA was shown not to be dependent on the morphological change. Chondrocytes require CSPG in order to express a spherical morphology, since including chondroitinase ABC in the culture media caused the cells to spread. In addition, the treatment of chondrocytes with purified CSPG prior to culture in media containing butyric acid resulted in spherical cells. The butyrate-induced spreading was shown to require either serum or fibronectin and could be prevented with antiserum against chick cell-surface fibronectin (cFn). Cell-surface fibronectin, which was present on both spherical and flattened chondrocytes, organized into fibrils beneath cells which spread. Increased fibronectin synthesis was not responsible for the butyrate-induced morphological change. From this evidence, it is concluded that the mechanism by which butyrate alters the morphology of these cells in culture involves inhibiting CSPG synthesis, thus preventing CSPG accumulation in the extracellular matrix (ECM). The absence of CSPG in the ECM allows fibronectin to mediate spreading of chondrocytes in culture. 相似文献
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Inhibition of limb chondrogenesis in vitro by vitamin A: alterations in cell surface characteristics 总被引:3,自引:0,他引:3
Mesenchyme cells derived from embryonic mouse limb buds were cultured at high cell density. During the first 24 h in culture, groups of mesenchyme cells condensed and formed cell contacts and specialized junctions. These condensations were the nodule primordia which gave rise to cartilage nodules. The cell contacts were lost as the mesenchyme cells in the primordia developed into cartilage nodules. The mature nodules contained chondrocytes isolated from one another by an extensive extracellular matrix consisting of cartilage type collagen fibrils and proteoglycan granules. The differentiation of the mesenchyme cells to chondrocytes was also characterized by the loss of a 240,000-MW cell surface glycoprotein and the appearance of an 80,000-MW surface protein. The addition of vitamin A to the medium on Day 1 inhibited chondrogenesis. The cells were closely packed together, and the limited extracellular space contained thick, banded collagen fibrils with no proteoglycan granules. The cells exhibited extensive areas of close membrane contact and specialized junctions. Vitamin A-treated cultures also retained the 240,000-MW surface glycoprotein and retarded the appearance of the 80,000-MW cell surface protein. The results of this study suggest that cell surface features normally present on mesenchyme cells are maintained and exaggerated by vitamin A. 相似文献
4.
Research in the area of stroke has not yielded any new treatments, besides tissue plasminogen activator. New findings are suggesting that the therapeutic window of providing neuroprotection is wider than once thought. Moreover, the role of the peripheral immune system in abetting neurodegeneration is being elucidated, but it appears this reaction occurs 2-3 days after the stroke. This mini-review examines this new evidence about the molecular mechanisms leading to stroke-induced neuronal death, which suggests new therapeutic approaches to its treatment. 相似文献
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Boettcher AJ Wu J Kim C Yang J Bruystens J Cheung N Pennypacker JK Blumenthal DA Kornev AP Taylor SS 《Structure (London, England : 1993)》2011,19(2):265-276
PKA holoenzymes containing two catalytic (C) subunits and a regulatory (R) subunit dimer are activated cooperatively by cAMP. While cooperativity involves the two tandem cAMP binding domains in each R-subunit, additional cooperativity is associated with the tetramer. Of critical importance is the flexible linker in R that contains an inhibitor site (IS). While the IS becomes ordered in the R:C heterodimer, the overall conformation of the tetramer is mediated largely by the N-Linker that connects the?D/D domain to the IS. To understand how the N-Linker contributes to assembly of tetrameric holoenzymes, we engineered a monomeric RIα that contains most of the N-Linker, RIα(73-244), and crystallized a holoenzyme complex. Part of the N-linker is now ordered by interactions with a symmetry-related dimer. This complex of two symmetry-related dimers forms a tetramer that reveals novel mechanisms for allosteric regulation and has many features associated with full-length holoenzyme. A model of the tetrameric holoenzyme, based on this structure, is consistent with previous small angle X-ray and neutron scattering data, and is validated with new SAXS data and with an RIα mutation localized to a novel interface unique to the tetramer. 相似文献
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Hemal H. Patel Lora L. Hamuro Byeong Jo Chun Yoshitaka Kawaraguchi Alexander Quick Brian Rebolledo Juniper Pennypacker Jackie Thurston Natalia Rodriguez-Pinto Christopher Self Gary Olson Paul A. Insel Wayne R. Giles Susan S. Taylor David M. Roth 《The Journal of biological chemistry》2010,285(36):27632-27640
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JK Sugden 《Biotechnic & histochemistry》2004,79(2):71-90
An overview of the basic principles of photochemistry is presented to facilitate discussion of fluorescence, quenching and quantum yields. These topics in turn provide the foundation for an account of fluorescence spectroscopy and its application to microscopy. A brief overview of light microscopy and the application of fluorescence microscopy is given. The influences of molecular features, such as aromatic character and substitution patterns, on color and fluorescence are described. The concept of color fading is considered with particular reference to its effect on microscopic preparations. A survey of representative fluorescent probes is provided, and their sensitivity, application, and limitations are described. The phototoxicity of fluorescent molecules is discussed using biomembranes and DNA as examples of targets of toxicity. Photodynamic therapy, a relatively new clinical application of phototoxicity, is described. Both anticancer and antimicrobial applications are noted, and an assessment is given of the current ideas on the ideal physicochemical properties of the sensitizing agents for such applications. 相似文献