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  • Grimm, Daniela  (2)
  • Hemmersbach, Ruth  (2)
  • Englisch  (2)
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  • Englisch  (2)
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  • 1
    Online-Ressource
    Online-Ressource
    Pathway Analysis Hints Towards Beneficial Effects of Long-Term Vibration on Human Chondrocytes
    S. Karger AG ; 2018
    In:  Cellular Physiology and Biochemistry Vol. 47, No. 4 ( 2018), p. 1729-1741
    Details
    In: Cellular Physiology and Biochemistry, S. Karger AG, Vol. 47, No. 4 ( 2018), p. 1729-1741
    Kurzfassung: Background/Aims: Spaceflight negatively influences the function of cartilage tissue in vivo. In vitro human chondrocytes exhibit an altered gene expression of inflammation markers after a two-hour exposure to vibration. Little is known about the impact of long-term vibration on chondrocytes. Methods: Human cartilage cells were exposed for up to 24 h (VIB) on a specialised vibration platform (Vibraplex) simulating the vibration profile which occurs during parabolic flights and compared to static control conditions (CON). Afterwards, they were investigated by phase-contrast microscopy, rhodamine phalloidin staining, microarray analysis, qPCR and western blot analysis. Results: Morphological investigations revealed no changes between CON and VIB chondrocytes. F-Actin staining showed no alterations of the cytoskeleton in VIB compared with CON cells. DAPI and TUNEL staining did not identify apoptotic cells. ICAM-1 was elevated and vimentin, beta-tubulin and osteopontin proteins were significantly reduced in VIB compared to CON cells. qPCR of cytoskeletal genes, ITGB1, SOX3, SOX5, SOX9 did not reveal differential regulations. Microarray analysis detected 13 differentially expressed genes, mostly indicating unspecific stimulations. Pathway analyses demonstrated interactions of PSMD4 and CNOT7 with ICAM. Conclusions: Long-term vibration did not damage human chondrocytes in vitro. The reduction of osteopontin protein and the down-regulation of PSMD4 and TBX15 gene expression suggest that in vitro long-term vibration might even positively influence cultured chondrocytes.
    Materialart: Online-Ressource
    ISSN: 1015-8987 , 1421-9778
    URL: Article
    DOI: 10.1159/000491006
    Sprache: Englisch
    Verlag: S. Karger AG
    Publikationsdatum: 2018
    ZDB Id: 1482056-0
    SSG: 12
    SSG: 15,3
    Standort Signatur Einschränkungen Verfügbarkeit
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    Online-Ressource
  • 2
    Online-Ressource
    Online-Ressource
    The Fight against Cancer by Microgravity: The Multicellular Spheroid as a Metastasis Model
    MDPI AG ; 2022
    In:  International Journal of Molecular Sciences Vol. 23, No. 6 ( 2022-03-12), p. 3073-
    Details
    In: International Journal of Molecular Sciences, MDPI AG, Vol. 23, No. 6 ( 2022-03-12), p. 3073-
    Kurzfassung: Cancer is a disease exhibiting uncontrollable cell growth and spreading to other parts of the organism. It is a heavy, worldwide burden for mankind with high morbidity and mortality. Therefore, groundbreaking research and innovations are necessary. Research in space under microgravity (µg) conditions is a novel approach with the potential to fight cancer and develop future cancer therapies. Space travel is accompanied by adverse effects on our health, and there is a need to counteract these health problems. On the cellular level, studies have shown that real (r-) and simulated (s-) µg impact survival, apoptosis, proliferation, migration, and adhesion as well as the cytoskeleton, the extracellular matrix, focal adhesion, and growth factors in cancer cells. Moreover, the µg-environment induces in vitro 3D tumor models (multicellular spheroids and organoids) with a high potential for preclinical drug targeting, cancer drug development, and studying the processes of cancer progression and metastasis on a molecular level. This review focuses on the effects of r- and s-µg on different types of cells deriving from thyroid, breast, lung, skin, and prostate cancer, as well as tumors of the gastrointestinal tract. In addition, we summarize the current knowledge of the impact of µg on cancerous stem cells. The information demonstrates that µg has become an important new technology for increasing current knowledge of cancer biology.
    Materialart: Online-Ressource
    ISSN: 1422-0067
    URL: Article
    DOI: 10.3390/ijms23063073
    Sprache: Englisch
    Verlag: MDPI AG
    Publikationsdatum: 2022
    ZDB Id: 2019364-6
    SSG: 12
    Standort Signatur Einschränkungen Verfügbarkeit
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    Online-Ressource
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