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Related Experiment Videos

Cell-to-cell interactions in changed gravity: ground-based and flight experiments.

L Buravkova1, Yu Romanov, M Rykova

  • 1SSC Institute of Biomedical Problems RAS, Moscow, Russian Federation. buravkova@imbp.ru

Acta Astronautica
|July 14, 2005
PubMed
Summary
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Cell-cell interactions in endothelial cells (ECs) and immune cells are crucial for physiological functions. Simulated and real microgravity impact cell structures but preserve critical cell-to-cell communication and immune cell functions.

Area of Science:

  • Cell biology
  • Space biology
  • Immunology

Background:

  • Cell-to-cell interactions are vital for physiological processes, influenced by mechanical and biochemical factors.
  • Mechanosensitive cells, like endothelial cells (ECs), respond to altered gravity, affecting cytoskeletal remodeling and adhesion molecule expression.
  • Understanding these changes is crucial for maintaining cellular functions in space environments.

Purpose of the Study:

  • To investigate the effects of simulated and real microgravity on cell-to-cell interactions, specifically between endothelial cells and immune cells.
  • To determine if changes in cell structure and adhesion molecules under microgravity compromise critical physiological functions.

Main Methods:

  • Cultured endothelial cells (ECs) were subjected to clinorotation to simulate microgravity.

Related Experiment Videos

  • Cocultures of endothelial monolayers with human lymphocytes and myeloleukemic cells were used to study adhesion.
  • Cytotoxic activity of natural killer (NK) cells was measured during spaceflight experiments on the International Space Station.
  • Main Results:

    • Clinorotation increased the adhesion of activated lymphocytes to endothelial monolayers but did not affect non-activated cells.
    • Immune cells in microgravity retained their ability to contact, recognize, and destroy oncogenic cells.
    • Despite alterations in cytoskeleton and adhesion molecules, cell-cell interactions remained functional.

    Conclusions:

    • Simulated and real microgravity induce changes in endothelial cells and immune cells, including cytoskeletal remodeling and altered adhesion molecule expression.
    • These microgravity-induced changes do not compromise essential cell-to-cell interactions or the cytotoxic functions of immune cells.
    • Critical physiological functions mediated by immune and endothelial cells are preserved even under altered gravity conditions.