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The Fight against Cancer by Microgravity: The Multicellular Spheroid as a Metastasis Model.

Daniela GrimmHerbert SchulzMarcus KrügerJosé Luis Cortés-SánchezMarcel EgliArmin KrausJayashree SahanaThomas Juhl CorydonRuth HemmersbachPetra M WiseManfred InfangerMarkus Wehland
Published in: International journal of molecular sciences (2022)
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 (µ g ) 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-) µ g 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 µ g -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-µ g 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 µ g on cancerous stem cells. The information demonstrates that µ g has become an important new technology for increasing current knowledge of cancer biology.
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