Global transcriptomic analysis of a murine osteocytic cell line subjected to spaceflight.

FASEB journal : official publication of the Federation of American Societies for Experimental Biology 2021 May

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Bone loss is a major health concern for astronauts during long-term spaceflight and for patients during prolonged bed rest or paralysis. Growing evidence suggests that osteocytes, the most abundant cells in the mineralized bone matrix, play a key role in sensing mechanical forces applied to the skeleton and integrating the orchestrated response into subcellular biochemical signals to modulate bone homeostasis. However, the precise molecular mechanisms underlying both mechanosensation and mechanotransduction in late-osteoblast-to-osteocyte cells under microgravity (µG) have yet to be elucidated. To unravel the mechanisms by which late osteoblasts and osteocytes sense and respond to mechanical unloading, we exposed the osteocytic cell line, Ocy454, to 2, 4, or 6 days of µG on the SpaceX Dragon-6 resupply mission to the International Space Station. Our results showed that µG impairs the differentiation of osteocytes, consistent with prior osteoblast spaceflight experiments, which resulted in the downregulation of key osteocytic genes. Importantly, we demonstrate the modulation of critical glycolysis pathways in osteocytes subjected to microgravity and discovered a set of mechanical sensitive genes that are consistently regulated in multiple cell types exposed to microgravity suggesting a common, yet to be fully elucidated, genome-wide response to microgravity. Ground-based simulated microgravity experiments utilizing the NASA rotating-wall-vessel were unable to adequately replicate the changes in microgravity exposure highlighting the importance of spaceflight missions to understand the unique environmental stress that microgravity presents to diverse cell types. In summary, our findings demonstrate that osteocytes respond to µG with an increase in glucose metabolism and oxygen consumption. © 2021 Federation of American Societies for Experimental Biology.

Citation

Yuhei Uda, Jordan M Spatz, Amira Hussein, Joseph H Garcia, Forest Lai, Chris Dedic, Keertik Fulzele, Sean Dougherty, Margaret Eberle, Chris Adamson, Lowell Misener, Louis Gerstenfeld, Paola Divieti Pajevic. Global transcriptomic analysis of a murine osteocytic cell line subjected to spaceflight. FASEB journal : official publication of the Federation of American Societies for Experimental Biology. 2021 May;35(5):e21578