Characterization of C2C12 cells in simulated microgravity: Possible use for myoblast regeneration
Autor: | Daniela Calzia, Paolo Degan, Enrico Cappelli, Alberto Izzotti, Laura Ottaggio, Giorgia Chiappori, Sara Tavella, Paola Cuccarolo, Alessandro Cora |
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Rok vydání: | 2019 |
Předmět: |
0301 basic medicine
cancer-related lesions Physiology Muscle Fibers Skeletal Clinical Biochemistry regenerative medicine C2C12 myoblasts biochemistry cancer-related lesions cell biology microgravity regenerative medicine Muscle Development Calcium in biology Cell Line Myoblasts Mice 03 medical and health sciences 0302 clinical medicine biochemistry Animals Humans Regeneration Myocyte Calcium Signaling Weightlessness Simulation Cell Proliferation Calcium metabolism Weightlessness Myogenesis Chemistry Ryanodine receptor Regeneration (biology) Cell Differentiation Cell Biology microgravity Cell biology Transplantation 030104 developmental biology 030220 oncology & carcinogenesis C2C12 myoblasts C2C12 |
Zdroj: | Journal of Cellular Physiology. 235:3508-3518 |
ISSN: | 1097-4652 0021-9541 |
DOI: | 10.1002/jcp.29239 |
Popis: | Muscle loss is a major problem for many in lifetime. Muscle and bone degeneration has also been observed in individuals exposed to microgravity and in unloading conditions. C2C12 myoblst cells are able to form myotubes, and myofibers and these cells have been employed for muscle regeneration purposes and in myogenic regeneration and transplantation studies. We exposed C2C12 cells in an random position machine to simulate microgravity and study the energy and the biochemical challenges associated with this treatment. Simulated microgravity exposed C2C12 cells maintain positive proliferation indices and delay the differentiation process for several days. On the other hand this treatment significantly alters many of the biochemical and the metabolic characteristics of the cell cultures including calcium homeostasis. Recent data have shown that these perturbations are due to the inhibition of the ryanodine receptors on the membranes of intracellular calcium stores. We were able to reverse this perturbations treating cells with thapsigargin which prevents the segregation of intracellular calcium ions in the mitochondria and in the sarco/endoplasmic reticula. Calcium homeostasis appear a key target of microgravity exposure. In conclusion, in this study we reported some of the effects induced by the exposure of C2C12 cell cultures to simulated microgravity. The promising information obtained is of fundamental importance in the hope to employ this protocol in the field of regenerative medicine. |
Databáze: | OpenAIRE |
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