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Bioenergetics underlying single-cell migration on aligned nanofiber scaffolds

生物能学 细胞迁移 细胞生物学 糖酵解 细胞 细胞呼吸 纤维连接蛋白 细胞培养 线粒体 生物 细胞外 化学 细胞外基质 生物化学 新陈代谢 遗传学
作者
Abinash Padhi,Alexander H. Thomson,Justin B. Perry,Grace Davis,Ryan P. McMillan,Sandra Loesgen,Elizabeth N. Kaweesa,Rakesh K. Kapania,Amrinder S. Nain,David A. Brown
出处
期刊:American Journal of Physiology-cell Physiology [American Physical Society]
卷期号:318 (3): C476-C485 被引量:23
标识
DOI:10.1152/ajpcell.00221.2019
摘要

Cell migration is centrally involved in a myriad of physiological processes, including morphogenesis, wound healing, tissue repair, and metastatic growth. The bioenergetics that underlie migratory behavior are not fully understood, in part because of variations in cell culture media and utilization of experimental cell culture systems that do not model physiological connective extracellular fibrous networks. In this study, we evaluated the bioenergetics of C2C12 myoblast migration and force production on fibronectin-coated nanofiber scaffolds of controlled diameter and alignment, fabricated using a nonelectrospinning spinneret-based tunable engineered parameters (STEP) platform. The contribution of various metabolic pathways to cellular migration was determined using inhibitors of cellular respiration, ATP synthesis, glycolysis, or glucose uptake. Despite immediate effects on oxygen consumption, mitochondrial inhibition only modestly reduced cell migration velocity, whereas inhibitors of glycolysis and cellular glucose uptake led to striking decreases in migration. The migratory metabolic sensitivity was modifiable based on the substrates present in cell culture media. Cells cultured in galactose (instead of glucose) showed substantial migratory sensitivity to mitochondrial inhibition. We used nanonet force microscopy to determine the bioenergetic factors responsible for single-cell force production and observed that neither mitochondrial nor glycolytic inhibition altered single-cell force production. These data suggest that myoblast migration is heavily reliant on glycolysis in cells grown in conventional media. These studies have wide-ranging implications for the causes, consequences, and putative therapeutic treatments aimed at cellular migration.
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