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Cellular Energy Cycle Mediates an Advection-Like Forward Cell Flow to Support Collective Invasion.

Advanced science (Weinheim, Baden-Wurttemberg, Germany) (2024-08-27)
Jian Zhang, Jenna A Mosier, Yusheng Wu, Logan Waddle, Paul V Taufalele, Wenjun Wang, Heng Sun, Cynthia A Reinhart-King
RESUMEN

Collective cell migration is a model for nonequilibrium biological dynamics, which is important for morphogenesis, pattern formation, and cancer metastasis. The current understanding of cellular collective dynamics is based primarily on cells moving within a 2D epithelial monolayer. However, solid tumors often invade surrounding tissues in the form of a stream-like 3D structure, and how biophysical cues are integrated at the cellular level to give rise to this collective streaming remains unclear. Here, it is shown that cell cycle-mediated bioenergetics drive a forward advective flow of cells and energy to the front to support 3D collective invasion. The cell division cycle mediates a corresponding energy cycle such that cellular adenosine triphosphate (ATP) energy peaks just before division. A reaction-advection-diffusion (RAD) type model coupled with experimental measurements further indicates that most cells enter an active division cycle at rear positions during 3D streaming. Once the cells progress to a later stage toward division, the high intracellular energy allows them to preferentially stream toward the tip and become leader cells. This energy-driven cellular flow may be a fundamental characteristic of 3D collective dynamics based on thermodynamic principles important for not only cancer invasion but also tissue morphogenesis.

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Sigma-Aldrich
Hydrocortisone, BioReagent, suitable for cell culture
Sigma-Aldrich
Antimycin A from Streptomyces sp.
Sigma-Aldrich
Anti-phospho Histone H3 (Ser10), clone 6G8B7 Antibody, clone 6G8B7, 1 mg/mL, from rat