Macroscopic quorum sensing sustains differentiating embryonic stem cells

Author:

Daneshpour Hirad,van den Bersselaar Pim,Chao Chun-Hao,Fazzio Thomas G.,Youk HyunORCID

Abstract

AbstractCells can secrete molecules that help each other’s replication. In cell cultures, chemical signals might diffuse only within a cell colony or between colonies. A chemical signal’s interaction length—how far apart interacting cells are—is often assumed to be some value without rigorous justifications because molecules’ invisible paths and complex multicellular geometries pose challenges. Here we present an approach, combining mathematical models and experiments, for determining a chemical signal’s interaction length. With murine embryonic stem (ES) cells as a testbed, we found that differentiating ES cells secrete FGF4, among others, to communicate over many millimeters in cell culture dishes and, thereby, form a spatially extended, macroscopic entity that grows only if its centimeter-scale population density is above a threshold value. With this ‘macroscopic quorum sensing’, an isolated macroscopic, but not isolated microscopic, colony can survive differentiation. Our integrated approach can determine chemical signals’ interaction lengths in generic multicellular communities.

Publisher

Springer Science and Business Media LLC

Subject

Cell Biology,Molecular Biology

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