Curated Optogenetic Publication Database

Abstract: We report that the RhoA-specific guanine nucleotide exchange factor ARHGEF17 localizes at the back of a fibroblast’s contractile lamella and regulates its disassembly. This localization emerges through retrograde ARHGEF17 transport together with actomyosin flow that most likely involves interactions with ATP-actin at F-actin barbed ends. During this process, ARHGEF17 increasingly oligomerizes into clusters that co-localize with myosin filaments, and correlate with their disassembly at lamella’s distal edge. ARHGEF17 loss of function leads to decreased RhoA activity at the lamella back and impairs its disassembly. High RhoA activity is however maintained at the lamella front where phosphorylated myosin light chain is observed. We propose that low levels of actomyosin network fracture at the lamella back generates barbed ends leading to generation of ATP-actin and ARHGEF17 binding, local activation of RhoA-dependent contractility, ensuring robust lamella disassembly. ARHGEF17 exemplifies the spatio-temporal complexity of Rho GTPase signaling and the requirement of feedback mechanism for homeostasis of contractile actomyosin networks.

Abstract: An increasing experimental evidence points to physiological importance of space-time correlations in signalling of cell collectives. From wound healing to epithelial homeostasis to morphogenesis, coordinated activation of bio-molecules between cells allows the collectives to perform more complex tasks and better tackle environmental challenges. To understand this information exchange and to advance new theories of emergent phenomena, we created ARCOS, a computational method to detect and quantify collective signalling. We demonstrate ARCOS on cell and organism collectives with space-time correlations on different scales in 2D and 3D. We make a new observation that oncogenic mutations in the MAPK/ERK and PIK3CA/Akt pathways of MCF10A epithelial cells induce ERK activity waves with different size, duration, and frequency. The open-source implementations of ARCOS are available as R and Python packages, and as a plugin for napari image viewer to interactively quantify collective phenomena without prior programming experience.