%0 Journal Article %A Jessica L Moore %A Feng Gao %A Catherine Matte-Martone %A Shuangshuang Du %A Elizabeth Lathrop %A Smirthy Ganesan %A Lin Shao %A Dhananjay Bhaskar %A Andy Cox %A Caroline Hendry %A Bastian Rieck %A Smita Krishnaswamy %A Valentina Greco %T Tissue-wide coordination of calcium signaling regulates the epithelial stem cell pool during homeostasis %D 2021 %R 10.1101/2021.10.12.464066 %J bioRxiv %P 2021.10.12.464066 %X Regenerative processes in the mammalian skin require coordinated cell-cell communication. Ca2+ signaling can coordinate tissue-level responses in developing and wounded epithelia in tissue explants and invertebrates[1, 2, 3, 4]. However, its role in the homeostatic, regenerative basal layer of the skin epithelium is unknown due to significant challenges in studying signaling dynamics in a spatially complex tissue context in live mice. Here we combine in vivo imaging of dynamic Ca2+ signaling at the single cell level across thousands of cells with a novel computational approach, Geometric Scattering Trajectory Homology (GSTH). GSTH models Ca2+ as signals over a cell adjacency graph and uses a multi-level wavelet-like transform (called a scattering transform) to extract signaling patterns from our high dimensional in vivo datasets. We discover local Ca2+ signaling patterns are orchestrated so that signals flow in a coordinated and directed manner across the tissue, distinct from topographically uncoordinated Ca2+ signaling in excitatory tissues. Directed Ca2+ signaling is regulated by the major gap junction protein in the epidermal stem cell layer, Connexin 43 (Cx43). Cx43 gap junctions are dissociated as cells progress through the cell cycle out of G1 and play an essential role in the progression of stem cells from G2 towards mitosis. Finally, G2 cells display related signaling patterns and are essential for tissue-level signaling coordination. Together, our results provide insight into how such a ubiquitous signaling pathway regulates highly specific behaviors and outcomes at a tissue-wide level to maintain proper homeostasis.Competing Interest StatementThe authors have declared no competing interest. %U https://www.biorxiv.org/content/biorxiv/early/2021/10/14/2021.10.12.464066.full.pdf