One of the key tissue movements driving closure of a wound is re-epithelialisation. Earlier wound healing studies have described the dynamic cell behaviours that contribute to wound re-epithelialisation, including cell division, cell shape changes and cell migration, as well as the signals that might regulate these cell behaviours. Here, we use a series of deep learning tools to quantify the contributions of each of these cell behaviours from movies of repairing wounds in the Drosophila pupal wing epithelium. We test how each is altered following knockdown of the conserved wound repair signals, Ca2+ and JNK, as well as ablation of macrophages which supply growth factor signals believed to orchestrate aspects of the repair process. Our genetic perturbation experiments provide quantifiable insights regarding how these wound signals impact cell behaviours. We find that Ca2+ signalling is a master regulator required for all contributing cell behaviours; JNK signalling primarily drives cell shape changes and divisions, whereas signals from macrophages regulate largely cell migration and proliferation. Our studies show AI to be a valuable tool for unravelling complex signalling hierarchies underlying tissue repair.
AI reveals a damage signalling hierarchy that coordinates different cell behaviours driving wound re-epithelialisation
Equal senior authors
- Award Group:
- Funder(s): EPSRC
- Award Id(s): EP/R014604/1
- Funder(s):
- Award Group:
- Funder(s): Medical Research Council
- Funder(s):
- Award Group:
- Funder(s): Eric and Wendy Schmidt Foundation
- Funder(s):
- Award Group:
- Funder(s): Wellcome Trust
- Funder(s):
- Award Group:
- Funder(s): Royal Society Sir Henry Dale
- Funder(s):
Jake Turley, Francesca Robertson, Isaac V. Chenchiah, Tanniemola B. Liverpool, Helen Weavers, Paul Martin; AI reveals a damage signalling hierarchy that coordinates different cell behaviours driving wound re-epithelialisation. Development 2024; dev.202943. doi: https://doi.org/10.1242/dev.202943
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