RRC ID 87663
Author Dey B, Kaul V, Kale G, Scorcelletti M, Takeda M, Wang YC, Lemke S.
Title Divergent evolutionary strategies pre-empt tissue collision in gastrulation.
Journal Nature
Abstract Metazoan development proceeds through a series of morphogenetic events that sculpt body plans and organ structures1,2. In the early embryo, these processes occur concurrently such that forces generated in neighbouring tissues can impose mechanical stresses on each other3-5, potentially disrupting development and consequently decreasing fitness. How organisms evolved mechanisms to mitigate inter-tissue mechanical conflicts remains unclear. Here, we combined phylogenetic survey, quantitative live imaging and functional mechanical perturbation to investigate mechanical stress management during gastrulation across the insect order of flies (Diptera). We identify two distinct cellular mechanisms that prevent tissue collision between the expanding head and trunk. In Cyclorrhapha, a monophyletic subgroup including Drosophila melanogaster, active out-of-plane deformation of a transient epithelial fold, called the cephalic furrow, acts as a mechanical sink to pre-empt head-trunk collision. Genetic and optogenetic ablation of the cephalic furrow leads to accumulation of compressive stress, tissue buckling at the head-trunk boundary and late-stage embryonic defects in the head and nervous system. By contrast, the non-cyclorrhaphan Chironomus riparius lacks cephalic furrow formation and instead undergoes widespread out-of-plane division that reduces the duration and spatial extent of head expansion. Re-orienting head mitosis from in-plane to out-of-plane in Drosophila partially suppresses tissue buckling, showing that it can function as an alternative mechanical sink. Our data suggest that mechanisms of mechanical stress management emerge and diverge in response to inter-tissue conflicts during early embryonic development.
Volume 646(8085)
Pages 637-646
Published 2025-10-1
DOI 10.1038/s41586-025-09447-4
PII 10.1038/s41586-025-09447-4
PMID 40903584
PMC PMC12527943
MeSH Animals Biological Evolution* Drosophila melanogaster* / cytology Drosophila melanogaster* / embryology Gastrulation Head / embryology Optogenetics Phylogeny Stress, Mechanical
IF 42.779
Resource
Drosophila