| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 2040043 | Cell Reports | 2014 | 8 Pages |
•Folds in the murine epididymal tubule are formed through a mechanical process•Axial buckling triggered by cell proliferation drives the tubule folding•Cell proliferation area controls where tubule folding occurs•Resistance in tissues surrounding the tubule determines tubule shape
SummaryA single epithelial tubule undergoes morphogenesis to form a functional shape during the development of internal organs; however, the mechanical processes that are directed by the molecular signals regulating tubular morphogenesis are poorly understood. Here, axial tubular buckling triggered by cell proliferation is shown to drive the morphogenesis of murine epididymal tubules through mechanical interactions between the developing epithelial tubule and its surrounding tissues. Through immunofluorescence labeling and mathematical modeling, epididymal tubule shape formation is found to depend on two factors: cell proliferation area in the tubule and mechanical resistance from the tissues surrounding the tubule. Moreover, experimental perturbations of these two factors alter the shape of the epididymal tubule as predicted by the mathematical model, suggesting that the shape of the epididymal tubule spontaneously emerges through mechanical coupling between developing tissues instead of by growing according to a predetermined fate.
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