Abstract
The Drosophila wing imaginal disc is a sac-like structure that is composed of two opposing cell layers: peripodial epithelium (PE, also known as squamous epithelia) and disc proper (DP, also known as pseudostratified columnar epithelia). The molecular mechanism of cell morphogenesis has been well studied in the DP but not in the PE. Although proper Dpp signalling activity is required for proper PE formation, the detailed regulation mechanism is poorly understood. Here, we found that the Dpp target gene sal is only expressed in DP cells, not in PE cells, although pMad is present in the PE. Increasing Dpp signalling activity cannot activate Sal in PE cells. The absence of Sal in the PE is essential for PE formation. The ectopic expression of sal in PE cells is sufficient to increase the PE cell height. Down-regulation of sal in the DP reduced DP cell height. We further demonstrated that the known PE cell height regulator Lines, which can convert PE into a DP cell fate, is mediated by sal mis-activation in PE because sal-RNAi and lines co-expression largely restores PE cell morphology. By revealing the microtubule distribution, we demonstrated that Lines- and Sal-heightened PE cells are morphologically similar to the intermediate cell with cuboidal morphology.
Highlights
Cell shape changes occur throughout various developmental processes, such as Drosophila gastrulation[1,2] and neural tube formation in vertebrates[3,4]
The wing disc is a sac-like structure composed of two opposing cell layers with apical sides facing an internal lumen. (B–B′′) phospho-Mothers against dpp (pMad) staining in the wing disc
The wing disc is a sac-like structure composed of PE, DP, and intermediate cells linking the PE and DP
Summary
Cell shape changes occur throughout various developmental processes, such as Drosophila gastrulation[1,2] and neural tube formation in vertebrates[3,4]. Brk is a repressor of other Dpp target genes, including sal and omb, and thereby restricts their expression domains to the medial DP region[24,25]. Either suppressing brk or elevating Dpp signalling by expressing tkvQD cannot induce Sal and Omb in the PE (Fig. 1H–I′′ and Fig. S-1).
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