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De novo apical domain formation inside the Drosophila adult midgut epithelium

Jia Chen, Daniel St Johnston

2022eLife23 citationsDOIOpen Access PDF

Abstract

midgut, basal intestinal stem cells give rise to enteroblasts that integrate into the epithelium as they differentiate into enterocytes. Integrating enteroblasts must generate a new apical domain and break through the septate junctions between neighbouring enterocytes, while maintaining barrier function. We observe that enteroblasts form an apical membrane initiation site (AMIS) when they reach the septate junction between the enterocytes. Cadherin clears from the apical surface and an apical space appears between above the enteroblast. New septate junctions then form laterally with the enterocytes and the AMIS develops into an apical domain below the enterocyte septate junction. The enteroblast therefore forms a pre-assembled apical compartment before it has a free apical surface in contact with the gut lumen. Finally, the enterocyte septate junction disassembles and the enteroblast/pre-enterocyte reaches the gut lumen with a fully formed brush border. The process of enteroblast integration resembles lumen formation in mammalian epithelial cysts, highlighting the similarities between the fly midgut and mammalian epithelia.

Topics & Concepts

Septate junctionsEnterocyteMidgutApical membraneBiologyAdherens junctionCell biologyApical cellAnatomyEpitheliumLumen (anatomy)CadherinSmall intestineGap junctionBiochemistryIntracellularBotanyGeneticsCellLarvaInvertebrate Immune Response MechanismsNeurobiology and Insect Physiology ResearchInsect symbiosis and bacterial influences
De novo apical domain formation inside the Drosophila adult midgut epithelium | Litcius