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Cytonemes coordinate asymmetric signaling and organization in the Drosophila muscle progenitor niche

Akshay Patel, Yicong Wu, Xiaofei Han, Yijun Su, Tim K. Maugel, Hari Shroff, Sougata Roy

2022Nature Communications25 citationsDOIOpen Access PDF

Abstract

Asymmetric signaling and organization in the stem-cell niche determine stem-cell fates. Here, we investigate the basis of asymmetric signaling and stem-cell organization using the Drosophila wing-disc that creates an adult muscle progenitor (AMP) niche. We show that AMPs extend polarized cytonemes to contact the disc epithelial junctions and adhere themselves to the disc/niche. Niche-adhering cytonemes localize FGF-receptor to selectively adhere to the FGF-producing disc and receive FGFs in a contact-dependent manner. Activation of FGF signaling in AMPs, in turn, reinforces disc-specific cytoneme polarity/adhesion, which maintains their disc-proximal positions. Loss of cytoneme-mediated adhesion promotes AMPs to lose niche occupancy and FGF signaling, occupy a disc-distal position, and acquire morphological hallmarks of differentiation. Niche-specific AMP organization and diversification patterns are determined by localized expression and presentation patterns of two different FGFs in the wing-disc and their polarized target-specific distribution through niche-adhering cytonemes. Thus, cytonemes are essential for asymmetric signaling and niche-specific AMP organization.

Topics & Concepts

NicheDrosophila (subgenus)Cell biologyBiologyAnatomyGeneticsBiochemistryGeneNeurobiology and Insect Physiology ResearchDevelopmental Biology and Gene RegulationInsect and Arachnid Ecology and Behavior