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Cytoneme signaling provides essential contributions to mammalian tissue patterning

Eric T. Hall, Miriam E. Dillard, Elizabeth R. Cleverdon, Yan Zhang, Christina A. Daly, Shariq S. Ansari, Randall Wakefield, Daniel P. Stewart, Shondra M. Pruett‐Miller, Alfonso Lavado, Alexandre F. Carisey, Amanda Johnson, Yong‐Dong Wang, Emma Selner, Michael L. Tanes, Young Sang Ryu, Camenzind G. Robinson, Jeffrey A. Steinberg, Stacey K. Ogden

2024Cell52 citationsDOIOpen Access PDF

Abstract

During development, morphogens pattern tissues by instructing cell fate across long distances. Directly visualizing morphogen transport in situ has been inaccessible, so the molecular mechanisms ensuring successful morphogen delivery remain unclear. To tackle this longstanding problem, we developed a mouse model for compromised sonic hedgehog (SHH) morphogen delivery and discovered that endocytic recycling promotes SHH loading into signaling filopodia called cytonemes. We optimized methods to preserve in vivo cytonemes for advanced microscopy and show endogenous SHH localized to cytonemes in developing mouse neural tubes. Depletion of SHH from neural tube cytonemes alters neuronal cell fates and compromises neurodevelopment. Mutation of the filopodial motor myosin 10 (MYO10) reduces cytoneme length and density, which corrupts neuronal signaling activity of both SHH and WNT. Combined, these results demonstrate that cytoneme-based signal transport provides essential contributions to morphogen dispersion during mammalian tissue development and suggest MYO10 is a key regulator of cytoneme function.

Topics & Concepts

MorphogenBiologyFilopodiaSonic hedgehogCell biologyWnt signaling pathwayRegulatorNeural tubeCell fate determinationNeuroscienceSignal transductionActinGeneticsEmbryoGeneTranscription factorHedgehog Signaling Pathway StudiesDevelopmental Biology and Gene RegulationCellular transport and secretion
Cytoneme signaling provides essential contributions to mammalian tissue patterning | Litcius