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Notochord vacuoles absorb compressive bone growth during zebrafish spine formation

Jennifer Bagwell, Jim C. Norman, Kathryn Ellis, Brianna Peskin, James C. M. Hwang, Xiaoyan Ge, Stacy Nguyen, Sarah K. McMenamin, Didier Y. R. Stainier, Michel Bagnat

2020eLife65 citationsDOIOpen Access PDF

Abstract

The vertebral column or spine assembles around the notochord rod which contains a core made of large vacuolated cells. Each vacuolated cell possesses a single fluid-filled vacuole, and loss or fragmentation of these vacuoles in zebrafish leads to spine kinking. Here, we identified a mutation in the kinase gene dstyk that causes fragmentation of notochord vacuoles and a severe congenital scoliosis-like phenotype in zebrafish. Live imaging revealed that Dstyk regulates fusion of membranes with the vacuole. We find that localized disruption of notochord vacuoles causes vertebral malformation and curving of the spine axis at those sites. Accordingly, in dstyk mutants the spine curves increasingly over time as vertebral bone formation compresses the notochord asymmetrically, causing vertebral malformations and kinking of the axis. Together, our data show that notochord vacuoles function as a hydrostatic scaffold that guides symmetrical growth of vertebrae and spine formation.

Topics & Concepts

NotochordVacuoleAnatomyZebrafishCell biologyBiologySPINE (molecular biology)CytoplasmEmbryoEmbryogenesisGeneGeneticsPhagocytosis and Immune RegulationZebrafish Biomedical Research ApplicationsCellular Mechanics and Interactions
Notochord vacuoles absorb compressive bone growth during zebrafish spine formation | Litcius