AUTHOR=Dries Ramona , Lange Annemarie , Heiny Sebastian , Berghaus Katja I. , Bastmeyer Martin , Bentrop Joachim 

TITLE=Cell Proliferation and Collective Cell Migration During Zebrafish Lateral Line System Development Are Regulated by Ncam/Fgf-Receptor Interactions

JOURNAL=Frontiers in Cell and Developmental Biology

VOLUME=8

YEAR=2021

URL=https://www.frontiersin.org/journals/cell-and-developmental-biology/articles/10.3389/fcell.2020.591011

DOI=10.3389/fcell.2020.591011

ISSN=2296-634X

ABSTRACT=<p>The posterior lateral line system (pLLS) of aquatic animals comprises small clustered mechanosensory organs along the side of the animal. They develop from proneuromasts, which are deposited from a migratory primordium on its way to the tip of the tail. We here show, that the Neural Cell Adhesion Molecule Ncam1b is an integral part of the pathways initiating and regulating the development of the pLLS in zebrafish. We find that morpholino-knockdowns of <italic>ncam1b</italic> (i) reduce cell proliferation within the primordium, (ii) reduce the expression of Fgf target gene <italic>erm</italic>, (iii) severely affect proneuromast formation, and (iv) affect primordium migration. Ncam1b directly interacts with Fgf receptor Fgfr1a, and a knockdown of <italic>fgfr1a</italic> causes similar phenotypic changes as observed in <italic>ncam1b</italic>-morphants. We conclude that Ncam1b is involved in activating proliferation by triggering the expression of <italic>erm</italic>. In addition, we demonstrate that Ncam1b is required for the expression of chemokine receptor Cxcr7b, which is crucial for directed primordial migration. Finally, we show that the knockdown of <italic>ncam1b</italic> destabilizes proneuromasts, suggesting a further function of Ncam1b in strengthening the cohesion of proneuromast cells.</p>