1. Academic Validation
  2. Specific Mitotic Events Drive Cytoskeletal Remodeling Required for Left-Right Organizer Development

Specific Mitotic Events Drive Cytoskeletal Remodeling Required for Left-Right Organizer Development

  • bioRxiv. 2024 Oct 1:2024.05.12.593765. doi: 10.1101/2024.05.12.593765.
Yan Wu 1 2 Yiling Lan 1 2 Favour Ononiwu 1 2 Abigail Poole 3 Kirsten Rasmussen 1 Jonah Da Silva 1 Abdalla Wael Shamil 1 Li-En Jao 4 Heidi Hehnly 1 2
Affiliations

Affiliations

  • 1 Department of Biology, Syracuse University, Syracuse, 13244 USA.
  • 2 BioInspired Institute, Syracuse University, Syracuse, 13244 USA.
  • 3 Worcester Polytechnic Institute, Worcester, 01609 MA.
  • 4 Department of Cell Biology and Human Anatomy, University of California Davis School of Medicine, Sacramento, 95817 USA.
Abstract

Cellular proliferation is vital for tissue development, including the Left-Right Organizer (LRO), a transient organ critical for establishing the vertebrate LR body plan. This study investigates cell redistribution and the role of specific progenitor cells in LRO formation, focusing on cell lineage and behavior. Using zebrafish as a model, we mapped all mitotic events in Kupffer's Vesicle (KV), revealing an FGF-dependent, anteriorly enriched mitotic pattern. With a KV-specific fluorescent microtubule (MT) line, we observed that mitotic spindles align along the KV's longest axis until the rosette stage, spindles that form after spin, and are excluded from KV. Early aligned spindles assemble cytokinetic bridges that point MT bundles toward a tight junction where a rosette will initially form. Post-abscission, repurposed MT bundles remain targeted at the rosette center, facilitating actin recruitment. Additional cells, both cytokinetic and non-cytokinetic, are incorporated into the rosette, repurposing or assembling MT bundles before actin recruitment. These findings show that initial divisions are crucial for rosette assembly, MT patterning, and actin remodeling during KV development.

Keywords

Actin; Cell Patterning; Cilia; Cytokinesis; Left-Right Organizer; Lumen Formation; Microtubules; Mitosis; Rosette; Tight Junctions.

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