A collagen-rich arch in the urochordate notochord coordinates cell shaping and multi-tissue elongation.

Cell and tissue reshaping is crucial for coordinating three-dimensional pattern formation, in which the size and shape of the cells must be accurately regulated via signal transport and communication among tissues. However, the identity of signaling and transportation mechanisms in this process remains elusive. In our study, we identified an extracellular matrix (ECM) structure with a vertebra-like shape surrounding the central notochord tissue in the larval tail of the urochordate Ciona. Additionally, we verified that the ECM structure was formed de novo, mainly from collagens secreted by notochord cells. Fluorescence recovery after photobleaching and simulation results revealed that this structure was formed via diffusional collagen flow from a notochord that was restricted and molded in the spaces among tail tissues. We revealed that the collagen structure was essential for notochord cell arrangement and elongation. Furthermore, we observed that the central notochord connects with the epidermis through this ECM structure. The disruption of this structure by collagen knockdown and loss-of-collagen function caused the failure of notochord elongation. More importantly, the epidermis could not elongate proportionally with notochord, indicating that the collagen-rich structure serves as a scaffold to coordinate the concurrent elongation of the tail tissues. These findings provide insights into how the central tissue forms and molds its surrounding ECM structure, by not only regulating its own morphogenesis but also functioning as a scaffold for signal transmission to orchestrate the coordinated morphologic reshaping of the surrounding tissues. Copyright © 2023 The Author(s). Published by Elsevier Inc. All rights reserved.

Citation

Hongzhe Peng, Jinghan Qiao, Guilin Wang, Wenjie Shi, Fan Xia, Runyu Qiao, Bo Dong. A collagen-rich arch in the urochordate notochord coordinates cell shaping and multi-tissue elongation. Current biology : CB. 2023 Dec 18;33(24):5390-5403.e3

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PMID: 37995694

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