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wnt16 regulates spine and muscle morphogenesis through parallel signals from notochord and dermomyotome

Bone and muscle are coupled through developmental, mechanical, paracrine, and autocrine signals. Genetic variants at the CPED1-WNT16 locus are dually associated with bone- and muscle-related traits. While Wnt16 is necessary for bone mass and strength, this fails to explain pleiotropy at this locus....

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Detalles Bibliográficos
Autores principales: Watson, Claire J., Tang, W. Joyce, Rojas, Maria F., Fiedler, Imke A. K., Morfin Montes de Oca, Ernesto, Cronrath, Andrea R., Callies, Lulu K., Swearer, Avery Angell, Ahmed, Ali R., Sethuraman, Visali, Addish, Sumaya, Farr, Gist H., Gómez, Arianna Ericka, Rai, Jyoti, Monstad-Rios, Adrian T., Gardiner, Edith M., Karasik, David, Maves, Lisa, Busse, Bjorn, Hsu, Yi-Hsiang, Kwon, Ronald Young
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2022
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9674140/
https://www.ncbi.nlm.nih.gov/pubmed/36346812
http://dx.doi.org/10.1371/journal.pgen.1010496
Descripción
Sumario:Bone and muscle are coupled through developmental, mechanical, paracrine, and autocrine signals. Genetic variants at the CPED1-WNT16 locus are dually associated with bone- and muscle-related traits. While Wnt16 is necessary for bone mass and strength, this fails to explain pleiotropy at this locus. Here, we show wnt16 is required for spine and muscle morphogenesis in zebrafish. In embryos, wnt16 is expressed in dermomyotome and developing notochord, and contributes to larval myotome morphology and notochord elongation. Later, wnt16 is expressed at the ventral midline of the notochord sheath, and contributes to spine mineralization and osteoblast recruitment. Morphological changes in wnt16 mutant larvae are mirrored in adults, indicating that wnt16 impacts bone and muscle morphology throughout the lifespan. Finally, we show that wnt16 is a gene of major effect on lean mass at the CPED1-WNT16 locus. Our findings indicate that Wnt16 is secreted in structures adjacent to developing bone (notochord) and muscle (dermomyotome) where it affects the morphogenesis of each tissue, thereby rendering wnt16 expression into dual effects on bone and muscle morphology. This work expands our understanding of wnt16 in musculoskeletal development and supports the potential for variants to act through WNT16 to influence bone and muscle via parallel morphogenetic processes.