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PRENATAL MUSCLE FORCES ARE NECESSARY FOR VERTEBRAL SEGMENTATION AND DISC STRUCTURE, BUT NOT FOR NOTOCHORD INVOLUTION IN MICE

Embryonic muscle forces are necessary for normal vertebral development and spinal curvature, but their involvement in intervertebral disc (IVD) development remains unclear. The aim of the current study was to determine how muscle contractions affect (1) notochord involution and vertebral segmentatio...

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Autores principales: Levillain, A., Ahmed, S., Kaimaki, D-M., Schuler, S., Barros, S., Labonte, D., Iatridis, J.C., Nowlan, N.C.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: 2021
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8268087/
https://www.ncbi.nlm.nih.gov/pubmed/34021906
http://dx.doi.org/10.22203/eCM.v041a36
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author Levillain, A.
Ahmed, S.
Kaimaki, D-M.
Schuler, S.
Barros, S.
Labonte, D.
Iatridis, J.C.
Nowlan, N.C.
author_facet Levillain, A.
Ahmed, S.
Kaimaki, D-M.
Schuler, S.
Barros, S.
Labonte, D.
Iatridis, J.C.
Nowlan, N.C.
author_sort Levillain, A.
collection PubMed
description Embryonic muscle forces are necessary for normal vertebral development and spinal curvature, but their involvement in intervertebral disc (IVD) development remains unclear. The aim of the current study was to determine how muscle contractions affect (1) notochord involution and vertebral segmentation, and (2) IVD development including the mechanical properties and morphology, as well as collagen fibre alignment in the annulus fibrosus. Muscular dysgenesis (mdg) mice were harvested at three prenatal stages: at Theiler Stage (TS)22 when notochord involution starts, at TS24 when involution is complete, and at TS27 when the IVD is formed. Vertebral and IVD development were characterised using histology, immunofluorescence, and indentation testing. The results revealed that notochord involution and vertebral segmentation occurred independently of muscle contractions between TS22 and TS24. However, in the absence of muscle contractions, we found vertebral fusion in the cervical region at TS27, along with (i) a displacement of the nucleus pulposus towards the dorsal side, (ii) a disruption of the structural arrangement of collagen in the annulus fibrosus, and (iii) an increase in viscous behaviour of the annulus fibrosus. These findings emphasise the important role of mechanical forces during IVD development, and demonstrate a critical role of muscle loading during development to enable proper annulus fibrosus formation. They further suggest a need for mechanical loading in the creation of fibre-reinforced tissue engineering replacement IVDs as a therapy for IVD degeneration.
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spelling pubmed-82680872021-07-09 PRENATAL MUSCLE FORCES ARE NECESSARY FOR VERTEBRAL SEGMENTATION AND DISC STRUCTURE, BUT NOT FOR NOTOCHORD INVOLUTION IN MICE Levillain, A. Ahmed, S. Kaimaki, D-M. Schuler, S. Barros, S. Labonte, D. Iatridis, J.C. Nowlan, N.C. Eur Cell Mater Article Embryonic muscle forces are necessary for normal vertebral development and spinal curvature, but their involvement in intervertebral disc (IVD) development remains unclear. The aim of the current study was to determine how muscle contractions affect (1) notochord involution and vertebral segmentation, and (2) IVD development including the mechanical properties and morphology, as well as collagen fibre alignment in the annulus fibrosus. Muscular dysgenesis (mdg) mice were harvested at three prenatal stages: at Theiler Stage (TS)22 when notochord involution starts, at TS24 when involution is complete, and at TS27 when the IVD is formed. Vertebral and IVD development were characterised using histology, immunofluorescence, and indentation testing. The results revealed that notochord involution and vertebral segmentation occurred independently of muscle contractions between TS22 and TS24. However, in the absence of muscle contractions, we found vertebral fusion in the cervical region at TS27, along with (i) a displacement of the nucleus pulposus towards the dorsal side, (ii) a disruption of the structural arrangement of collagen in the annulus fibrosus, and (iii) an increase in viscous behaviour of the annulus fibrosus. These findings emphasise the important role of mechanical forces during IVD development, and demonstrate a critical role of muscle loading during development to enable proper annulus fibrosus formation. They further suggest a need for mechanical loading in the creation of fibre-reinforced tissue engineering replacement IVDs as a therapy for IVD degeneration. 2021-05-22 /pmc/articles/PMC8268087/ /pubmed/34021906 http://dx.doi.org/10.22203/eCM.v041a36 Text en https://creativecommons.org/licenses/by-sa/4.0/This article is distributed in accordance with Creative Commons Attribution Licence (http://creativecommons.org/licenses/by-sa/4.0/ (https://creativecommons.org/licenses/by-sa/4.0/) ).
spellingShingle Article
Levillain, A.
Ahmed, S.
Kaimaki, D-M.
Schuler, S.
Barros, S.
Labonte, D.
Iatridis, J.C.
Nowlan, N.C.
PRENATAL MUSCLE FORCES ARE NECESSARY FOR VERTEBRAL SEGMENTATION AND DISC STRUCTURE, BUT NOT FOR NOTOCHORD INVOLUTION IN MICE
title PRENATAL MUSCLE FORCES ARE NECESSARY FOR VERTEBRAL SEGMENTATION AND DISC STRUCTURE, BUT NOT FOR NOTOCHORD INVOLUTION IN MICE
title_full PRENATAL MUSCLE FORCES ARE NECESSARY FOR VERTEBRAL SEGMENTATION AND DISC STRUCTURE, BUT NOT FOR NOTOCHORD INVOLUTION IN MICE
title_fullStr PRENATAL MUSCLE FORCES ARE NECESSARY FOR VERTEBRAL SEGMENTATION AND DISC STRUCTURE, BUT NOT FOR NOTOCHORD INVOLUTION IN MICE
title_full_unstemmed PRENATAL MUSCLE FORCES ARE NECESSARY FOR VERTEBRAL SEGMENTATION AND DISC STRUCTURE, BUT NOT FOR NOTOCHORD INVOLUTION IN MICE
title_short PRENATAL MUSCLE FORCES ARE NECESSARY FOR VERTEBRAL SEGMENTATION AND DISC STRUCTURE, BUT NOT FOR NOTOCHORD INVOLUTION IN MICE
title_sort prenatal muscle forces are necessary for vertebral segmentation and disc structure, but not for notochord involution in mice
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8268087/
https://www.ncbi.nlm.nih.gov/pubmed/34021906
http://dx.doi.org/10.22203/eCM.v041a36
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