Muscle defects due to perturbed somite segmentation contribute to late adult scoliosis

Laura Lleras-Forero; Elis Newham; Stefan Teufel; Koichi Kawakami; Christine Hartmann; Chrissy L. Hammond; Robert D. Knight; Stefan Schulte-Merker

doi:10.18632/aging.103856

Muscle defects due to perturbed somite segmentation contribute to late adult scoliosis

Laura Lleras-Forero^*, Elis Newham, Stefan Teufel, Koichi Kawakami, Christine Hartmann, Chrissy L. Hammond, Robert D. Knight, Stefan Schulte-Merker

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

Scoliosis is an abnormal bending of the body axis. Truncated vertebrae or a debilitated ability to control the musculature in the back can cause this condition, but in most cases the causative reason for scoliosis is unknown (idiopathic). Using mutants for somite clock genes with mild defects in the vertebral column, we here show that early defects in somitogenesis are not overcome during development and have long lasting and profound consequences for muscle fiber organization, structure and whole muscle volume. These mutants present only mild alterations in the vertebral column, and muscle shortcomings are uncoupled from skeletal defects. None of the mutants presents an overt musculoskeletal phenotype at larval or early adult stages, presumably due to compensatory growth mechanisms. Scoliosis becomes only apparent during aging. We conclude that adult degenerative scoliosis is due to disturbed crosstalk between vertebrae and muscles during early development, resulting in subsequent adult muscle weakness and bending of the body axis.

Original language	English
Pages (from-to)	18603-18621
Number of pages	19
Journal	Aging
Volume	12
Issue number	18
DOIs	https://doi.org/10.18632/aging.103856
Publication status	Published - 30 Sept 2020

Keywords

Adult degenerative scoliosis
Aging
Muscle
Vertebral defects
Zebrafish

Access to Document

10.18632/aging.103856

k7EoWmsqegoQ9YoKJFinal published version, 1.94 MB

Cite this

@article{917287e764a1438db5fdd5987934ffcc,

title = "Muscle defects due to perturbed somite segmentation contribute to late adult scoliosis",

abstract = "Scoliosis is an abnormal bending of the body axis. Truncated vertebrae or a debilitated ability to control the musculature in the back can cause this condition, but in most cases the causative reason for scoliosis is unknown (idiopathic). Using mutants for somite clock genes with mild defects in the vertebral column, we here show that early defects in somitogenesis are not overcome during development and have long lasting and profound consequences for muscle fiber organization, structure and whole muscle volume. These mutants present only mild alterations in the vertebral column, and muscle shortcomings are uncoupled from skeletal defects. None of the mutants presents an overt musculoskeletal phenotype at larval or early adult stages, presumably due to compensatory growth mechanisms. Scoliosis becomes only apparent during aging. We conclude that adult degenerative scoliosis is due to disturbed crosstalk between vertebrae and muscles during early development, resulting in subsequent adult muscle weakness and bending of the body axis.",

keywords = "Adult degenerative scoliosis, Aging, Muscle, Vertebral defects, Zebrafish",

author = "Laura Lleras-Forero and Elis Newham and Stefan Teufel and Koichi Kawakami and Christine Hartmann and Hammond, {Chrissy L.} and Knight, {Robert D.} and Stefan Schulte-Merker",

note = "Funding Information: L. ll-F and S.S-M. were funded by the Hubrecht Institute and the CIM cluster of excellence (EXC1003). E.N and C.L.H. were funded by Versus Arthritis (Fellowship 21937). S.T. was funded by grants from the IZKF (Har2/002/14) and the DFG (HA 4767/5-1). C.H. received DFG funds (HA 4767/4-2, HA 4767/5-1). K.K. NBRP and NBRP/Fundamental Technologies Upgrading Program from AMED. R.K. was funded by the BBSRC (BB/P002390/1) and Wellcome Trust (101529/Z/13/2). Publisher Copyright: {\textcopyright} 2020 Lleras-Forero et al.",

year = "2020",

month = sep,

day = "30",

doi = "10.18632/aging.103856",

language = "English",

volume = "12",

pages = "18603--18621",

journal = "Aging",

issn = "1945-4589",

publisher = "US Administration on Aging",

number = "18",

}

TY - JOUR

T1 - Muscle defects due to perturbed somite segmentation contribute to late adult scoliosis

AU - Lleras-Forero, Laura

AU - Newham, Elis

AU - Teufel, Stefan

AU - Kawakami, Koichi

AU - Hartmann, Christine

AU - Hammond, Chrissy L.

AU - Knight, Robert D.

AU - Schulte-Merker, Stefan

N1 - Funding Information: L. ll-F and S.S-M. were funded by the Hubrecht Institute and the CIM cluster of excellence (EXC1003). E.N and C.L.H. were funded by Versus Arthritis (Fellowship 21937). S.T. was funded by grants from the IZKF (Har2/002/14) and the DFG (HA 4767/5-1). C.H. received DFG funds (HA 4767/4-2, HA 4767/5-1). K.K. NBRP and NBRP/Fundamental Technologies Upgrading Program from AMED. R.K. was funded by the BBSRC (BB/P002390/1) and Wellcome Trust (101529/Z/13/2). Publisher Copyright: © 2020 Lleras-Forero et al.

PY - 2020/9/30

Y1 - 2020/9/30

N2 - Scoliosis is an abnormal bending of the body axis. Truncated vertebrae or a debilitated ability to control the musculature in the back can cause this condition, but in most cases the causative reason for scoliosis is unknown (idiopathic). Using mutants for somite clock genes with mild defects in the vertebral column, we here show that early defects in somitogenesis are not overcome during development and have long lasting and profound consequences for muscle fiber organization, structure and whole muscle volume. These mutants present only mild alterations in the vertebral column, and muscle shortcomings are uncoupled from skeletal defects. None of the mutants presents an overt musculoskeletal phenotype at larval or early adult stages, presumably due to compensatory growth mechanisms. Scoliosis becomes only apparent during aging. We conclude that adult degenerative scoliosis is due to disturbed crosstalk between vertebrae and muscles during early development, resulting in subsequent adult muscle weakness and bending of the body axis.

AB - Scoliosis is an abnormal bending of the body axis. Truncated vertebrae or a debilitated ability to control the musculature in the back can cause this condition, but in most cases the causative reason for scoliosis is unknown (idiopathic). Using mutants for somite clock genes with mild defects in the vertebral column, we here show that early defects in somitogenesis are not overcome during development and have long lasting and profound consequences for muscle fiber organization, structure and whole muscle volume. These mutants present only mild alterations in the vertebral column, and muscle shortcomings are uncoupled from skeletal defects. None of the mutants presents an overt musculoskeletal phenotype at larval or early adult stages, presumably due to compensatory growth mechanisms. Scoliosis becomes only apparent during aging. We conclude that adult degenerative scoliosis is due to disturbed crosstalk between vertebrae and muscles during early development, resulting in subsequent adult muscle weakness and bending of the body axis.

KW - Adult degenerative scoliosis

KW - Aging

KW - Muscle

KW - Vertebral defects

KW - Zebrafish

UR - http://www.scopus.com/inward/record.url?scp=85091843000&partnerID=8YFLogxK

U2 - 10.18632/aging.103856

DO - 10.18632/aging.103856

M3 - Article

AN - SCOPUS:85091843000

SN - 1945-4589

VL - 12

SP - 18603

EP - 18621

JO - Aging

JF - Aging

IS - 18

ER -

Muscle defects due to perturbed somite segmentation contribute to late adult scoliosis

Abstract

Keywords

Access to Document

Other files and links

Fingerprint

Cite this