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
PY - 2020/9/25
Y1 - 2020/9/25
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.
U2 - 10.18632/aging.103856
DO - 10.18632/aging.103856
M3 - Article (Academic Journal)
C2 - 32979261
SN - 1945-4589
VL - 12
SP - 18603
EP - 18621
JO - Aging
JF - Aging
IS - 18
ER -