Mechanical force regulates Sox9 expression at the developing enthesis

Author:

Subramanian Arul1ORCID,Kanzaki Lauren F.1ORCID,Schilling Thomas F.1ORCID

Affiliation:

1. University of California Department of Developmental and Cell Biology , , Irvine, CA 92697 , USA

Abstract

ABSTRACT Entheses transmit force from tendons and ligaments to the skeleton. Regional organization of enthesis extracellular matrix (ECM) generates differences in stiffness required for force transmission. Two key transcription factors co-expressed in entheseal tenocytes, scleraxis (Scx) and Sox9, directly control production of enthesis ECM components. Formation of embryonic craniofacial entheses in zebrafish coincides with onset of jaw movements, possibly in response to the force of muscle contraction. We show dynamic changes in scxa and sox9a mRNA levels in subsets of entheseal tenocytes that correlate with their roles in force transmission. We also show that transcription of a direct target of Scxa, Col1a, in enthesis ECM is regulated by the ratio of scxa to sox9a expression. Eliminating muscle contraction by paralyzing embryos during early stages of musculoskeletal differentiation alters relative levels of scxa and sox9a in entheses, primarily owing to increased sox9a expression. Force-dependent TGF-β (TGFβ) signaling is required to maintain this balance of scxa and sox9a expression. Thus, force from muscle contraction helps establish a balance of transcription factor expression that controls specialized ECM organization at the tendon enthesis and its ability to transmit force.

Funder

National Institutes of Health

National Science Foundation

University of California

Publisher

The Company of Biologists

Subject

Developmental Biology,Molecular Biology

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