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Scleraxis is required for the growth of adult tendons in response to mechanical loading
Jonathan P. Gumucio, Martin M. Schonk, Yalda A. Kharaz, Eithne Comerford, Christopher L. Mendias
Jonathan P. Gumucio, Martin M. Schonk, Yalda A. Kharaz, Eithne Comerford, Christopher L. Mendias
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Research Article Cell biology Stem cells

Scleraxis is required for the growth of adult tendons in response to mechanical loading

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Abstract

Scleraxis is a basic helix-loop-helix transcription factor that plays a central role in promoting tenocyte proliferation and matrix synthesis during embryonic tendon development. However, the role of scleraxis in the growth and adaptation of adult tendons is not known. We hypothesized that scleraxis is required for tendon growth in response to mechanical loading and that scleraxis promotes the specification of progenitor cells into tenocytes. We conditionally deleted scleraxis in adult mice using a tamoxifen-inducible Cre-recombinase expressed from the Rosa26 locus (ScxΔ) and then induced tendon growth in Scx+ and ScxΔ adult mice via plantaris tendon mechanical overload. Compared with the WT Scx+ group, ScxΔ mice demonstrated blunted tendon growth. Transcriptional and proteomic analyses revealed significant reductions in cell proliferation, protein synthesis, and extracellular matrix genes and proteins. Our results indicate that scleraxis is required for mechanically stimulated adult tendon growth by causing the commitment of CD146+ pericytes into the tenogenic lineage and by promoting the initial expansion of newly committed tenocytes and the production of extracellular matrix proteins.

Authors

Jonathan P. Gumucio, Martin M. Schonk, Yalda A. Kharaz, Eithne Comerford, Christopher L. Mendias

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Figure 4

Effect of scleraxis deletion on the proteome of tendons.

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Effect of scleraxis deletion on the proteome of tendons.

(A) Principal ...
(A) Principal component analysis (PCA) of mass spectroscopy–based proteomics data of tendons from control nonoverloaded (0D) Scx+ tendons, as well as from Scx+ and ScxΔ mice at 7D or 14D after synergist ablation/plantaris growth procedure. (B) Heatmaps demonstrating the log2 fold change in selected proteins between Scx+ and ScxΔ tendons at 7D and 14D. Differences between groups were tested using FDR-corrected t tests; a, different (q < 0.05) between Scx+ and ScxΔ groups at a given time point. N = 4 mice per group.

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