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Mechanical Loading and TGF-b Regulate Proteoglycan Synthesis in Tendon

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Mechanical Loading and TGF-b Regulate Proteoglycan Synthesis in Tendon

James R Robbins, Stephen P Evanko, Kathryn G Vogel

load force tissue transition

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Compressive load increases specific proteoglycans in tendon tissue

02This change makes the tendon more like fibrocartilage

03The signaling molecule TGF-beta appears to mediate this response

04Suggests a mechanism for how tendons adapt to compression

Compressive forces on tendons can trigger cellular changes that make the tissue more like cartilage, likely as a protective adaptation.

Abstract

Fibrocartilage is found in tendon at sites where the tissue is subjected to transverse compressive loading in vivo. A significant characteristic of the tissue transition from tendon to fibrocartilage in bovine deep flexor tendon is increased gene expression, synthesis, and accumulation of both a large proteoglycan, aggrecan, and a small proteoglyoan, biglycan. In order to investigate the cellular events involved in this response, segments of fetal bovine deep flexor tendon were subjected in vitro to cyclic compressive load for 72 h. Following loading, the level of aggrecan mRNA in cells from loaded tissue was increased 200-450% compared to matched nonloaded tissue segments, as determined by slot-blot analysis. The level of biglycan mRNA increased 100%, and the level of versican mRNA increased 130% in the loaded tissue. The level of decorin mRNA remained virtually unchanged, while expression of alpha 1(I) collagen increased only 40%. When tissue segments were cultured in the presence of transforming growth factor (TGF)-beta 1 (1 ng/ml), the synthesis and expression of mRNA for both aggrecan and biglycan increased, whereas decorin expression was not affected. Similarity in both the direction and the pattern of the cellular response to mechanical load and TGF-beta suggested a causal relationship. Both loading of tendon segments and TGF-beta treatment increased expression of mRNA for TGF-beta by approximately 40% compared to control tissue. In addition, the amount of newly synthesized TGF-beta immunoprecipitated from extracts of loaded tissue was several-fold greater than that from nonloaded tissue. The experiments of this study support a hypothesis suggesting that one aspect of the response of cells in fetal tendon to compressive load is increased TGF-beta synthesis which, in turn, stimulates synthesis of extracellular matrix proteoglycans and leads toward fibrocartilage formation.

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Cite this study

APA: James R Robbins, Stephen P Evanko, & Kathryn G Vogel (1997). Mechanical Loading and TGF-b Regulate Proteoglycan Synthesis in Tendon. https://fasciaresearchdatabase.com/mechanical-loading-and-tgf-b-regulate-proteoglycan-synthesis-in-tendon/
MLA: James R Robbins, et al. "Mechanical Loading and TGF-b Regulate Proteoglycan Synthesis in Tendon." 1997, https://fasciaresearchdatabase.com/mechanical-loading-and-tgf-b-regulate-proteoglycan-synthesis-in-tendon/.
Chicago: James R Robbins, Stephen P Evanko, Kathryn G Vogel. 1997. "Mechanical Loading and TGF-b Regulate Proteoglycan Synthesis in Tendon.". https://fasciaresearchdatabase.com/mechanical-loading-and-tgf-b-regulate-proteoglycan-synthesis-in-tendon/