Collagen XII mediated cellular and extracellular mechanisms regulate establishment of tendon structure and function

•Collagen XII is localized both in the tendon matrix and associated with tenocytes in developing, maturing and mature tendons.•Collagen XII regulates collagen I fibril packing and fiber assembly.•Col12a1 deficiency alters tenocyte organization and disrupts cell–cell connections, resulting in deforma...

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Veröffentlicht in:Matrix biology 2021-01, Vol.95, p.52-67
Hauptverfasser: Izu, Yayoi, Adams, Sheila M., Connizzo, Brianne K., Beason, David P., Soslowsky, Louis J., Koch, Manuel, Birk, David E.
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Sprache:eng
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Zusammenfassung:•Collagen XII is localized both in the tendon matrix and associated with tenocytes in developing, maturing and mature tendons.•Collagen XII regulates collagen I fibril packing and fiber assembly.•Col12a1 deficiency alters tenocyte organization and disrupts cell–cell connections, resulting in deformation of tendon hierarchal structure and reducing mechanical properties.•Collagen XII regulates intercellular communication by building matrix bridges in between adjacent tenocytes facilitating gap junction formation. Tendons have a uniaxially aligned structure with a hierarchical organization of collagen fibrils crucial for tendon function. Collagen XII is expressed in tendons and has been implicated in the regulation of fibrillogenesis. It is a non-fibrillar collagen belonging to the Fibril-Associated Collagens with Interrupted Triple Helices (FACIT) family. Mutations in COL12A1 cause myopathic Ehlers Danlos Syndrome with a clinical phenotype involving both joints and tendons supporting critical role(s) for collagen XII in tendon development and function. Here we demonstrate the molecular function of collagen XII during tendon development using a Col12a1 null mouse model. Col12a1 deficiency altered tenocyte shape, formation of interacting cell processes, and organization resulting in impaired cell–cell communication and disruption of hierarchal structure as well as decreased tissue stiffness. Immuno-localization revealed that collagen XII accumulated on the tenocyte surface and connected adjacent tenocytes by building matrix bridges between the cells, suggesting that collagen XII regulates intercellular communication. In addition, there was a decrease in fibrillar collagen I in collagen XII deficient tenocyte cultures compared with controls suggesting collagen XII signaling specifically alters tenocyte biosynthesis. This suggests that collagen XII provides feedback to tenocytes regulating extracellular collagen I. Together, the data indicate dual roles for collagen XII in determination of tendon structure and function. Through association with fibrils it functions in fibril packing, fiber assembly and stability. In addition, collagen XII influences tenocyte organization required for assembly of higher order structure; intercellular communication necessary to coordinate long range order and feedback on tenocytes influencing collagen synthesis. Integration of both regulatory roles is required for the acquisition of hierarchal structure and mechanical properties.
ISSN:0945-053X
1569-1802
1569-1802
DOI:10.1016/j.matbio.2020.10.004