Moderate cyclic tensile strain alters the assembly of cartilage extracellular matrix proteins in vitro

Judith Bleuel, Frank Zaucke, Gert-Peter Brüggemann, Juliane Heilig, Marie-Louise Wolter, Nina Hamann, Sara Firner, Anja Niehoff

Publikation: Beitrag in FachzeitschriftZeitschriftenaufsätzeForschungBegutachtung

Abstract

BACKGROUND: Mechanical loading influences the structural and mechanical properties of articular cartilage. The cartilage matrix protein collagen II essentially determines the tensile properties of the tissue and is adapted in response to loading. The collagen II network is stabilized by the collagen II-binding cartilage oligomeric matrix protein (COMP), collagen IX, and matrilin-3. However, the effect of mechanical loading on these extracellular matrix proteins is not yet understood. Therefore, the aim of this study was to investigate if and how chondrocytes assemble the extracellular matrix proteins collagen II, COMP, collagen IX, and matrilin-3 in response to mechanical loading.

METHOD OF APPROACH: Primary murine chondrocytes were applied to cyclic tensile strain (6%, 0.5 Hz, 30 minutes per day at three consecutive days). The localization of collagen II, COMP, collagen IX, and matrilin-3 in loaded and unloaded cells were determined by immunofluorescence staining. The mRNA expression levels and synthesis of the proteins were analyzed using RT-PCR and western blots.

RESULTS: Immunofluorescence staining demonstrated that the pattern of collagen II distribution was altered by loading. In loaded chondrocytes collagen II containing fibrils appeared thicker and strongly co-stained for COMP and collagen IX, whereas the collagen network from unloaded cells was more diffuse and showed minor co-staining. Further, the applied load led to a higher amount of COMP in the matrix, determined by western blot analysis.

CONCLUSIONS: Our results show that moderate cyclic tensile strain altered the assembly of the extracellular collagen network. However, changes in protein amount were only observed for COMP, but not for collagen II, collagen IX or matrilin-3. The data suggest that the adaptation to mechanical loading is not always the result of changes in RNA and/or protein expression but might also be the result of changes in matrix assembly and structure. Keywords Cyclic tensile strain; mechanical loading; chondrocytes; extracellular matrix proteins; COMP; collagen network?

OriginalspracheEnglisch
ZeitschriftJournal of biomechanical engineering
Jahrgang137
Ausgabenummer6
Seitenumfang9
ISSN0148-0731
DOIs
PublikationsstatusVeröffentlicht - 01.03.2015

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