Molecular Mechanisms of Chondrocyte Hypertrophy Mediated by Physical Cues and Therapeutic Strategies in Osteoarthritis
Guang-Zhen Jin

TL;DR
This paper reviews how physical cues influence chondrocyte hypertrophy in osteoarthritis and explores therapeutic strategies to target this process.
Contribution
It provides an integrated mechanobiological framework linking physical cues to chondrocyte behavior and disease-modifying treatment opportunities.
Findings
Chondrocyte hypertrophy is driven by mechanical cues and is a key event in cartilage degeneration.
ECM properties like stiffness and viscoelasticity influence hypertrophy in a zone- and stage-dependent manner.
Mechanosensitive pathways and structures transduce biophysical signals into intracellular responses.
Abstract
Osteoarthritis (OA) is a multifactorial degenerative joint disease in which aberrant mechanical cues act in concert with metabolic dysregulation and chronic low-grade inflammation, with chondrocyte hypertrophy representing a key pathological event driving cartilage degeneration. Alterations in extracellular matrix (ECM) properties—including mechanical loading, stiffness and viscoelasticity, topological organization, and surface chemistry—regulate hypertrophic differentiation and matrix degradation in a zone-, stage-, and scale-dependent manner. Microscale measurements often reveal localized stiffening in superficial zones during early OA, whereas bulk tissue testing can show softening or heterogeneous changes in deeper zones or advanced stages, highlighting the context-dependent nature of ECM mechanics. These biophysical signals are sensed by integrin-based adhesion complexes, primary…
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Taxonomy
TopicsOsteoarthritis Treatment and Mechanisms · Tendon Structure and Treatment · Cellular Mechanics and Interactions
