Mechano-adaptation: Exercise-driven Piezo1 & Piezo2 augmentation and chondroprotection in articular cartilage

Chondrocytes in adult joints are mechanosensitive post-mitotic quiescent cells with robustly expressed both Piezo1 and Piezo2 ion channels. Here, we examined the mechano-adaptation and Piezo modulations in articular chondrocytes using a mouse exercise model. We first found differential expression patterns of PIEZO1 and PIEZO2 in articular chondrocytes of healthy knee joints; chondrocytes in tibial cartilage (T) exhibit significantly higher PIEZO1 and PIEZO2 than femoral chondrocytes (F). Interestingly, a few weeks of exercise caused both PIEZO1 and PIEZO2 augmentation in F and T compared to the sedentary control group. Despite the increased expression levels of these mechanosensors, chondrocytes in exercised cartilage exhibit significantly reduced mechanical susceptibility against 1mJ impact. PIEZO1 modulation was relatively more rapid than PIEZO2 channels post-exercise. We tested the exercise-induced effect using Piezo1-conditional knockout (Pz1-cKO; Agc1