Mechanical stimulation of chondrocytes regulates HIF-1α under hypoxic conditions
Seiji Shimomura, Hiroaki Inoue, Yuji Arai, Shuji Nakagawa, Yuta Fujii, Tsunao Kishida, Masaharu Shin‐Ya, S. Ichimaru, Shinji Tsuchida, Osam Mazda, Kenji Takahashi
Abstract
We investigated the effects of hypoxia-inducible factor (HIF)-1α on articular cartilage under mechanical stimulation and the associated mechanisms. Chondrocytes, isolated from articular cartilage from the knee, hip, and shoulder joints of Wistar rats, were subjected to 20 % tensile stress under hypoxic (5% O2) conditions for 24 h. HIF-1α and aggrecan expression was significantly enhanced with mechanical stimulation under hypoxia but not significantly altered with mechanical stimulation under normoxia. The nuclear translocation of HIF-1α was enhanced by mechanical stress under hypoxia. Under both normoxia and hypoxia, a disintegrin and metalloproteinase with thrombospondin motifs (ADAM-TS) 5 expression was significantly reduced with mechanical stimulation compared to that in the group without mechanical stimulation. However, HIF-1α knockdown mitigated changes in aggrecan and ADAM-TS5 expression mediated by mechanical stimulation under hypoxia. The effects of treadmill running on HIF-1α production in the articular cartilage of rat knee joints were also analyzed. HIF-1α production increased in the moderate running group and decreased to the same levels as those in the control group in the excessive running group. This suggests that HIF-1α regulates aggrecan and ADAM-TS5 expression in response to mechanical stimulation under hypoxia and general mechanical stimulation in articular cartilage under hypoxia, while controlling cartilage homeostasis.