Cell Death and Disease (Sep 2022)

Hnrnpk maintains chondrocytes survival and function during growth plate development via regulating Hif1α-glycolysis axis

  • Yuyu Chen,
  • Jinna Wu,
  • Shun Zhang,
  • Wenjie Gao,
  • Zhiheng Liao,
  • Taifeng Zhou,
  • Yongyong Li,
  • Deying Su,
  • Hengyu Liu,
  • Xiaoming Yang,
  • Peiqiang Su,
  • Caixia Xu

DOI
https://doi.org/10.1038/s41419-022-05239-0
Journal volume & issue
Vol. 13, no. 9
pp. 1 – 13

Abstract

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Abstract The harmonious functioning of growth plate chondrocytes is crucial for skeletogenesis. These cells rely on an appropriate intensity of glycolysis to maintain survival and function in an avascular environment, but the underlying mechanism is poorly understood. Here we show that Hnrnpk orchestrates growth plate development by maintaining the appropriate intensity of glycolysis in chondrocytes. Ablating Hnrnpk causes the occurrence of dwarfism, exhibiting damaged survival and premature differentiation of growth plate chondrocytes. Furthermore, Hnrnpk deficiency results in enhanced transdifferentiation of hypertrophic chondrocytes and increased bone mass. In terms of mechanism, Hnrnpk binds to Hif1a mRNA and promotes its degradation. Deleting Hnrnpk upregulates the expression of Hif1α, leading to the increased expression of downstream glycolytic enzymes and then exorbitant glycolysis. Our study establishes an essential role of Hnrnpk in orchestrating the survival and differentiation of chondrocytes, regulating the Hif1α-glycolysis axis through a post-transcriptional mechanism during growth plate development.