Inhibition of aberrant Hif1α activation delays intervertebral disc degeneration in adult mice

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作者
Zuqiang Wang
Hangang Chen
Qiaoyan Tan
Junlan Huang
Siru Zhou
Fengtao Luo
Dali Zhang
Jing Yang
Can Li
Bo Chen
Xianding Sun
Liang Kuang
Wanling Jiang
Zhenhong Ni
Quan Wang
Shuai Chen
Xiaolan Du
Di Chen
Chuxia Deng
Liangjun Yin
Lin Chen
Yangli Xie
机构
[1] Army Medical University,Center of Bone Metabolism and Repair, Department of Wound Repair and Rehabilitation Medicine, State Key Laboratory of Trauma, Burns and Combined Injury, Trauma Center, Research Institute of Surgery, Daping Hospital
[2] the Fourth Medical Center of PLA General Hospital,Senior Department of Orthopedics
[3] The Second Affiliated Hospital,Department of Orthopedic Surgery
[4] Chongqing Medical University,Research Center for Human Tissues and Organs Degeneration, Shenzhen Institutes of Advanced Technology
[5] Chinese Academy of Sciences,Faculty of Health Sciences
[6] University of Macau,undefined
来源
Bone Research | / 10卷
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摘要
The intervertebral disc (IVD) is the largest avascular tissue. Hypoxia-inducible factors (HIFs) play essential roles in regulating cellular adaptation in the IVD under physiological conditions. Disc degeneration disease (DDD) is one of the leading causes of disability, and current therapies are ineffective. This study sought to explore the role of HIFs in DDD pathogenesis in mice. The findings of this study showed that among HIF family members, Hif1α was significantly upregulated in cartilaginous endplate (EP) and annulus fibrosus (AF) tissues from human DDD patients and two mouse models of DDD compared with controls. Conditional deletion of the E3 ubiquitin ligase Vhl in EP and AF tissues of adult mice resulted in upregulated Hif1α expression and age-dependent IVD degeneration. Aberrant Hif1α activation enhanced glycolytic metabolism and suppressed mitochondrial function. On the other hand, genetic ablation of the Hif1α gene delayed DDD pathogenesis in Vhl-deficient mice. Administration of 2-methoxyestradiol (2ME2), a selective Hif1α inhibitor, attenuated experimental IVD degeneration in mice. The findings of this study show that aberrant Hif1α activation in EP and AF tissues induces pathological changes in DDD, implying that inhibition of aberrant Hif1α activity is a potential therapeutic strategy for DDD.
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