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Original Article | Open Access

A high-resolution route map reveals distinct stages of chondrocyte dedifferentiation for cartilage regeneration

Yishan Chen1,2,3Yeke Yu1,4Ya Wen1,2,3Juan Chen5Junxin Lin1,3Zixuan Sheng1,2,3Wenyan Zhou1,2,3Heng Sun1,2,3Chengrui An1,2,3Jiansong Chen6Weiliang Wu6Chong Teng7Wei Wei7Hongwei Ouyang1,2,3,8 ( )
Dr. Li Dak Sum & Yip Yio Chin Center for Stem Cells and Regenerative Medicine, and Department of Orthopedic Surgery of the Second Affiliated Hospital, Zhejiang University School of Medicine, Hangzhou 310058, China
Department of Sports Medicine, Zhejiang University School of Medicine, Hangzhou 310058, China
Zhejiang University-University of Edinburgh Institute, Zhejiang University School of Medicine, and Key Laboratory of Tissue Engineering and Regenerative Medicine of Zhejiang Province, Zhejiang University School of Medicine, Hangzhou 310058, China
Department of Oral Surgery, Ninth People’s Hospital, Shanghai Jiao Tong University School of Medicine, Shanghai 200011, China
Department of General Intensive Care Unit, The Second Affiliated Hospital of Zhejiang University School of Medicine, Hangzhou 310009, China
Department of Orthopedic Surgery, The Children’s Hospital, Zhejiang University School of Medicine, National Clinical Research Center for Child Health, Hangzhou 310052, China
Department of Orthopedic Surgery, The Fourth Affiliated Hospital, Zhejiang University School of Medicine, Yiwu 322000, China
China Orthopedic Regenerative Medicine Group (CORMed), Hangzhou 310058, China

These authors contributed equally: Yishan Chen, Yeke Yu, Ya Wen

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Abstract

Articular cartilage damage is a universal health problem. Despite recent progress, chondrocyte dedifferentiation has severely compromised the clinical outcomes of cell-based cartilage regeneration. Loss-of-function changes are frequently observed in chondrocyte expansion and other pathological conditions, but the characteristics and intermediate molecular mechanisms remain unclear. In this study, we demonstrate a time-lapse atlas of chondrocyte dedifferentiation to provide molecular details and informative biomarkers associated with clinical chondrocyte evaluation. We performed various assays, such as single-cell RNA sequencing (scRNA-seq), live-cell metabolic assays, and assays for transposase-accessible chromatin with high-throughput sequencing (ATAC-seq), to develop a biphasic dedifferentiation model consisting of early and late dedifferentiation stages. Early-stage chondrocytes exhibited a glycolytic phenotype with increased expression of genes involved in metabolism and antioxidation, whereas late-stage chondrocytes exhibited ultrastructural changes involving mitochondrial damage and stress-associated chromatin remodeling. Using the chemical inhibitor BTB06584, we revealed that early and late dedifferentiated chondrocytes possessed distinct recovery potentials from functional phenotype loss. Notably, this two-stage transition was also validated in human chondrocytes. An image-based approach was established for clinical use to efficiently predict chondrocyte plasticity using stage-specific biomarkers. Overall, this study lays a foundation to improve the quality of chondrocytes in clinical use and provides deep insights into chondrocyte dedifferentiation.

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Bone Research
Article number: 38

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Cite this article:
Chen Y, Yu Y, Wen Y, et al. A high-resolution route map reveals distinct stages of chondrocyte dedifferentiation for cartilage regeneration. Bone Research, 2022, 10: 38. https://doi.org/10.1038/s41413-022-00209-w

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Received: 15 September 2021
Revised: 24 January 2022
Accepted: 28 February 2022
Published: 27 April 2022
© The Author(s) 2022, corrected publication 2022

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