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Clinical-grade human dental pulp stem cells suppressed the activation of osteoarthritic macrophages and attenuated cartilaginous damage in a rabbit osteoarthritis model.

Pei-Lin LiYu-Xing WangZhi-Dong ZhaoZhi-Ling LiJia-Wu LiangQian WangBo-Feng YinRui-Cong HaoMeng-Yue HanLi DingChu-Tse WuHeng Zhu
Published in: Stem cell research & therapy (2021)
In summary, our findings reveal a novel function for hDPSCs in suppressing osteoarthritic macrophages and suggest that macrophages are efficient cellular targets of hDPSCs for alleviation of cartilaginous damage in OA. hDPSCs treat OA via an osteoarthritic macrophages-dependent mechanisms. hDPSCs suppress the activation of osteoarthritic macrophages in vitro and in vivo and alleviate cartilaginous lesions in OA models.
Keyphrases
  • stem cells
  • knee osteoarthritis
  • oxidative stress
  • gene expression
  • genome wide
  • dna methylation