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Creators/Authors contains:
"Dyment, Nathaniel A"
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Kwok, Bryan; Chandrasekaran, Prashant; Wang, Chao; He, Lan; Mauck, Robert L.; Dyment, Nathaniel A.; Koyama, Eiki; Han, Lin (, Acta Biomaterialia)
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Chandrasekaran, Prashant; Kwok, Bryan; Han, Biao; Adams, Sheila M.; Wang, Chao; Chery, Daphney R.; Mauck, Robert L.; Dyment, Nathaniel A.; Lu, X. Lucas; Frank, David B.; et al (, Matrix Biology)null (Ed.)
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Wei, Yulong; Sun, Hao; Gui, Tao; Yao, Lutian; Zhong, Leilei; Yu, Wei; Heo, Su-Jin; Han, Lin; Dyment, Nathaniel A; Liu, Xiaowei Sherry; et al (, eLife)Meniscal tears are associated with a high risk of osteoarthritis but currently have no disease-modifying therapies. Using a Gli1 reporter line, we found that Gli1 + cells contribute to the development of meniscus horns from 2 weeks of age. In adult mice, Gli1 + cells resided at the superficial layer of meniscus and expressed known mesenchymal progenitor markers. In culture, meniscal Gli1 + cells possessed high progenitor activities under the control of Hh signal. Meniscus injury at the anterior horn induced a quick expansion of Gli1-lineage cells. Normally, meniscal tissue healed slowly, leading to cartilage degeneration. Ablation of Gli1 + cells further hindered this repair process. Strikingly, intra-articular injection of Gli1 + meniscal cells or an Hh agonist right after injury accelerated the bridging of the interrupted ends and attenuated signs of osteoarthritis. Taken together, our work identified a novel progenitor population in meniscus and proposes a new treatment for repairing injured meniscus and preventing osteoarthritis.more » « less
