Department of Orthopedic Surgery, Brown Foundation Institute of Molecular Medicine, McGovern Medical School, University of Texas Health Science Center at Houston, Houston, Texas, USA.
Department of Orthopaedics, Xiangya Hospital, Central South University, Changsha, Hunan, China.
FASEB J. 2019 Aug;33(8):8809-8821. doi: 10.1096/fj.201802132RR. Epub 2019 May 1.
This study investigated articular cartilage (AC) homeostasis and different signaling pathways involved in the superior cartilage regeneration of Murphy Roths large (MRL/MpJ) mice previously reported. We collected uninjured and destabilized medial meniscus (DMM)-injured knees from 8-wk-old C57BL/6J and MRL/MpJ mice. We used micro-computed tomography (microCT), histology, and immunohistochemistry to evaluate AC homeostasis and repair. We used the ear punch model to investigate the role of angiogenesis and inflammation in the superior healing of MRL/MpJ mice. We found fewer β-catenin and more pSMAD5 positive cells in the uninjured AC of MRL/MpJ mice than that from C57BL/6J mice. MRL/MpJ mice exhibited better AC repair in DMM-induced OA, as indicated by microCT results, Alcian blue, and Safranin O staining. Mechanistically, fewer β-catenin, pSMAD2-, pSMAD3-, a disintegrin and metalloproteinase with thrombospondin motifs 4-, matrix metalloproteinase (MMP) 9-, and MMP13-positive cells and more proliferating cell nuclear antigen- and pSMAD5-positive cells were found in the DMM-injured AC in MRL/MpJ mice than in normal mice. The accelerated ear wound healing of MRL/MpJ mice correlated with enhanced angiogenesis and macrophage polarization toward the M2a phenotype through elevated IL-10 and IL-4 expressing cells. Collectively, our study revealed that down-regulation of pSMAD2/3, β-catenin, and MMPs and up-regulation of pSMAD5 and M2a macrophage polarization contribute to the enhanced cartilage repair observed in MRL/MpJ mice.-Deng, Z., Gao, X., Sun, X., Amra, S., Lu, A., Cui, Y., Eltzschig, H. K., Lei, G., Huard, J. Characterization of articular cartilage homeostasis and the mechanism of superior cartilage regeneration of MRL/MpJ mice.
本研究调查了先前报道的 Murphy Roths 大(MRL/MpJ)小鼠关节软骨(AC)稳态和参与 superior 软骨再生的不同信号通路。我们从 8 周龄 C57BL/6J 和 MRL/MpJ 小鼠中收集未受伤和内侧半月板不稳定(DMM)损伤的膝关节。我们使用微计算机断层扫描(microCT)、组织学和免疫组织化学来评估 AC 稳态和修复。我们使用耳打孔模型来研究血管生成和炎症在 MRL/MpJ 小鼠 superior 愈合中的作用。我们发现 MRL/MpJ 小鼠未受伤的 AC 中 β-catenin 较少,pSMAD5 阳性细胞较多。MRL/MpJ 小鼠在 DMM 诱导的 OA 中表现出更好的 AC 修复,这表现在 microCT 结果、阿尔辛蓝和番红 O 染色上。在机制上,我们发现 DMM 损伤的 AC 中,MRL/MpJ 小鼠中的 β-catenin、pSMAD2、pSMAD3、去整合素和金属蛋白酶与凝血酶 4、基质金属蛋白酶(MMP)9 和 MMP13 阳性细胞较少,增殖细胞核抗原和 pSMAD5 阳性细胞较多。MRL/MpJ 小鼠加速的耳部伤口愈合与通过升高的 IL-10 和 IL-4 表达细胞增强血管生成和巨噬细胞向 M2a 表型极化有关。总之,我们的研究表明,pSMAD2/3、β-catenin 和 MMPs 的下调以及 pSMAD5 和 M2a 巨噬细胞极化的上调有助于观察到的 MRL/MpJ 小鼠软骨修复增强。-邓,Z.,高,X.,孙,X.,阿玛拉,S.,卢,A.,崔,Y.,埃尔茨西格,H. K.,雷,G.,胡德,J.。MRL/MpJ 小鼠关节软骨稳态特征及 superior 软骨再生机制。
