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Pinger Wang Rui Dong Baoli Wang Zhaohuan Lou Jun Ying Chenjie Xia Songfeng Hu Weidong Wang Qi Sun Peng Zhang Qinwen Ge Luwei Xiao Di Chen Peijian Tong Ju Li Hongting Jin 《Journal of cellular physiology》2019,234(12):21877-21888
Emerging evidence suggests that microRNAs (miRNAs) may be pathologically involved in osteoarthritis (OA). Subchondral bone (SCB) sclerosis is accounted for the knee osteoarthritis (KOA) development and progression. In this study, we aimed to screen the miRNA biomarkers of KOA and investigated whether these miRNAs regulate the differentiation potential of mesenchymal stem cells (MSCs) and thus contributing to SCB. We identified 48 miRNAs in the blood samples in KOA patients (n = 5) through microarray expression profiling detection. After validation with larger sample number, we confirmed hsa-miR-582-5p and hsa-miR-424-5p were associated with the pathology of SCB sclerosis. Target genes prediction and pathway analysis were implemented with online databases, indicating these two candidate miRNAs were closely related to the pathways of pluripotency of stem cells and pathology of OA. Surprisingly, mmu-miR-582-5p (homology of hsa-miR-582-5p) was downregulated in osteogenic differentiation and upregulated in adipogenic differentiation of mesenchymal progenitor C3H10T1/2 cells, whereas mmu-mir-322-5p (homology of hsa-miR-424-5p) showed no change through the in vitro study. Supplementing mmu-miR-582-5p mimics blocked osteogenic and induced adipogenic differentiation of C3H10T1/2 cells, whereas silencing of the endogenous mmu-miR-582-5p enhanced osteogenic and repressed adipogenic differentiation. Further mechanism studies showed that mmu-miR-582-5p was directly targeted to Runx2. Mutation of putative mmu-miR-582-5p binding sites in Runx2 3′ untranslated region (3′UTR) could abolish the response of the 3′UTR-luciferase construct to mmu-miR-582-5p supplementation. Generally speaking, our data suggest that miR-582-5p is an important biomarker of KOA and is able to regulate osteogenic and adipogenic differentiation of MSCs via targeting Runx2. The study also suggests that miR-582-5p may play a crucial role in SCB sclerosis of human KOA. 相似文献
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Dlx3 transcriptional regulation of osteoblast differentiation: temporal recruitment of Msx2, Dlx3, and Dlx5 homeodomain proteins to chromatin of the osteocalcin gene 总被引:5,自引:0,他引:5
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Hassan MQ Javed A Morasso MI Karlin J Montecino M van Wijnen AJ Stein GS Stein JL Lian JB 《Molecular and cellular biology》2004,24(20):9248-9261
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Gordeladze JO Noël D Bony C Apparailly F Louis-Plence P Jorgensen C 《Experimental cell research》2008,314(7):1495-1506
In order to ensure that MSCs designed for in vivo cartilage repair do not untowardly differentiate into osteoblasts and mineralize in situ, we tested whether siRNA-induced suppression of cbfa1/Runx2 affected the osteogenic and chondrogenic differentiation potential of the murine cell line C3H10T1/2. Anti-cbfa1/Runx2 siRNA decreased the levels of cbfa1/Runx2 mRNA and protein by 65-80%, and also markedly reduced the expression of osteoblast-related genes such as Dlx5, osterix, collagen type I, alkaline phosphatase (AP), osteocalcin, SPARC/osteonectin and osteopontin, leading to a temporal expression of AP enzyme activity and mineralization potential delayed by at least some 7-9 days. Furthermore, siRNA-transfected cells, grown under chondrogenic conditions did not display biologically significant changes in the expression of aggrecan, collagen type II or type X, or histology when grown in micropellets or monolayer cultures. Finally, when cells were propagated in osteogenic medium and injected into the tibial muscles of SCID mice, no overtly mineralized bone tissue emerged. These experiments indicate that a major transient reduction of cbfa1/Runx2 expression in MSCs is sufficient to delay osteoblastic differentiation, both in vitro and in vivo, while chondrogenesis seemed to be sustained. 相似文献
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Sharff KA Song WX Luo X Tang N Luo J Chen J Bi Y He BC Huang J Li X Jiang W Zhu GH Su Y He Y Shen J Wang Y Chen L Zuo GW Liu B Pan X Reid RR Luu HH Haydon RC He TC 《The Journal of biological chemistry》2009,284(1):649-659
Pluripotent mesenchymal stem cells (MSCs) are bone marrow stromal progenitor cells that can differentiate into osteogenic, chondrogenic, adipogenic, and myogenic lineages. We previously demonstrated that bone morphogenetic protein (BMP) 9 is one of the most potent and yet least characterized BMPs that are able to induce osteogenic differentiation of MSCs both in vitro and in vivo. Here, we conducted gene expression-profiling analysis and identified that Hey1 of the hairy/Enhancer of split-related repressor protein basic helix-loop-helix family was among the most significantly up-regulated early targets in BMP9-stimulated MSCs. We demonstrated that Hey1 expression was up-regulated at the immediate early stage of BMP9-induced osteogenic differentiation. Chromatin immunoprecipitation analysis indicated that Hey1 may be a direct target of the BMP9-induced Smad signaling pathway. Silencing Hey1 expression diminished BMP9-induced osteogenic differentiation both in vitro and in vivo and led to chondrogenic differentiation. Likewise, constitutive Hey1 expression augmented BMP9-mediated bone matrix mineralization. Hey1 and Runx2 were shown to act synergistically in BMP9-induced osteogenic differentiation, and Runx2 expression significantly decreased in the absence of Hey1, suggesting that Runx2 may function downstream of Hey1. Accordingly, the defective osteogenic differentiation caused by Hey1 knockdown was rescued by exogenous Runx2 expression. Thus, our findings suggest that Hey1, through its interplay with Runx2, may play an important role in regulating BMP9-induced osteoblast lineage differentiation of MSCs. 相似文献
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Qin Sun Huan Liu Heng Lin Guohua Yuan Lu Zhang Zhi Chen 《Molecular and cellular biochemistry》2013,377(1-2):143-149
Odontoblasts are terminally differentiated cells that play a vital role in dentinogenesis. The differentiation of odontoblasts is regulated by a variety of genetic and epigenetic mechanisms. Our previous microRNA microarray studies verified that miR-338-3p was up-regulated during odontoblast differentiation. The purpose of this study was to determine the function of miR-338-3p during odontoblast differentiation. The upregulation of miR-338-3p expression during odontoblast differentiation was validated by qRT-PCR. Odontoblast differentiation was enhanced after over-expression of miR-338-3p, while a loss of function approach using a miR-338-3p inhibitor impaired odontoblast differentiation. Bioinformatic analysis identified Runx2 as a potential target of miR-338-3p. Overexpression of miR-338-3p caused a decreased in the expression of Runx2 at both mRNA and protein levels, while Runx2 expression increased after treatment with miR-338-3p inhibitors. Furthermore, the activity of a luciferase reporter plasmid containing the 3′-UTR of Runx2 was significantly suppressed by ectopic expression of miR-338-3p. These results suggested that miR-338-3p promotes odontoblast differentiation through targeting Runx2. 相似文献
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