Department of Oral and Maxillofacial Diseases, Helsinki University Hospital, University of Helsinki, Finland.
Adult Stem Cell Group, BioMediTech Institute, Faculty of Medicine and Life Sciences, University of Tampere, Finland.
FEBS J. 2018 Jun;285(12):2337-2359. doi: 10.1111/febs.14485. Epub 2018 May 18.
Intercellular communication is essential in bone remodelling to ensure that new bone is formed with only temporary bone loss. Monocytes (MCs) and osteoclasts actively take part in controlling bone remodelling by providing signals that promote osteogenic differentiation of mesenchymal stem/stromal cells (MSCs). Extracellular vesicles (EVs) have attracted attention as regulators of bone remodelling. EVs facilitate intercellular communication by transferring a complex cargo of biologically active molecules to target cells. In the present study, we evaluated the potency of EVs from MCs and osteoclasts to induce a lineage-specific response in MSCs. We analysed gene expression and protein secretion by both adipose tissue-derived MSCs and bone marrow-derived MSCs after stimulation with EVs from lipopolysaccharide-activated primary human MCs and (mineral-resorbing) osteoclasts. Isolated EVs were enriched in exosomes (EVs of endosomal origin) and were free of cell debris. MC- and osteoclast-derived EVs were taken up by adipose tissue-derived MSCs. EVs from activated MCs promoted the secretion of cytokines by MSCs, which may represent an immunomodulatory mechanism. MC-derived EVs also upregulated the expression of genes encoding for matrix metalloproteinases. Therefore, we hypothesize that MCs facilitate tissue remodelling through EV-mediated signalling. We did not observe a significant effect of osteoclast-derived EVs on gene expression or protein secretion in MSCs. EV-mediated signalling might represent an additional mode of cell-cell signalling during the transition from injury and inflammation to bone regeneration and play an important role in the coupling between bone resorption and bone formation.
Gene expression data are available in the GEO database under the accession number GSE102401.
细胞间通讯对于确保新骨形成而只有暂时的骨丢失是至关重要的。单核细胞 (MCs) 和破骨细胞通过提供促进间充质干细胞/基质细胞 (MSCs) 成骨分化的信号,积极参与控制骨重塑。细胞外囊泡 (EVs) 作为骨重塑的调节剂受到关注。EVs 通过将复杂的生物活性分子货物转移到靶细胞来促进细胞间通讯。在本研究中,我们评估了 MCs 和破骨细胞来源的 EVs 在诱导 MSCs 谱系特异性反应中的效力。我们分析了 LPS 激活的原代人 MCs 和(矿化吸收)破骨细胞来源的 EVs 刺激后脂肪组织来源的 MSC 和骨髓来源的 MSC 的基因表达和蛋白分泌。分离的 EVs 富含外泌体(内体起源的 EVs),并且没有细胞碎片。MC 和破骨细胞来源的 EVs 被脂肪组织来源的 MSC 摄取。激活的 MC 来源的 EVs 促进了 MSC 的细胞因子分泌,这可能代表一种免疫调节机制。MC 来源的 EVs 还上调了编码基质金属蛋白酶的基因的表达。因此,我们假设 MCs 通过 EV 介导的信号转导促进组织重塑。我们没有观察到破骨细胞来源的 EVs 对 MSC 中基因表达或蛋白分泌有显著影响。EV 介导的信号转导可能代表损伤和炎症向骨再生过渡过程中细胞间信号传递的另一种模式,并在骨吸收和骨形成的耦联中发挥重要作用。
基因表达数据可在 GEO 数据库中以 GSE102401 号访问。
