Zi Xu scite author profile

MicroRNAs have an important role in bone homeostasis. However, the detailed mechanism of microRNA-mediated intercellular communication between bone cells remains elusive. Here, we report that osteoclasts secrete microRNA-enriched exosomes, by which miR-214 is transferred into osteoblasts to inhibit their function. In a coculture system, inhibition of exosome formation and secretion prevented miR-214 transportation. Exosomes specifically recognized osteoblasts through the interaction between ephrinA2 and EphA2. In osteoclast-specific miR-214 transgenic mice, exosomes were secreted into the serum, and miR-214 and ephrinA2 levels were elevated. Therefore, these exosomes have an inhibitory role in osteoblast activity. miR-214 and ephrinA2 levels in serum exosomes from osteoporotic patients and mice were upregulated substantially. These exosomes may significantly inhibit osteoblast activity. Inhibition of exosome secretion via Rab27a small interfering RNA prevented ovariectomized-induced osteoblast dysfunction in vivo. Taken together, these findings suggest that exosome-mediated transfer of microRNA plays an important role in the regulation of osteoblast activity. Circulating miR-214 in exosomes not only represents a biomarker for bone loss but could selectively regulate osteoblast function.

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miR-214 promotes osteoclastogenesis by targeting Pten/PI3k/Akt pathway

Zhao

et al. 2015

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Abbreviations: BMMs, bone marrow monocytes; M-CSF, macrophage colony stimulating factor; RANKL, receptor activator of nuclear factor-kB ligand; Pten, phosphatase and tensin homolog; OC-TG214, osteoclast specific miR-214 transgenic mice; NFATc1, nuclear factor of activated T-cells cytoplasmic; TRAP, tartrate-resistant acid phosphatase; Dnm3os, Dnm3 opposite strand; WT, wild-type; micro CT, Micro computed tomography; BMD, bone mineral density; BV/TV, ratio of bone volume to tissue volume; Tb.Sp, trabecular spacing; qRT-PCR, quantitative real-time PCR microRNA is necessary for osteoclast differentiation, function and survival. It has been reported that miR-199/214 cluster plays important roles in vertebrate skeletal development and miR-214 inhibits osteoblast function by targeting ATF4. Here, we show that miR-214 is up-regulated during osteoclastogenesis from bone marrow monocytes (BMMs) with macrophage colony stimulating factor (M-CSF) and receptor activator of nuclear factor-kB ligand (RANKL) induction, which indicates that miR-214 plays a critical role in osteoclast differentiation. Overexpression of miR-214 in BMMs promotes osteoclastogenesis, whereas inhibition of miR-214 attenuates it. We further find that miR-214 functions through PI3K/Akt pathway by targeting phosphatase and tensin homolog (Pten). In vivo, osteoclast specific miR-214 transgenic mice (OC-TG214) exhibit down-regulated Pten levels, increased osteoclast activity, and reduced bone mineral density. These results reveal a crucial role of miR-214 in the differentiation of osteoclasts, which will provide a potential therapeutic target for osteoporosis.

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The regulation of iron metabolism by hepcidin contributes to unloading-induced bone loss

Sun

et al. 2017

Bone

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Zi Xu

Osteoclast-derived microRNA-containing exosomes selectively inhibit osteoblast activity

miR-214 promotes osteoclastogenesis by targeting Pten/PI3k/Akt pathway

The regulation of iron metabolism by hepcidin contributes to unloading-induced bone loss

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