MiR-146a Deletion Protects From Bone Loss in OVX Mice by Suppressing RANKL/OPG and M-CSF in Bone Microenvironment

Zhao, Jingyu; Huang, Mingjian; Zhang, Xudong; Xu, Jiajia; Hu, Guoli; Zhao, Xiaoying; Zhang, Xiaoling

doi:10.1002/jbmr.3832

Cited by 36 publications

(32 citation statements)

References 47 publications

(110 reference statements)

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“…In line with increased activity of Wnt proteins, we detected even decreasing bone marrow adiposity and increasing numbers of osteoblasts over time in miR-146a deficient mice. In addition, miR-146a deficient mice are, in accordance with a recent report [46], protected from OVX-induced bone loss. Interestingly, also during ovariectomy, we detected increased osteoblast and reduced generation of adipocytes in miR-146a deficient mice.…”

Section: Discussionsupporting

confidence: 88%

MiR-146a controls age related bone loss

Saferding

Hofmann

Brunner

et al. 2020

Preprint

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Section: Discussionsupporting

confidence: 88%

MiR-146a controls age related bone loss

Saferding

Hofmann

Brunner

et al. 2020

Preprint

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“…Among the 384 microRNAs contained in the card, we identified 164 miRNAs in EVs from the MM1.S cell line and we then selected the most enriched ones based on their expression level (Ct <31, 2ˆ∆Ct ≥0.002). Out of forty enriched miRNAs, seven of them have been previously correlated with osteogenesis regulation (hsa-miR-34a [35][36][37], hsa-miR-30c [26,38], hsa-miR-127-5p [39,40], hsa-miR-106a [41], hsa-miR-188-3p [37], hsa-miR-129-5p [42][43][44][45], hsa-miR-146a [46,47] (Figure 2) Among those, we decided to focus our attention on hsa-miR-30c, hsa-miR-127-5p, hsa-miR-129-5p, and hsa-miR-146a since their validated and predicted targets are osteoblast differentiation markers. The presence of the four selected miRNAs in MM EVs was further confirmed by qRT-PCR in MM1.S and RPMI 8226 EVs as well as in the respective producing cell lines ( Figure 3A).…”

Section: Mm-evs Contain Mirnas Involved In Hmscsosteogenic Inhibitionmentioning

confidence: 99%

Extracellular Vesicle microRNAs Contribute to the Osteogenic Inhibition of Mesenchymal Stem Cells in Multiple Myeloma

Raimondo

Urzì

Conigliaro

et al. 2020

Cancers

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Osteolytic bone disease is the major complication associated with the progression of multiple myeloma (MM). Recently, extracellular vesicles (EVs) have emerged as mediators of MM-associated bone disease by inhibiting the osteogenic differentiation of human mesenchymal stem cells (hMSCs). Here, we investigated a correlation between the EV-mediated osteogenic inhibition and MM vesicle content, focusing on miRNAs. By the use of a MicroRNA Card, we identified a pool of miRNAs, highly expressed in EVs, from MM cell line (MM1.S EVs), expression of which was confirmed in EVs from bone marrow (BM) plasma of patients affected by smoldering myeloma (SMM) and MM. Notably,we found that miR-129-5p, which targets different osteoblast (OBs) differentiation markers, is enriched in MM-EVs compared to SMM-EVs, thus suggesting a selective packaging correlated with pathological grade. We found that miR-129-5p can be transported to hMSCs by MM-EVs and, by the use of miRNA mimics, we investigated its role in recipient cells. Our data demonstrated that the increase of miR-129-5p levels in hMSCs under osteoblastic differentiation stimuli inhibited the expression of the transcription factor Sp1, previously described as a positive modulator of osteoblastic differentiation, and of its target the Alkaline phosphatase (ALPL), thus identifying miR-129-5p among the players of vesicle-mediated bone disease.

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“…The current study shows the role of miRNAs in linking transcripts enriched in bone metabolism and immune functions. Many miRNAs are known to regulate bone metabolism, host-microbiome interaction, and inflammatory and immune processes [16,28,29]. MiR-146a affects osteoblast and osteoclast formation in vitro and in vivo miR-146a+/− mice [16,30].…”

Section: Discussionmentioning

confidence: 99%

“…Many miRNAs are known to regulate bone metabolism, host-microbiome interaction, and inflammatory and immune processes [16,28,29]. MiR-146a affects osteoblast and osteoclast formation in vitro and in vivo miR-146a+/− mice [16,30]. Using computational analysis and an in vitro cell culture system, miR-146b levels were shown to be significantly associated with chronic kidney disease and mineral bone disorder [31].…”

Section: Discussionmentioning

confidence: 99%

“…MiRNAs also play important roles in bone metabolism, bone-related diseases, and bone cell development and function [13][14][15][16]. Previous studies demonstrated that mRNA-miRNA regulatory networks affect different phenotypes, including endometrial receptivity in cattle, divergent muscle properties such as muscle fiber type, metabolic enzyme activity, and ATP production both in vivo pigs and in vitro in cell culture [17][18][19].…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Identification of the Key Molecular Drivers of Phosphorus Utilization Based on Host miRNA-mRNA and Gut Microbiome Interactions

Ponsuksili

Reyer

Hadlich

et al. 2020

IJMS

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Phosphorus is an essential mineral for all living organisms and a limited resource worldwide. Variation and heritability of phosphorus utilization (PU) traits were observed, indicating the general possibility of improvement. Molecular mechanisms of PU, including host and microbial effects, are still poorly understood. The most promising molecules that interact between the microbiome and host are microRNAs. Japanese quail representing extremes for PU were selected from an F2 population for miRNA profiling of the ileal tissue and subsequent association with mRNA and microbial data of the same animals. Sixty-nine differentially expressed miRNAs were found, including 21 novel and 48 known miRNAs. Combining miRNAs and mRNAs based on correlated expression and target prediction revealed enrichment of transcripts in functional pathways involved in phosphate or bone metabolism such as RAN, estrogen receptor and Wnt signaling, and immune pathways. Out of 55 genera of microbiota, seven were found to be differentially abundant between PU groups. The study reveals molecular interactions occurring in the gut of quail which represent extremes for PU including miRNA-16-5p, miR-142b-5p, miR-148a-3p, CTDSP1, SMAD3, IGSF10, Bacteroides, and Alistipes as key indicators due to their trait-dependent differential expression and occurrence as hub-members of the network of molecular drivers of PU.

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MiR-146a Deletion Protects From Bone Loss in OVX Mice by Suppressing RANKL/OPG and M-CSF in Bone Microenvironment

Cited by 36 publications

References 47 publications

MiR-146a controls age related bone loss

MiR-146a controls age related bone loss

Extracellular Vesicle microRNAs Contribute to the Osteogenic Inhibition of Mesenchymal Stem Cells in Multiple Myeloma

Identification of the Key Molecular Drivers of Phosphorus Utilization Based on Host miRNA-mRNA and Gut Microbiome Interactions

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