LncRNA-H19 Modulates Wnt/β-catenin Signaling by Targeting Dkk4 in Hindlimb Unloaded Rat.

Abstract	OBJECTIVE: To investigate the biological functions of long noncoding RNA-H19 (H19) in the pathogenesis of disuse osteoporosis (DOP). METHODS: Fifty-four male Sprague Dawley (SD) rats were randomly divided into three groups: baseline control (BC, 6), age-matched control (AC, 24), and hindlimb unloading (HLU, 24). The rats in the BC group were sacrificed at the beginning of the experiment, while the AC and HLU rats were sacrificed at different times (7, 14, 21 and 28 days after HLU). The DOP model was verified by micro-CT scan, and quantitative real-time polymerase chain reaction (qRT-PCR) was used to quantify the expression of osteogenic genes (OPG, RunX2 and OPG). Gene sequencing and bioinformatic analysis were performed to find H19 target genes and the associated signaling pathway, which were first verified on tissue samples. Further verification was performed by knocking down the H19 and related gene in rat osteoblast cell line (UMR106 cell). Then, the changes of associated signaling pathway and osteogenic function were examined to confirm the prediction of the bioinformatic analysis. RESULTS: Micro-CT scans and quantitative real-time polymerase chain reaction (qRT-PCR) tests showed progressively deteriorated trabecular bone and decreased level of osteogenic genes in the metaphysis of distal femur during HLU, indicating the successful establishment of a DOP model. According to RNA sequencing, 1351 mRNA and 464 lncRNA were abnormally expressed in response to mechanical unloading, in which the H19 decreased 2.86 fold in HLU rats. There were 1426 mRNA predicted to be the target genes of H19, and KEGG pathway analysis suggested that Wnt signaling pathway (Wnt signaling) was the top pathway responsible for these target genes. In the Wnt-associated genes targeted by H19, 11 were differentially expressed between HLU and AC rats, among which Dkk4 increased 2.44 fold in HLU rats when compared to normal controls. These results of sequencing and bioinformatic analysis were confirmed by the low expression of H19, overexpression of Dkk4 and inhibited Wnt signaling observed in DOP rats. Subsequent in vitro cell assay further demonstrated that knockdown of H19 led to upregulation of Dkk4, and inhibition of Wnt signaling and osteogenic function in UMR106 cell. These effects can be greatly reversed after application of knocking down Dkk4. CONCLUSION: Our findings demonstrated that low expression of H19, induced by mechanical unloading, leads to development of DOP through inhibition of Wnt signaling by promoting Dkk4 expression.
Authors	Bing Li, Jun Liu, Jie Zhao, Jian-Xiong Ma, Hao-Bo Jia, Yang Zhang, Guo-Sheng Xing, Xin-Long Ma
Journal	Orthopaedic surgery (Orthop Surg) Vol. 9 Issue 3 Pg. 319-327 (Aug 2017) ISSN: 1757-7861 [Electronic] Australia
PMID	28447380 (Publication Type: Journal Article)
Copyright	© 2017 Chinese Orthopaedic Association and John Wiley & Sons Australia, Ltd.
Chemical References	Dkk4 protein, rat H19 long non-coding RNA Intercellular Signaling Peptides and Proteins RNA, Long Noncoding
Topics	Animals Cancellous Bone (diagnostic imaging, physiopathology) Femur (diagnostic imaging, metabolism) Gene Expression Regulation (physiology) Hindlimb Suspension Intercellular Signaling Peptides and Proteins (metabolism) Male Osteoblasts (metabolism) Osteogenesis (genetics) Osteoporosis (diagnostic imaging, genetics, metabolism, physiopathology) RNA, Long Noncoding (genetics) Rats, Sprague-Dawley Wnt Signaling Pathway (genetics, physiology) X-Ray Microtomography (methods)

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