Literature DB >> 25108446

MicroRNAs involved in bone formation.

Garyfallia Papaioannou1, Fatemeh Mirzamohammadi, Tatsuya Kobayashi.   

Abstract

During skeletal development, mesenchymal progenitor cells undergo a multistage differentiation process in which they proliferate and become bone- and cartilage-forming cells. This process is tightly regulated by multiple levels of regulatory systems. The small non-coding RNAs, microRNAs (miRNAs), post-transcriptionally regulate gene expression. Recent studies have demonstrated that miRNAs play significant roles in all stages of bone formation, suggesting the possibility that miRNAs can be novel therapeutic targets for skeletal diseases. Here, we review the role and mechanism of action of miRNAs in bone formation. We discuss roles of specific miRNAs in major types of bone cells, osteoblasts, chondrocytes, osteoclasts, and their progenitors. Except a few, the current knowledge about miRNAs in bone formation has been obtained mainly by in vitro studies; further validation of these findings in vivo is awaited. We also discuss about several miRNAs of particular interest in the light of future therapies of bone diseases.

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Year:  2014        PMID: 25108446      PMCID: PMC4234685          DOI: 10.1007/s00018-014-1700-6

Source DB:  PubMed          Journal:  Cell Mol Life Sci        ISSN: 1420-682X            Impact factor:   9.261


  129 in total

1.  MicroRNA expression during osteogenic differentiation of human multipotent mesenchymal stromal cells from bone marrow.

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Journal:  J Cell Biochem       Date:  2011-07       Impact factor: 4.429

2.  miR-17-5p and miR-106a are involved in the balance between osteogenic and adipogenic differentiation of adipose-derived mesenchymal stem cells.

Authors:  Hongling Li; Tangping Li; Shihua Wang; Jianfeng Wei; Junfen Fan; Jing Li; Qin Han; Lianming Liao; Changshun Shao; Robert Chunhua Zhao
Journal:  Stem Cell Res       Date:  2012-12-03       Impact factor: 2.020

3.  miR-1247 functions by targeting cartilage transcription factor SOX9.

Authors:  Aida Martinez-Sanchez; Chris L Murphy
Journal:  J Biol Chem       Date:  2013-09-06       Impact factor: 5.157

4.  Targeted disruption of Cbfa1 results in a complete lack of bone formation owing to maturational arrest of osteoblasts.

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Journal:  Cell       Date:  1997-05-30       Impact factor: 41.582

Review 5.  Advances in the regulation of osteoclasts and osteoclast functions.

Authors:  B F Boyce
Journal:  J Dent Res       Date:  2013-08-01       Impact factor: 6.116

6.  Regulation of chondrocytic phenotype by micro RNA 18a: involvement of Ccn2/Ctgf as a major target gene.

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Journal:  FEBS Lett       Date:  2009-02-20       Impact factor: 4.124

7.  Five freely circulating miRNAs and bone tissue miRNAs are associated with osteoporotic fractures.

Authors:  Claudine Seeliger; Katrin Karpinski; Alexander T Haug; Helen Vester; Andreas Schmitt; Jan S Bauer; Martijn van Griensven
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Journal:  J Cell Biochem       Date:  2014-06       Impact factor: 4.429

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Authors:  Lei Guo; Jiping Xu; Jin Qi; Lianfang Zhang; Jinsheng Wang; Jing Liang; Niandong Qian; Hanbing Zhou; Li Wei; Lianfu Deng
Journal:  J Cell Sci       Date:  2012-12-21       Impact factor: 5.285

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Journal:  Cell Death Dis       Date:  2013-04-18       Impact factor: 8.469
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  43 in total

1.  Circulating microRNAs, miR-10b-5p, miR-328-3p, miR-100 and let-7, are associated with osteoblast differentiation in osteoporosis.

Authors:  Ruisong Chen; Xin Liao; Fengrong Chen; Bowen Wang; Jianming Huang; Guojian Jian; Zheyuan Huang; Ganghui Yin; Haoyuan Liu; Dadi Jin
Journal:  Int J Clin Exp Pathol       Date:  2018-03-01

2.  Neurobehavioral Alterations in a Genetic Murine Model of Feingold Syndrome 2.

Authors:  E Fiori; L Babicola; D Andolina; A Coassin; T Pascucci; L Patella; Y-C Han; A Ventura; R Ventura
Journal:  Behav Genet       Date:  2015-05-31       Impact factor: 2.805

3.  MicroRNA-34a alleviates steroid-induced avascular necrosis of femoral head by targeting Tgif2 through OPG/RANK/RANKL signaling pathway.

Authors:  Wu-Xun Peng; Chuan Ye; Wen-Tao Dong; Lei-Luo Yang; Chun-Qing Wang; Ze-An Wei; Jian-Hua Wu; Qing Li; Jin Deng; Jian Zhang
Journal:  Exp Biol Med (Maywood)       Date:  2017-04-28

Review 4.  Expression profiles and prognostic value of miRNAs in retinoblastoma.

Authors:  Lara Elis Alberici Delsin; Karina Bezerra Salomao; Julia Alejandra Pezuk; Maria Sol Brassesco
Journal:  J Cancer Res Clin Oncol       Date:  2018-10-22       Impact factor: 4.553

Review 5.  MicroRNAs in multiple myeloma and related bone disease.

Authors:  Marco Rossi; Pierosandro Tagliaferri; Pierfrancesco Tassone
Journal:  Ann Transl Med       Date:  2015-12

6.  microRNAs and connexins in bone: interaction and mechanisms of delivery.

Authors:  Lilian I Plotkin; Rafael Pacheco-Costa; Hannah M Davis
Journal:  Curr Mol Biol Rep       Date:  2017-04-25

7.  Lin28a overexpression reveals the role of Erk signaling in articular cartilage development.

Authors:  Tatsuya Kobayashi; Anastasia Kozlova
Journal:  Development       Date:  2018-08-02       Impact factor: 6.868

8.  Silk Biomaterials-Mediated miRNA Functionalized Orthopedic Devices.

Authors:  Eric N James; Emily Van Doren; Chunmei Li; David L Kaplan
Journal:  Tissue Eng Part A       Date:  2018-08-22       Impact factor: 3.845

9.  Effects of endogenous hypercortisolism on bone mRNA and microRNA expression in humans.

Authors:  Z E Belaya; T A Grebennikova; G A Melnichenko; A G Nikitin; A G Solodovnikov; O I Brovkina; A U Grigoriev; L Y Rozhinskaya; I I Dedov
Journal:  Osteoporos Int       Date:  2017-10-04       Impact factor: 4.507

10.  MICROmanagement of Runx2 Function in Skeletal Cells.

Authors:  Benjamin J Wildman; Tanner C Godfrey; Mohammad Rehan; Yuechuan Chen; Lubana H Afreen; Quamarul Hassan
Journal:  Curr Mol Biol Rep       Date:  2019-01-24
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