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      MiR-494-3p induced by compressive force inhibits cell proliferation in MC3T3-E1 cells.

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          Abstract

          Mechanical stimuli regulate fundamental cell processes such as proliferation, differentiation, and morphogenesis. We attempted to identify microRNA (miRNA) whose expression is changed during compressive treatment in MC3T3-E1, a pre-osteoblastic cell line. Microarray analysis followed by reverse transcription-quantitative polymerase chain reaction revealed that compressive force at 294 Pa for 24 h in MC3T3-E1 cells increased levels of miR-494-3p, miR-146a-5p, miR-210-3p, and miR-1247-3p. Among these miRNAs, miR-494-3p was found to inhibit cell proliferation in MC3T3-E1 cells. Furthermore, cells subjected to compressive force showed slower cell growth compared with control cells. Levels of mRNA for fibroblast growth factor receptor 2 (FGFR2) and Rho-associated coiled-coil kinase 1 (ROCK1), which were predicted to be targets of miR-494-3p, were decreased by compressive force or overexpression of miR-494-3p mimics in MC3T3-E1 cells. Furthermore, binding sites of miR-494-3p within 3'-untranslated regions of Fgfr2 and Rock1 were determined using luciferase reporter assay. In conclusion, compressive force affected expressions of several miRNAs including miR-494-3p in MC3T3-E1 cells. Compressive force might inhibit cell proliferation in osteoblasts by up-regulating miR-494-3p followed by FGFR2 and ROCK1 gene repressions.

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          Author and article information

          Journal
          J. Biosci. Bioeng.
          Journal of bioscience and bioengineering
          Elsevier BV
          1347-4421
          1347-4421
          Oct 2015
          : 120
          : 4
          Affiliations
          [1 ] Department of Oral and Maxillofacial Prosthodontics, Institute of Health Biosciences, Tokushima University Graduate School, 3-18-15 Kuramoto-cho, Tokushima City 770-8504, Japan. Electronic address: yuki590724@dent.tokushima-u.ac.jp.
          [2 ] Department of Medical Pharmacology, Institute of Health Biosciences, Tokushima University Graduate School, 3-18-15 Kuramoto-cho, Tokushima City 770-8504, Japan. Electronic address: mizusawa@tokushima-u.ac.jp.
          [3 ] Department of Medical Pharmacology, Institute of Health Biosciences, Tokushima University Graduate School, 3-18-15 Kuramoto-cho, Tokushima City 770-8504, Japan. Electronic address: iwatakeo@tokushima-u.ac.jp.
          [4 ] Department of Oral and Maxillofacial Prosthodontics, Institute of Health Biosciences, Tokushima University Graduate School, 3-18-15 Kuramoto-cho, Tokushima City 770-8504, Japan. Electronic address: nhigaki@dent.tokushima-u.ac.jp.
          [5 ] Department of Oral and Maxillofacial Prosthodontics, Institute of Health Biosciences, Tokushima University Graduate School, 3-18-15 Kuramoto-cho, Tokushima City 770-8504, Japan. Electronic address: tak510@dent.tokushima-u.ac.jp.
          [6 ] Department of Oral and Maxillofacial Prosthodontics, Institute of Health Biosciences, Tokushima University Graduate School, 3-18-15 Kuramoto-cho, Tokushima City 770-8504, Japan. Electronic address: megwat@tokushima-u.ac.jp.
          [7 ] Oral Implant Center, Tokushima University Hospital, 2-50-1 Kuramoto-cho, Tokushima City 770-8504, Japan. Electronic address: tomotake.dent@tokushima-u.ac.jp.
          [8 ] Department of Oral and Maxillofacial Prosthodontics, Institute of Health Biosciences, Tokushima University Graduate School, 3-18-15 Kuramoto-cho, Tokushima City 770-8504, Japan. Electronic address: ichi@tokushima-u.ac.jp.
          [9 ] Department of Medical Pharmacology, Institute of Health Biosciences, Tokushima University Graduate School, 3-18-15 Kuramoto-cho, Tokushima City 770-8504, Japan. Electronic address: yoshimoto@tokushima-u.ac.jp.
          Article
          S1389-1723(15)00067-5
          10.1016/j.jbiosc.2015.02.006
          25795570
          6b2574a9-a8f4-446e-833f-7aa08e4fa5ca
          History

          Mechanical stimuli,Cell proliferation,Osteoblasts,MicroRNA,Compressive force

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