Browsing by Author "Togari, Akifumi"

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    Suppression of Osteoclastogenesis via Upregulation of Zfyve21 and Ddit4 by Salubrinal and Guanabenz
    (2016) Hamamura, Kazunori; Tanjung, Nancy; Chen, Andy; Yokota, Hiroki; Togari, Akifumi; Department of Biomedical Engineering, School of Engineering and Technology
    Salubrinal and guanabenz are two known inhibitors of de-phosphorylation of eukaryotic translation initiation factor 2 alpha (eIF2α), and they suppress osteoclastogenesis through downregulating nuclear factor of activated T-cells, cytoplasmic 1 (NFATc1), a master molecule of osteoclastogenesis. The mechanism of NFATc1 suppression is not well understood. Using genome-wide microarray analysis, we investigated molecular regulators of osteoclastogenesis, in particular, in response to salubrinal and guanabenz. We identified two sets of genes: a set of genes that were upregulated by receptor activator of nuclear factor kappa-B ligand (RANKL) and downregulated by salubrinal and guanabenz; and the other set of genes that were downregulated by RANKL and upregulated by salubrinal and guanabenz. The microarray and qPCR result revealed that a zinc finger protein, FYVE domain containing 21 (Zfyve21), as well as DNA-damage-inducible transcript 4 (Ddit4), were suppressed by RANKL and upregulated by salubrinal and guanabenz. A partial silencing of Zfyve21 or Ddit4 attenuated salubrinal- and guanabenz-driven suppression of NFATc1. Collectively, this study demonstrates that Zfyve21 and Ddit4 are two inhibitors of osteoclastogenesis. We expect that they may potentially serve as novel targets for preventing bone loss from skeletal diseases such as osteoporosis.
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    Suppression of osteoclastogenesis via α2-adrenergic receptors
    (Spandidos Publications, 2018-05) Hamajima, Kosuke; Hamamura, Kazunori; Chen, Andy; Yokota, Hiroki; Mori, Hironori; Yo, Shoyoku; Kondo, Hisataka; Tanaka, Kenjiro; Ishizuka, Kyoko; Kodama, Daisuke; Hirai, Takao; Miyazawa, Ken; Goto, Shigemi; Togari, Akifumi; Biomedical Engineering, School of Engineering and Technology
    The sympathetic nervous system is known to regulate osteoclast development. However, the involvement of α2-adrenergic receptors (α2-ARs) in osteoclastogenesis is not well understood. In the present study, their potential role in osteoclastogenesis was investigated. Guanabenz, clonidine and xylazine were used as agonists of α2-ARs, while yohimbine and idazoxan were employed as antagonists. Using RAW264.7 pre-osteoclast and primary bone marrow cells, the mRNA expression of the osteoclast-related genes nuclear factor of activated T-cells, cytoplasmic 1 (NFATc1), tartrate-resistant acid phosphatase (TRAP) and cathepsin K was evaluated following induction with receptor activator of nuclear factor κB ligand (RANKL). TRAP staining was also conducted to assess effects on osteoclastogenesis in mouse bone marrow cells in vitro. Administration of 5-20 µM guanabenz (P<0.01, for RANKL-only treatment), 20 µM clonidine (P<0.05, for RANKL-only treatment) and 20 µM xylazine (P<0.05, for RANKL-only treatment) attenuated RANKL-induced upregulation of NFATc1, TRAP and cathepsin K mRNA. Furthermore, the reductions in these mRNAs by 10 µM guanabenz and 20 µM clonidine in the presence of RANKL were attenuated by 20 µM yohimbine or idazoxan (P<0.05). The administration of 5-20 µM guanabenz (P<0.01, for RANKL-only treatment) and 10-20 µM clonidine (P<0.05, for RANKL-only treatment) also decreased the number of TRAP-positive multi-nucleated osteoclasts. Collectively, the present study demonstrates that α2-ARs may be involved in the regulation of osteoclastogenesis.