Hisatsugu Miyamoto scite author profile

Hisatsugu Miyamoto

4Publications

98Citation Statements Received

74Citation Statements Given

How they've been cited

134

How they cite others

Affiliations

Nagasaki University

Publications

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Force-Induced Osteoclast Apoptosis In Vivo Is Accompanied by Elevation in Transforming Growth Factor β and Osteoprotegerin Expression

et al. 2000

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The mechanism controlling the disappearance of osteoclasts from bone surfaces after bone resorption in vivo is largely unknown. This is because there is no suitable experimental system to trace the final fate of osteoclasts. Here, we used an experimental model of tooth movement in rats to show that preexisting osteoclasts disappeared from the bone surface through apoptosis during a force-induced rapid shift from bone resorption to formation. On the distal alveolar bone surface of the maxillary molar in growing rats, many mature osteoclasts were present. When light tensional force was applied to the bone surface through an orthodontic appliance, these preexisting osteoclasts gradually disappeared. One day after the application of force, about 24% of the osteoclasts exhibited apoptotic morphology and the proportion of apoptotic cells was increased to 41% by day 2, then decreased afterward. These changes were undetectable on the control distal alveolar bone surface, which is free from tensional force. As shown by in situ hybridization, a marked increase in transforming growth factor ␤1 (TGF-␤1) and osteoprotegerin (OPG) messenger RNA (mRNA) was observed in the stretched cells on the tensioned distal bone surface, simultaneously with the loss of osteoclasts. Both of these factors are known to have a negative effect on osteoclast recruitment and survival. As early as 2 days after force application, some of these stretched cells were identified as cuboidal osteoblasts showing intense signals for both factors. Our data suggest there may be a sequential link in tensional force applied on the bone lining cells, up-regulation of TGF-␤1/OPG, and disappearance of osteoclasts. (J Bone Miner Res 2000; 15:1924 -1934)

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Characterization of Phagosomal Subpopulations along Endocytic Routes in Osteoclasts and Macrophages

Sakai

Miyamoto

Okamoto

et al. 2001

Journal of Biochemistry

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Modifications occurring during the transformation of phagosomes into mature phagolysosomes were investigated in osteoclast-like cells (OCLs) and macrophages using latex beads as markers for the isolation of phagosomal compartments (LBC) at different time points after phagocytosis. In OCLs, newly formed LBC acquired cathepsin K, tartarate-resistant phosphatase (TRAP), lysosome-associated membrane protein-1 (Lamp-1), and cathepsin D, and rapidly lost annexin II in a time-dependent manner. The levels of Rab7 and c-Src in OCLs initially increased and then gradually decreased during the transformation from early to late endosomal LBC or phagolysosomes. Receptor activator of NF-kappaB (RANKL) significantly increased the LBC levels of cathepsin K, TRAP, and c-Src, whereas calcitonin decreased the LBC levels of cathepsin K, TRAP, and Rab7, indicating that the transformation of early to late endosomal elements and lysosomes in OCLs is also regulated by osteoclastogenesis regulatory factors. On the other hand, changes in the LBC levels of Lamp-1, cathepsin D, and annexin II in macrophages were comparable to those in OCLs. However, contrary to osteoclastic LBC, Rab7 levels of macrophage LBC decreased in a time-dependent manner. Macrophage LBC were devoid of cathepsin K, TRAP, and c-Src in all transformation stages. These observations suggest that OCLs and macrophages have different phagosome maturation mechanisms that involve the specific and regulated acquisition of markers from endocytic organelles. The results also demonstrate that the use of LBC is a useful system in which to identify and characterize molecules involved in these different endocytic pathways.

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Morphological studies of cell death in Mongolian gerbil parotid and submandibular gland acinar cells during aging.

Miyamoto

Qiu

1997

Jpn J Oral Biol

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Biogenesis and maturation of phagosomes enclosing latex beads in murine osteoclast-like cells

Sakai¹,

Miyamoto²,

Kobayashi³

et al. 2000

Japanese Journal of Pharmacology

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