Literature DB >> 23321670

Dynamic visualization of RANKL and Th17-mediated osteoclast function.

Junichi Kikuta1, Yoh Wada, Toshiyuki Kowada, Ze Wang, Ge-Hong Sun-Wada, Issei Nishiyama, Shin Mizukami, Nobuhiko Maiya, Hisataka Yasuda, Atsushi Kumanogoh, Kazuya Kikuchi, Ronald N Germain, Masaru Ishii.   

Abstract

Osteoclasts are bone resorbing, multinucleate cells that differentiate from mononuclear macrophage/monocyte-lineage hematopoietic precursor cells. Although previous studies have revealed important molecular signals, how the bone resorptive functions of such cells are controlled in vivo remains less well characterized. Here, we visualized fluorescently labeled mature osteoclasts in intact mouse bone tissues using intravital multiphoton microscopy. Within this mature population, we observed cells with distinct motility behaviors and function, with the relative proportion of static - bone resorptive (R) to moving - nonresorptive (N) varying in accordance with the pathophysiological conditions of the bone. We also found that rapid application of the osteoclast-activation factor RANKL converted many N osteoclasts to R, suggesting a novel point of action in RANKL-mediated control of mature osteoclast function. Furthermore, we showed that Th17 cells, a subset of RANKL-expressing CD4+ T cells, could induce rapid N-to-R conversion of mature osteoclasts via cell-cell contact. These findings provide new insights into the activities of mature osteoclasts in situ and identify actions of RANKL-expressing Th17 cells in inflammatory bone destruction.

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Year:  2013        PMID: 23321670      PMCID: PMC3561830          DOI: 10.1172/JCI65054

Source DB:  PubMed          Journal:  J Clin Invest        ISSN: 0021-9738            Impact factor:   14.808


  37 in total

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2.  A highly efficient Escherichia coli-based chromosome engineering system adapted for recombinogenic targeting and subcloning of BAC DNA.

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3.  In vivo fluorescence imaging of bone-resorbing osteoclasts.

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Journal:  Bone       Date:  2011-09-29       Impact factor: 4.398

5.  Activated T cells regulate bone loss and joint destruction in adjuvant arthritis through osteoprotegerin ligand.

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Journal:  Nature       Date:  1999-11-18       Impact factor: 49.962

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Authors:  Shinichiro Kuroshima; Virginia-Arlene A Go; Junro Yamashita
Journal:  Endocrinology       Date:  2011-11-22       Impact factor: 4.736

7.  T-cell-mediated regulation of osteoclastogenesis by signalling cross-talk between RANKL and IFN-gamma.

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8.  Three subunit a isoforms of mouse vacuolar H(+)-ATPase. Preferential expression of the a3 isoform during osteoclast differentiation.

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Journal:  J Biol Chem       Date:  2000-03-24       Impact factor: 5.157

9.  Distinguishing the proapoptotic and antiresorptive functions of risedronate in murine osteoclasts: role of the Akt pathway and the ERK/Bim axis.

Authors:  Takumi Matsumoto; Yuichi Nagase; Mitsuyasu Iwasawa; Tetsuro Yasui; Hironari Masuda; Yuho Kadono; Kozo Nakamura; Sakae Tanaka
Journal:  Arthritis Rheum       Date:  2011-12

10.  Defects in TCIRG1 subunit of the vacuolar proton pump are responsible for a subset of human autosomal recessive osteopetrosis.

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  80 in total

Review 1.  Revisiting the Page & Schroeder model: the good, the bad and the unknowns in the periodontal host response 40 years later.

Authors:  George Hajishengallis; Jonathan M Korostoff
Journal:  Periodontol 2000       Date:  2017-10       Impact factor: 7.589

2.  Surface microtopography modulates sealing zone development in osteoclasts cultured on bone.

Authors:  Michal Shemesh; Lia Addadi; Benjamin Geiger
Journal:  J R Soc Interface       Date:  2017-02       Impact factor: 4.118

Review 3.  Dynamic live imaging of bone: opening a new era with 'bone histodynametry'.

Authors:  Masaru Ishii; Sayumi Fujimori; Takeshi Kaneko; Junichi Kikuta
Journal:  J Bone Miner Metab       Date:  2013-04-02       Impact factor: 2.626

4.  In situ and in vivo visualization of mature osteoclasts reveals new insights.

Authors: 
Journal:  Bonekey Rep       Date:  2013-04-24

Review 5.  Podosome organization drives osteoclast-mediated bone resorption.

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Journal:  Cell Adh Migr       Date:  2014       Impact factor: 3.405

6.  Intravital microscopy of osteolytic progression and therapy response of cancer lesions in the bone.

Authors:  Eleonora Dondossola; Stephanie Alexander; Boris M Holzapfel; Stefano Filippini; Michael W Starbuck; Robert M Hoffman; Nora Navone; Elena M De-Juan-Pardo; Christopher J Logothetis; Dietmar W Hutmacher; Peter Friedl
Journal:  Sci Transl Med       Date:  2018-08-01       Impact factor: 17.956

7.  Real-time intravital imaging of pH variation associated with osteoclast activity.

Authors:  Hiroki Maeda; Toshiyuki Kowada; Junichi Kikuta; Masayuki Furuya; Mai Shirazaki; Shin Mizukami; Masaru Ishii; Kazuya Kikuchi
Journal:  Nat Chem Biol       Date:  2016-06-06       Impact factor: 15.040

Review 8.  Future Perspective of Single-Molecule FRET Biosensors and Intravital FRET Microscopy.

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Journal:  Biophys J       Date:  2016-07-28       Impact factor: 4.033

Review 9.  Denosumab: targeting the RANKL pathway to treat rheumatoid arthritis.

Authors:  Yahui Grace Chiu; Christopher T Ritchlin
Journal:  Expert Opin Biol Ther       Date:  2016-11-30       Impact factor: 4.388

10.  An Acid-Activatable Fluorescence Probe for Imaging Osteocytic Bone Resorption Activity in Deep Bone Cavities.

Authors:  Ryu Hashimoto; Masafumi Minoshima; Junichi Kikuta; Shinya Yari; Steven D Bull; Masaru Ishii; Kazuya Kikuchi
Journal:  Angew Chem Int Ed Engl       Date:  2020-09-08       Impact factor: 15.336
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