一般社団法人日本老年歯科医学会 第34回学術大会

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ポスター発表13
その他

2023年6月18日(日) 10:00 〜 10:25 ポスター会場 (1階 G3)

座長:遠藤 眞美(日本大学松戸 歯学部障害者歯科学講座)

[P70] Signaling of myeloid CD11c+-dendritic cell-derived osteoclast precursor (mDDOCp) for osteoclastogenesis via the environment milieu onto arthritic bone loss vs. remodeling

○Yen Chun G. Liu1,2、Andy Yen-Tung Teng1,2,3 (1. Center for Osteo immunology and Biotechnology Research ( & Dept. of Dental College of Dental Medicine, Kaohsiung Medical University (KMU) KMU Hospital, Kaohsiung, Taiwan;、2. Taiwan Academy of Geriatric Dentistry (TAGD), Taiwan、3. The Eastman Institute for Oral Health (EIOH), School of Medicine & Dentistry, University of Rochester, Rochester, NY, USA.)

Objectives: Arthritic bone loss vs. remodeling in our skeleton involves the pivotal pathways, where the RANKL-RANK/OPG-triad signals via TRAF6/transducer-complexes in the osteoclast/OC, OC-precursors/OCp and immune-cells via environmental milieu at the osteo-immune interface. Our lab pioneered the characteristic OCp from myeloid-CD11c+-dendritic-cell-precursors (mDDOCp) in response to RANKL and osteotropic cytokines stimuli (i.e., TNF-a, TGF-β, etc.), from which we proposed to study how signal- interactions between TGFb-vs.-IL-17 in mDDOCp lacking TRAF6-signaling on osteoclastogenesis and bone loss.
Methods: We employed established protocols to generate CD11c+DDOC-cells lacking TRAF6-signaling in BM/ splenic-cells of ³6-wk-C57BL/6-chimeric mice post-lethal-irradiation and reconstituted with BM/fetal-liver cells of TRAF6(-/-)-mice, then-subjected to co-cultures with/without naïve-CD4+T-cells (or mRANKL:50-100ng/ ml) and Aggregatibactor Actinomycetemcomitans/JP2-strain sonicate-Ag (Aa-Ag), where exogenous rmTGFb or mIL-17 vs. anti-TGFb-neutralizing-Mab was individually added in-vitro, followed by enumerating surface- areas of TRAP+-CD11c+DC/mm2 in bone/dentine resorptive-pits. In parallel, CD11c+-DDOC from WT-TRAF6(+/+)- mice-BM/splenic-cells (w/wt rmM-CSF-&-rmRANKL) were set as controls for the statistics (i.e., student-t-test or ANOVA).
Results & Conclusion: The resulting data showed that: i) TRAF6/transducer-signaling was essential for RANKL/RANK- associated (WT)-DDOC-mediated osteoclastogensis/bone resorption; ii) rmTGF-b added into TRAF6(-/-)- derived-DDOC co-cultured with RANKL-&-Aa-Ag significantly rescued the reduced TRAP(+)-DDOC/OC activity detected in resorptive-pits (p=0.006); whereas, adding rmIL-17 unexpectedly further enhanced such rescued TRAP(+)-DDOC/OC activity measured (p=0.041), higher than that detected above, suggesting that TGF-b individually or with-IL-17 synergistically, mediated TRAF6-independent rescue-signaling onto the effector, DDOC; iii) conversely, addition of anti-TGF-b-neutralizing-Mab in co-cultures of ii) depicted, or replacing rmRANKL with naïve-CD4+T-cells & Aa-Ag, significantly reduced TRAP(+)-DDOC/OC activity on resorptive-pits (p=0.008) as shown in ii), indicating that IL-17-signaling for the functional activity of mDDOCp/OCp, required TGF-b in the environmental milieu, regardless RANKL-RANK/TRAF6-signaling or other inter-players expressed in-situ and nearby. These novel findings may suggest that such non-discriminative signaling via TGFb-vs.-IL-17 for rescue-effector functions in CD11c+mDDOCp/OCp may underpin new insight for the alternative pathway of osteoclastogenesis or bone loss, which will require further study for its in-vivo significance through animal models and human conditions; including the arthritic/articular-joint disorders and/or periodontitis. (The project was supported by National Health Research Institute of Taiwan: Grant # NHRI-EX101-9946SI)(COI: The authors declare no conflict of interest regarding the contents of this abstract for scientific presentation)(IRB: The present project was conducted according to the guidelines of Institution Animal Care & Use Committee (IACUC), which was approved for the IACUC-protocol #98017 & #98183, as the IRB-supported equivalent for all animal experiments and study, at the Kaohsiung Medical University (KMU), Kaohsiung, Taiwan.)