Commensal oral microbiota induces osteoimmunomodulatory effects separate from systemic microbiome in mice
Jessica D. Hathaway-Schrader, … , Caroline Westwater, Chad M. Novince
Jessica D. Hathaway-Schrader, … , Caroline Westwater, Chad M. Novince
Published January 25, 2022
Citation Information: JCI Insight. 2022;7(4):e140738. https://doi.org/10.1172/jci.insight.140738.
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Research Article Bone biology Microbiology

Commensal oral microbiota induces osteoimmunomodulatory effects separate from systemic microbiome in mice

Abstract

Commensal microbes critically regulate skeletal homeostasis, yet the impact of specific microbiota communities on osteoimmune response mechanisms is unknown. To discern osteoimmunomodulatory effects imparted by the commensal oral microbiota that are distinct from the systemic microbiota, osteoimmunology studies were performed in both alveolar bone and nonoral skeletal sites of specific pathogen–free (SPF) versus germ-free (GF) mice and SPF mice subjected to saline versus chlorhexidine oral rinses. SPF versus GF mice had reduced cortical/trabecular bone and an enhanced pro-osteoclastic phenotype in alveolar bone. TLR signaling and Th17 cells that have known pro-osteoclastic actions were increased in alveolar BM, but not long BM, of SPF versus GF mice. MHC II antigen presentation genes and activated DCs and CD4+ T cells were elevated in alveolar BM, but not long BM, of SPF versus GF mice. These findings were substantiated by in vitro allostimulation studies demonstrating increased activated DCs derived from alveolar BM, but not long BM, of SPF versus GF mice. Chlorhexidine antiseptic rinse depleted the oral, but not gut, bacteriome in SPF mice. Findings from saline- versus chlorhexidine-treated SPF mice corroborated outcomes from SPF versus GF mice, which reveals that the commensal oral microbiota imparts osteoimmunomodulatory effects separate from the systemic microbiome.

Authors

Jessica D. Hathaway-Schrader, Johannes D. Aartun, Nicole A. Poulides, Megan B. Kuhn, Blakely E. McCormick, Michael E. Chew, Emily Huang, Richard P. Darveau, Caroline Westwater, Chad M. Novince

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Figure 8

Commensal oral microbiota promotes activation of alveolar BM–derived DCs in vitro.

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Commensal oral microbiota promotes activation of alveolar BM–derived DCs...
(A and B) DC/T cell allostimulation assay supernatants were collected for ELISA IL-2 analysis from (A) SPF versus GF alveolar BM (ABM) and long BM (LBM) cultures and (B) saline versus CHX ABM and LBM cultures. (C and D) Representative gating strategy for T cells and dendritic cells from (C) ABM and (D) LBM cultures. (E and F) Representative dot plots of final gating and quantitative measures for CD11c+MHC II+CD86+ activated DCs from ABM and LBM cultures derived from SPF versus GF mice; reported as percentage of live cells. (G and H) Representative dot plots of final gating and quantitative measures for CD11c+MHC II+CD86+ activated DCs in ABM and LBM cultures derived from saline versus CHX mice; reported as percentage of live cells. (I and J) Representative dot plots of final gating and quantitative measures for CD3+CD4+CD28+ activated T cells in ABM and LBM cultures derived from SPF versus GF mice; reported as percentage of live cells. (K and L) Representative dot plots of final gating and quantitative measures for CD3+CD4+CD28+ activated T cells in ABM and LBM cultures derived from saline versus CHX mice; reported as percentage of live cells. Unpaired t test; data presented as mean ± SEM; *P < 0.05.