Specific Commensal Bacterium Critically Regulates Gut Microbiota Osteoimmunomodulatory Actions During Normal Postpubertal Skeletal Growth and Maturation

Specific Commensal Bacterium Critically Regulates Gut Microbiota Osteoimmunomodulatory Actions During Normal Postpubertal Skeletal Growth and Maturation

ABSTRACT The commensal gut microbiota critically regulates immunomodulatory processes that influence normal skeletal growth and maturation. However, the influence of specific microbes on commensal gut microbiota osteoimmunoregulatory actions is unknown. We have shown previously that the commensal gu...

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Main Authors: Jessica D Hathaway‐Schrader, Nicole A Poulides, Matthew D Carson, Joy E Kirkpatrick, Amy J Warner, Brooks A Swanson, Eliza V Taylor, Michael E Chew, Sakamuri V Reddy, Bei Liu, Caroline Westwater, Chad M Novince
Format: Article
Language:English
Published: Wiley 2020-03-01
Series:JBMR Plus
Subjects:
BONE MODELING/REMODELING
GUT MICROBIOTA
OSTEOCLASTS
OSTEOIMMUNOLOGY
Online Access:https://doi.org/10.1002/jbm4.10338
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language English
format Article
sources DOAJ
author Jessica D Hathaway‐Schrader
Nicole A Poulides
Matthew D Carson
Joy E Kirkpatrick
Amy J Warner
Brooks A Swanson
Eliza V Taylor
Michael E Chew
Sakamuri V Reddy
Bei Liu
Caroline Westwater
Chad M Novince
spellingShingle Jessica D Hathaway‐Schrader
Nicole A Poulides
Matthew D Carson
Joy E Kirkpatrick
Amy J Warner
Brooks A Swanson
Eliza V Taylor
Michael E Chew
Sakamuri V Reddy
Bei Liu
Caroline Westwater
Chad M Novince
Specific Commensal Bacterium Critically Regulates Gut Microbiota Osteoimmunomodulatory Actions During Normal Postpubertal Skeletal Growth and Maturation
JBMR Plus
BONE MODELING/REMODELING
GUT MICROBIOTA
OSTEOCLASTS
OSTEOIMMUNOLOGY
author_facet Jessica D Hathaway‐Schrader
Nicole A Poulides
Matthew D Carson
Joy E Kirkpatrick
Amy J Warner
Brooks A Swanson
Eliza V Taylor
Michael E Chew
Sakamuri V Reddy
Bei Liu
Caroline Westwater
Chad M Novince
author_sort Jessica D Hathaway‐Schrader
title Specific Commensal Bacterium Critically Regulates Gut Microbiota Osteoimmunomodulatory Actions During Normal Postpubertal Skeletal Growth and Maturation
title_short Specific Commensal Bacterium Critically Regulates Gut Microbiota Osteoimmunomodulatory Actions During Normal Postpubertal Skeletal Growth and Maturation
title_full Specific Commensal Bacterium Critically Regulates Gut Microbiota Osteoimmunomodulatory Actions During Normal Postpubertal Skeletal Growth and Maturation
title_fullStr Specific Commensal Bacterium Critically Regulates Gut Microbiota Osteoimmunomodulatory Actions During Normal Postpubertal Skeletal Growth and Maturation
title_full_unstemmed Specific Commensal Bacterium Critically Regulates Gut Microbiota Osteoimmunomodulatory Actions During Normal Postpubertal Skeletal Growth and Maturation
title_sort specific commensal bacterium critically regulates gut microbiota osteoimmunomodulatory actions during normal postpubertal skeletal growth and maturation
publisher Wiley
series JBMR Plus
issn 2473-4039
publishDate 2020-03-01
description ABSTRACT The commensal gut microbiota critically regulates immunomodulatory processes that influence normal skeletal growth and maturation. However, the influence of specific microbes on commensal gut microbiota osteoimmunoregulatory actions is unknown. We have shown previously that the commensal gut microbiota enhances TH17/IL17A immune response effects in marrow and liver that have procatabolic/antianabolic actions in the skeleton. Segmented filamentous bacteria (SFB), a specific commensal gut bacterium within phylum Firmicutes, potently induces TH17/IL17A‐mediated immunity. The study purpose was to delineate the influence of SFB on commensal gut microbiota immunomodulatory actions regulating normal postpubertal skeletal development. Two murine models were utilized: SFB‐monoassociated mice versus germ‐free (GF) mice and specific‐pathogen‐free (SPF) mice +/− SFB. SFB colonization was validated by 16S rDNA analysis, and SFB‐induced TH17/IL17A immunity was confirmed by upregulation of Il17a in ileum and IL17A in serum. SFB‐colonized mice had an osteopenic trabecular bone phenotype, which was attributed to SFB actions suppressing osteoblastogenesis and enhancing osteoclastogenesis. Intriguingly, SFB‐colonized mice had increased expression of proinflammatory chemokines and acute‐phase reactants in the liver. Lipocalin‐2 (LCN2), an acute‐phase reactant and antimicrobial peptide, was substantially elevated in the liver and serum of SFB‐colonized mice, which supports the notion that SFB regulation of commensal gut microbiota osteoimmunomodulatory actions are mediated in part through a gut–liver–bone axis. Proinflammatory TH17 and TH1 cells were increased in liver‐draining lymph nodes of SFB‐colonized mice, which further substantiates that SFB osteoimmune‐response effects may be mediated through the liver. SFB‐induction of Il17a in the gut and Lcn2 in the liver resulted in increased circulating levels of IL17A and LCN2. Recognizing that IL17A and LCN2 support osteoclastogenesis/suppress osteoblastogenesis, SFB actions impairing postpubertal skeletal development appear to be mediated through immunomodulatory effects in both the gut and liver. This research reveals that specific microbes critically impact commensal gut microbiota immunomodulatory actions regulating normal postpubertal skeletal growth and maturation. © 2020 The Authors. JBMR Plus published by Wiley Periodicals, Inc. on behalf of American Society for Bone and Mineral Research.
topic BONE MODELING/REMODELING
GUT MICROBIOTA
OSTEOCLASTS
OSTEOIMMUNOLOGY
url https://doi.org/10.1002/jbm4.10338
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spelling doaj-239f928106c2427b9b3d7460aab1b8ae2021-05-02T19:48:40ZengWileyJBMR Plus2473-40392020-03-0143n/an/a10.1002/jbm4.10338Specific Commensal Bacterium Critically Regulates Gut Microbiota Osteoimmunomodulatory Actions During Normal Postpubertal Skeletal Growth and MaturationJessica D Hathaway‐Schrader0Nicole A Poulides1Matthew D Carson2Joy E Kirkpatrick3Amy J Warner4Brooks A Swanson5Eliza V Taylor6Michael E Chew7Sakamuri V Reddy8Bei Liu9Caroline Westwater10Chad M Novince11Department of Oral Health Sciences College of Dental Medicine, Medical University of South Carolina Charleston SC USADepartment of Oral Health Sciences College of Dental Medicine, Medical University of South Carolina Charleston SC USADepartment of Oral Health Sciences College of Dental Medicine, Medical University of South Carolina Charleston SC USADepartment of Oral Health Sciences College of Dental Medicine, Medical University of South Carolina Charleston SC USADepartment of Oral Health Sciences College of Dental Medicine, Medical University of South Carolina Charleston SC USADepartment of Oral Health Sciences College of Dental Medicine, Medical University of South Carolina Charleston SC USADepartment of Oral Health Sciences College of Dental Medicine, Medical University of South Carolina Charleston SC USADepartment of Oral Health Sciences College of Dental Medicine, Medical University of South Carolina Charleston SC USADepartment of Pediatrics‐Division of Endocrinology College of Medicine, Medical University of South Carolina Charleston SC USADepartment of Microbiology and Immunology College of Medicine, Medical University of South Carolina Charleston SC USADepartment of Oral Health Sciences College of Dental Medicine, Medical University of South Carolina Charleston SC USADepartment of Oral Health Sciences College of Dental Medicine, Medical University of South Carolina Charleston SC USAABSTRACT The commensal gut microbiota critically regulates immunomodulatory processes that influence normal skeletal growth and maturation. However, the influence of specific microbes on commensal gut microbiota osteoimmunoregulatory actions is unknown. We have shown previously that the commensal gut microbiota enhances TH17/IL17A immune response effects in marrow and liver that have procatabolic/antianabolic actions in the skeleton. Segmented filamentous bacteria (SFB), a specific commensal gut bacterium within phylum Firmicutes, potently induces TH17/IL17A‐mediated immunity. The study purpose was to delineate the influence of SFB on commensal gut microbiota immunomodulatory actions regulating normal postpubertal skeletal development. Two murine models were utilized: SFB‐monoassociated mice versus germ‐free (GF) mice and specific‐pathogen‐free (SPF) mice +/− SFB. SFB colonization was validated by 16S rDNA analysis, and SFB‐induced TH17/IL17A immunity was confirmed by upregulation of Il17a in ileum and IL17A in serum. SFB‐colonized mice had an osteopenic trabecular bone phenotype, which was attributed to SFB actions suppressing osteoblastogenesis and enhancing osteoclastogenesis. Intriguingly, SFB‐colonized mice had increased expression of proinflammatory chemokines and acute‐phase reactants in the liver. Lipocalin‐2 (LCN2), an acute‐phase reactant and antimicrobial peptide, was substantially elevated in the liver and serum of SFB‐colonized mice, which supports the notion that SFB regulation of commensal gut microbiota osteoimmunomodulatory actions are mediated in part through a gut–liver–bone axis. Proinflammatory TH17 and TH1 cells were increased in liver‐draining lymph nodes of SFB‐colonized mice, which further substantiates that SFB osteoimmune‐response effects may be mediated through the liver. SFB‐induction of Il17a in the gut and Lcn2 in the liver resulted in increased circulating levels of IL17A and LCN2. Recognizing that IL17A and LCN2 support osteoclastogenesis/suppress osteoblastogenesis, SFB actions impairing postpubertal skeletal development appear to be mediated through immunomodulatory effects in both the gut and liver. This research reveals that specific microbes critically impact commensal gut microbiota immunomodulatory actions regulating normal postpubertal skeletal growth and maturation. © 2020 The Authors. JBMR Plus published by Wiley Periodicals, Inc. on behalf of American Society for Bone and Mineral Research.https://doi.org/10.1002/jbm4.10338BONE MODELING/REMODELINGGUT MICROBIOTAOSTEOCLASTSOSTEOIMMUNOLOGY

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