Gut microbial dysbiosis after traumatic brain injury modulates the immune response and impairs neurogenesis

Gut microbial dysbiosis after traumatic brain injury modulates the immune response and impairs neurogenesis

Abstract The influence of the gut microbiota on traumatic brain injury (TBI) is presently unknown. This knowledge gap is of paramount clinical significance as TBI patients are highly susceptible to alterations in the gut microbiota by antibiotic exposure. Antibiotic-induced gut microbial dysbiosis e...

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Main Authors: Marta Celorrio, Miguel A. Abellanas, James Rhodes, Victoria Goodwin, Jennie Moritz, Sangeetha Vadivelu, Leran Wang, Rachel Rodgers, Sophia Xiao, Ilakkia Anabayan, Camryn Payne, Alexandra M. Perry, Megan T. Baldridge, Maria S. Aymerich, Ashley Steed, Stuart H. Friess
Format: Article
Language:English
Published: BMC 2021-03-01
Series:Acta Neuropathologica Communications
Subjects:
Traumatic brain injury
Gut microbial dysbiosis
Antibiotics
Fear conditioning
Microglia
Monocytes
Online Access:https://doi.org/10.1186/s40478-021-01137-2
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spelling doaj-136289f95ab64d978060c241802a45722021-03-11T12:08:50ZengBMCActa Neuropathologica Communications2051-59602021-03-019112210.1186/s40478-021-01137-2Gut microbial dysbiosis after traumatic brain injury modulates the immune response and impairs neurogenesisMarta Celorrio0Miguel A. Abellanas1James Rhodes2Victoria Goodwin3Jennie Moritz4Sangeetha Vadivelu5Leran Wang6Rachel Rodgers7Sophia Xiao8Ilakkia Anabayan9Camryn Payne10Alexandra M. Perry11Megan T. Baldridge12Maria S. Aymerich13Ashley Steed14Stuart H. Friess15Division of Critical Care Medicine, Department of Pediatrics, Washington University in St. Louis School of MedicineDivision of Critical Care Medicine, Department of Pediatrics, Washington University in St. Louis School of MedicineDivision of Critical Care Medicine, Department of Pediatrics, Washington University in St. Louis School of MedicineDivision of Critical Care Medicine, Department of Pediatrics, Washington University in St. Louis School of MedicineDivision of Critical Care Medicine, Department of Pediatrics, Washington University in St. Louis School of MedicineDivision of Critical Care Medicine, Department of Pediatrics, Washington University in St. Louis School of MedicineDivision of Infectious Diseases, Department of Medicine, Washington University in St. Louis School of MedicineDivision of Infectious Diseases, Department of Medicine, Washington University in St. Louis School of MedicineDivision of Critical Care Medicine, Department of Pediatrics, Washington University in St. Louis School of MedicineDivision of Critical Care Medicine, Department of Pediatrics, Washington University in St. Louis School of MedicineDivision of Critical Care Medicine, Department of Pediatrics, Washington University in St. Louis School of MedicineDivision of Critical Care Medicine, Department of Pediatrics, Washington University in St. Louis School of MedicineDivision of Infectious Diseases, Department of Medicine, Washington University in St. Louis School of MedicineDepartamento de Bioquímica Y Genética, Facultad de Ciencias, Universidad de NavarraDivision of Critical Care Medicine, Department of Pediatrics, Washington University in St. Louis School of MedicineDivision of Critical Care Medicine, Department of Pediatrics, Washington University in St. Louis School of MedicineAbstract The influence of the gut microbiota on traumatic brain injury (TBI) is presently unknown. This knowledge gap is of paramount clinical significance as TBI patients are highly susceptible to alterations in the gut microbiota by antibiotic exposure. Antibiotic-induced gut microbial dysbiosis established prior to TBI significantly worsened neuronal loss and reduced microglia activation in the injured hippocampus with concomitant changes in fear memory response. Importantly, antibiotic exposure for 1 week after TBI reduced cortical infiltration of Ly6Chigh monocytes, increased microglial pro-inflammatory markers, and decreased T lymphocyte infiltration, which persisted through 1 month post-injury. Moreover, microbial dysbiosis was associated with reduced neurogenesis in the dentate gyrus 1 week after TBI. By 3 months after injury (11 weeks after discontinuation of the antibiotics), we observed increased microglial proliferation, increased hippocampal neuronal loss, and modulation of fear memory response. These data demonstrate that antibiotic-induced gut microbial dysbiosis after TBI impacts neuroinflammation, neurogenesis, and fear memory and implicate gut microbial modulation as a potential therapeutic intervention for TBI.https://doi.org/10.1186/s40478-021-01137-2Traumatic brain injuryGut microbial dysbiosisAntibioticsFear conditioningMicrogliaMonocytes
collection DOAJ
language English
format Article
sources DOAJ
author Marta Celorrio
Miguel A. Abellanas
James Rhodes
Victoria Goodwin
Jennie Moritz
Sangeetha Vadivelu
Leran Wang
Rachel Rodgers
Sophia Xiao
Ilakkia Anabayan
Camryn Payne
Alexandra M. Perry
Megan T. Baldridge
Maria S. Aymerich
Ashley Steed
Stuart H. Friess
spellingShingle Marta Celorrio
Miguel A. Abellanas
James Rhodes
Victoria Goodwin
Jennie Moritz
Sangeetha Vadivelu
Leran Wang
Rachel Rodgers
Sophia Xiao
Ilakkia Anabayan
Camryn Payne
Alexandra M. Perry
Megan T. Baldridge
Maria S. Aymerich
Ashley Steed
Stuart H. Friess
Gut microbial dysbiosis after traumatic brain injury modulates the immune response and impairs neurogenesis
Acta Neuropathologica Communications
Traumatic brain injury
Gut microbial dysbiosis
Antibiotics
Fear conditioning
Microglia
Monocytes
author_facet Marta Celorrio
Miguel A. Abellanas
James Rhodes
Victoria Goodwin
Jennie Moritz
Sangeetha Vadivelu
Leran Wang
Rachel Rodgers
Sophia Xiao
Ilakkia Anabayan
Camryn Payne
Alexandra M. Perry
Megan T. Baldridge
Maria S. Aymerich
Ashley Steed
Stuart H. Friess
author_sort Marta Celorrio
title Gut microbial dysbiosis after traumatic brain injury modulates the immune response and impairs neurogenesis
title_short Gut microbial dysbiosis after traumatic brain injury modulates the immune response and impairs neurogenesis
title_full Gut microbial dysbiosis after traumatic brain injury modulates the immune response and impairs neurogenesis
title_fullStr Gut microbial dysbiosis after traumatic brain injury modulates the immune response and impairs neurogenesis
title_full_unstemmed Gut microbial dysbiosis after traumatic brain injury modulates the immune response and impairs neurogenesis
title_sort gut microbial dysbiosis after traumatic brain injury modulates the immune response and impairs neurogenesis
publisher BMC
series Acta Neuropathologica Communications
issn 2051-5960
publishDate 2021-03-01
description Abstract The influence of the gut microbiota on traumatic brain injury (TBI) is presently unknown. This knowledge gap is of paramount clinical significance as TBI patients are highly susceptible to alterations in the gut microbiota by antibiotic exposure. Antibiotic-induced gut microbial dysbiosis established prior to TBI significantly worsened neuronal loss and reduced microglia activation in the injured hippocampus with concomitant changes in fear memory response. Importantly, antibiotic exposure for 1 week after TBI reduced cortical infiltration of Ly6Chigh monocytes, increased microglial pro-inflammatory markers, and decreased T lymphocyte infiltration, which persisted through 1 month post-injury. Moreover, microbial dysbiosis was associated with reduced neurogenesis in the dentate gyrus 1 week after TBI. By 3 months after injury (11 weeks after discontinuation of the antibiotics), we observed increased microglial proliferation, increased hippocampal neuronal loss, and modulation of fear memory response. These data demonstrate that antibiotic-induced gut microbial dysbiosis after TBI impacts neuroinflammation, neurogenesis, and fear memory and implicate gut microbial modulation as a potential therapeutic intervention for TBI.
topic Traumatic brain injury
Gut microbial dysbiosis
Antibiotics
Fear conditioning
Microglia
Monocytes
url https://doi.org/10.1186/s40478-021-01137-2
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