Literature DB >> 31150625

Human Gut Microbiota from Autism Spectrum Disorder Promote Behavioral Symptoms in Mice.

Gil Sharon1, Nikki Jamie Cruz2, Dae-Wook Kang3, Michael J Gandal4, Bo Wang2, Young-Mo Kim5, Erika M Zink5, Cameron P Casey5, Bryn C Taylor6, Christianne J Lane7, Lisa M Bramer8, Nancy G Isern5, David W Hoyt5, Cecilia Noecker9, Michael J Sweredoski2, Annie Moradian2, Elhanan Borenstein10, Janet K Jansson5, Rob Knight11, Thomas O Metz5, Carlos Lois2, Daniel H Geschwind12, Rosa Krajmalnik-Brown13, Sarkis K Mazmanian14.   

Abstract

Autism spectrum disorder (ASD) manifests as alterations in complex human behaviors including social communication and stereotypies. In addition to genetic risks, the gut microbiome differs between typically developing (TD) and ASD individuals, though it remains unclear whether the microbiome contributes to symptoms. We transplanted gut microbiota from human donors with ASD or TD controls into germ-free mice and reveal that colonization with ASD microbiota is sufficient to induce hallmark autistic behaviors. The brains of mice colonized with ASD microbiota display alternative splicing of ASD-relevant genes. Microbiome and metabolome profiles of mice harboring human microbiota predict that specific bacterial taxa and their metabolites modulate ASD behaviors. Indeed, treatment of an ASD mouse model with candidate microbial metabolites improves behavioral abnormalities and modulates neuronal excitability in the brain. We propose that the gut microbiota regulates behaviors in mice via production of neuroactive metabolites, suggesting that gut-brain connections contribute to the pathophysiology of ASD.
Copyright © 2019 Elsevier Inc. All rights reserved.

Entities:  

Keywords:  autism; autism spectrum disorder; bacterial metabolites; gut microbiome; gut-brain axis; metabolome; microbiota; mouse model

Mesh:

Year:  2019        PMID: 31150625      PMCID: PMC6993574          DOI: 10.1016/j.cell.2019.05.004

Source DB:  PubMed          Journal:  Cell        ISSN: 0092-8674            Impact factor:   66.850


  173 in total

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2.  Altered gut microbiota and activity in a murine model of autism spectrum disorders.

Authors:  Caroline G M de Theije; Harm Wopereis; Mohamed Ramadan; Tiemen van Eijndthoven; Jolanda Lambert; Jan Knol; Johan Garssen; Aletta D Kraneveld; Raish Oozeer
Journal:  Brain Behav Immun       Date:  2013-12-11       Impact factor: 7.217

3.  Alternative splicing of exon 14 determines nuclear or cytoplasmic localisation of fmr1 protein isoforms.

Authors:  A Sittler; D Devys; C Weber; J L Mandel
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4.  Genome-wide de novo risk score implicates promoter variation in autism spectrum disorder.

Authors:  Joon-Yong An; Kevin Lin; Lingxue Zhu; Donna M Werling; Shan Dong; Harrison Brand; Harold Z Wang; Xuefang Zhao; Grace B Schwartz; Ryan L Collins; Benjamin B Currall; Claudia Dastmalchi; Jeanselle Dea; Clif Duhn; Michael C Gilson; Lambertus Klei; Lindsay Liang; Eirene Markenscoff-Papadimitriou; Sirisha Pochareddy; Nadav Ahituv; Joseph D Buxbaum; Hilary Coon; Mark J Daly; Young Shin Kim; Gabor T Marth; Benjamin M Neale; Aaron R Quinlan; John L Rubenstein; Nenad Sestan; Matthew W State; A Jeremy Willsey; Michael E Talkowski; Bernie Devlin; Kathryn Roeder; Stephan J Sanders
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5.  Altered gut microbial profile is associated with abnormal metabolism activity of Autism Spectrum Disorder.

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