Frontiers in Neuroscience (Dec 2020)

Dynamic Changes in the Gut Microbiome at the Acute Stage of Ischemic Stroke in a Pig Model

  • Julie Jeon,
  • Jeferson Lourenco,
  • Erin E. Kaiser,
  • Erin E. Kaiser,
  • Erin E. Kaiser,
  • Elizabeth S. Waters,
  • Elizabeth S. Waters,
  • Elizabeth S. Waters,
  • Kelly M. Scheulin,
  • Kelly M. Scheulin,
  • Kelly M. Scheulin,
  • Xi Fang,
  • Holly A. Kinder,
  • Holly A. Kinder,
  • Holly A. Kinder,
  • Simon R. Platt,
  • Simon R. Platt,
  • Michael J. Rothrock,
  • Todd R. Callaway,
  • Franklin D. West,
  • Franklin D. West,
  • Franklin D. West,
  • Hea Jin Park

DOI
https://doi.org/10.3389/fnins.2020.587986
Journal volume & issue
Vol. 14

Abstract

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Stroke is a major cause of death and long-term disability affecting seven million adults in the United States each year. Recently, it has been demonstrated that neurological diseases, associated pathology, and susceptibility changes correlated with changes in the gut microbiota. However, changes in the microbial community in stroke has not been well characterized. The acute stage of stroke is a critical period for assessing injury severity, therapeutic intervention, and clinical prognosis. We investigated the changes in the gut microbiota composition and diversity using a middle cerebral artery (MCA) occlusion ischemic stroke pig model. Ischemic stroke was induced by cauterization of the MCA in pigs. Blood samples were collected prestroke and 4 h, 12 h, 1 day, and 5 days poststroke to evaluate circulating proinflammatory cytokines. Fecal samples were collected prestroke and 1, 3, and 5 days poststroke to assess gut microbiome changes. Results showed elevated systemic inflammation with increased plasma levels of tumor necrosis factor alpha at 4 h and interleukin-6 at 12 h poststroke, relative to prestroke. Microbial diversity and evenness were reduced at 1 day poststroke compared to prestroke. Microbial diversity at 3 days poststroke was negatively correlated with lesion volume. Moreover, beta-diversity analysis revealed trending overall differences over time, with the most significant changes in microbial patterns observed between prestroke and 3 days poststroke. Abundance of the Proteobacteria was significantly increased, while Firmicutes decreased at 3 days poststroke, compared to prestroke populations. Abundance of the lactic acid bacteria Lactobacillus was reduced at 3 days poststroke. By day 5, the microbial pattern returned to similar values as prestroke, suggesting the plasticity of gut microbiome in an acute period of stroke in a pig model. These findings provide a basis for characterizing gut microbial changes during the acute stage of stroke, which can be used to assess stroke pathology and the potential development of therapeutic targets.

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