Frontiers in Neuroscience (Jul 2024)

Microbiome-gut-brain axis contributes to patients and Bama miniature pigs with acute large ischemic stroke

  • Dazhi Deng,
  • Dazhi Deng,
  • Hehua Lei,
  • Hehua Lei,
  • Zheng Cao,
  • Zheng Cao,
  • Cui Zhang,
  • Cui Zhang,
  • Ruichen Du,
  • Ruichen Du,
  • Xin Gao,
  • Xin Gao,
  • Junjie Wei,
  • Yibo Lu,
  • Xiangzhen Zhou,
  • Limin Zhang,
  • Limin Zhang,
  • Limin Zhang

DOI
https://doi.org/10.3389/fnins.2024.1378844
Journal volume & issue
Vol. 18

Abstract

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Acute large hemispheric infarction (ALHI) is an overwhelming emergency with a great challenge of gastrointestinal dysfunction clinically. Here, we initially proposed delayed bowel movements as the clinical phenotype of strike to gut-brain axis (GBA) in ALHI patients by epidemiological analysis of 499 acute ischemic stroke (AIS) patients. 1H NMR-based metabolomics revealed that AIS markedly altered plasma global metabolic profiling of patients compared with healthy controls. Risk factors of strike on GBA were the National Institutes of Health Stroke Scale (NIHSS) score ≥ 5 and stroke onset time ≤ 24 h. As a result, first defecating time after admission to the hospital ≥2 days could be considered as a potential risk factor for strike on GBA. Subsequently, the ALHI Bama miniature (BM) pig model with acute symptomatic seizure was successfully established by ligation of the left ascending pharyngeal artery combined with local air injection. Clinical phenotypes of brain necrosis such as hemiplegia were examined with brain diffusion-weighted imaging (DWI) and pathological diagnosis. In addition to global brain injury and inflammation, we also found that ALHI induced marked alterations of intestinal barrier integrity, the gut microbial community, and microbiota-derived metabolites including serotonin and neurotransmitters in both plasma and multiple brain tissues of BM pigs. These findings revealed that microbiota-gut-brain axis highly contributed to the occurrence and development of ALHI.

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