Characteristics of the gut microbiota of patients with symptomatic carotid atherosclerotic plaques positive for bacterial genetic material

Lv, Hang; Zhang, Zhiyuan; Fu, Bo; Li, Zhongchen; Yin, Tengkun; Liu, Chao; Xu, Bin; Wang, Dawei; Li, Baojie; Hao, Jiheng; Zhang, Liyong; Wang, Jiyue

doi:10.3389/fcimb.2023.1296554

Front. Cell. Infect. Microbiol.

2024

DOI: 10.3389/fcimb.2023.1296554

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Characteristics of the gut microbiota of patients with symptomatic carotid atherosclerotic plaques positive for bacterial genetic material

Hang Lv,

Zhiyuan Zhang,

Bo Fu

et al.

Abstract: BackgroundThe gut microbiota (GM) is believed to be closely associated with symptomatic carotid atherosclerosis (SCAS), yet more evidence is needed to substantiate the significant role of GM in SCAS. This study, based on the detection of bacterial DNA in carotid plaques, explores the characteristics of GM in SCAS patients with plaque bacterial genetic material positivity, aiming to provide a reference for subsequent research.MethodsWe enrolled 27 healthy individuals (NHF group) and 23 SCAS patients (PFBS group… Show more

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Cited by 2 publications

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Understanding the Relationship Between Cerebrovascular Disease and the Gut Microbiome

Roth,

Lo,

De Leon

et al. 2024

SVIN

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While traditional vascular risk factors (eg, hypertension, dyslipidemia, tobacco use) account for 20% of the explained variance in carotid atherosclerosis, they remain a prominent focus for primary and secondary ischemic stroke prevention strategies. Among other potential contributors to atheroma formation and cerebrovascular disease, the gut microbiome has become increasingly implicated as a mediator of vascular risk. The foods we eat, coupled with our physiology and exposures (eg, antibiotics, supplements), directly contribute to atherosclerotic disease in complex ways that are mediated by gastrointestinal flora and metabolic by‐products. Proliferation of “pathogenic” gut microbes such as Enterobacteriaceae and Streptococcus spp, decrement of “commensal” species such as Akkermansia spp and the biodiversity of gut flora are directly related to an individual's dietary intake and exposure history. Each of these components of the gut microbiome correlate with the development or progression of many conditions including atherosclerosis. Moreover, the metabolism of certain substrates found in animal products (notably l ‐carnitine and choline) and of refined sugars by these microorganisms leads to buildup of circulating metabolites with known links to atherogenesis, platelet activation, atrial fibrillation, and other adverse vascular outcomes. Several of these toxic metabolites, including trimethylamine and trimethylamine N‐oxide, have been extensively studied in cardiovascular and cerebrovascular disease. Trimethylamine and trimethylamine N‐oxide represent not only biomarkers of gut dysbiosis and cardiovascular risk, but they are increasingly recognized as therapeutic targets for novel interventions in atherosclerotic vascular disease. The individualized targeting of one's microbiome, and perhaps more generalized targeting of toxic microbial metabolites, has the potential to revolutionize the treatment of vascular disease. In this review, we summarize the latest evidence illustrating the impact of the microbiome on cerebrovascular disease and highlight the potential applications of this information on individualized and global scales.

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Understanding the Relationship Between Cerebrovascular Disease and the Gut Microbiome

Roth,

Lo,

De Leon

et al. 2024

SVIN

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Intestinal Insights: The Gut Microbiome’s Role in Atherosclerotic Disease: A Narrative Review

Alexandrescu,

Suceveanu,

Stanigut

et al. 2024

Microorganisms

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Recent advances have highlighted the gut microbiota as a significant contributor to the development and progression of atherosclerosis, which is an inflammatory cardiovascular disease (CVD) characterized by plaque buildup within arterial walls. The gut microbiota, consisting of a diverse collection of microorganisms, impacts the host’s metabolism, immune responses, and lipid processing, all of which contribute to atherosclerosis. This review explores the complex mechanisms through which gut dysbiosis promotes atherogenesis. We emphasize the potential of integrating microbiota modulation with traditional cardiovascular care, offering a holistic approach to managing atherosclerosis. Important pathways involve the translocation of inflammatory microbial components, modulation of lipid metabolism through metabolites such as trimethylamine-N-oxide (TMAO), and the production of short-chain fatty acids (SCFAs) that influence vascular health. Studies reveal distinct microbial profiles in atherosclerosis patients, with increased pathogenic bacteria (Megamonas, Veillonella, Streptococcus) and reduced anti-inflammatory genera (Bifidobacterium, Roseburia), highlighting the potential of these profiles as biomarkers and therapeutic targets. Probiotics are live microorganisms that have health benefits on the host. Prebiotics are non-digestible dietary fibers that stimulate the growth and activity of beneficial gut bacteria. Interventions targeting microbiota, such as probiotics, prebiotics, dietary modifications, and faecal microbiota transplantation (FMT), present effective approaches for restoring microbial equilibrium and justifying cardiovascular risk. Future research should focus on longitudinal, multi-omics studies to clarify causal links and refine therapeutic applications.

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Characteristics of the gut microbiota of patients with symptomatic carotid atherosclerotic plaques positive for bacterial genetic material

Cited by 2 publications

References 63 publications

Understanding the Relationship Between Cerebrovascular Disease and the Gut Microbiome

Understanding the Relationship Between Cerebrovascular Disease and the Gut Microbiome

Intestinal Insights: The Gut Microbiome’s Role in Atherosclerotic Disease: A Narrative Review

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