The role of intestinal microbiota in cardiovascular disease

Jin, Mengchao; Qian, Zhiyuan; Yin, Jiayu; Xu, Weiting; Zhou, Xiang

doi:10.1111/jcmm.14195

Cited by 157 publications

(100 citation statements)

References 101 publications

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“…Notably, sarcopenia is one of the main conditions involved in the onset of cognitive frailty. Thus, incorporating the Mediterranean diet in the daily habits of patients with cognitive frailty may be a useful strategy for increasing the amount of ω-3 PUFA precursors and, in turn, increasing the availability of anti-inflammatory ω-3 PUFA mediators (e.g., EPA and DHA) (137).…”

Section: Discussionmentioning

confidence: 99%

Crosstalk Between the Gut Microbiome and Bioactive Lipids: Therapeutic Targets in Cognitive Frailty

et al. 2020

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Cognitive frailty is a geriatric condition defined by the coexistence of cognitive impairment and physical frailty. This "composite" aging phenotype is associated with a higher risk of several adverse health-related outcomes, including dementia. In the last decade, cognitive frailty has gained increased attention from the scientific community that has focused on understanding the clinical impact and the physiological and pathological mechanisms of development and on identifying preventive and/or rehabilitative therapeutic interventions. The emergence of gut microbiome in neural signaling increased the interest in targeting the gut-brain axis as a modulation strategy. Multiple studies on gastroenteric, metabolic, and neurodegenerative diseases support the existence of a wide bidirectional communication network of signaling mediators, e.g., bioactive lipids, that can modulate inflammation, gut permeability, microbiota composition, and the gut-brain axis. This crosstalk between the gut-brain axis, microbiome, and bioactive lipids may emerge as the basis of a promising therapeutic strategy to counteract cognitive frailty. In this review, we summarize the evidence in the literature regarding the link between the gut microbiome, brain, and several families of bioactive lipids. In addition, we also explore the applicability of several bioactive lipid members as a potential routes for therapeutic interventions to combat cognitive frailty.

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Section: Discussionmentioning

confidence: 99%

Crosstalk Between the Gut Microbiome and Bioactive Lipids: Therapeutic Targets in Cognitive Frailty

et al. 2020

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“…Non-lethal inhibition of gut bacterial TMA lyases with 3,3-dimethyl-1-butanol prevented atherogenesis in Apoe −/− mice on choline rich diet [10,13]. Furthermore, the microbiome-dependent impact of TMAO on prothrombotic platelet function and arterial thrombosis was demonstrated to be transmissible by fecal transplantation from human donors with low or high TMAO-producing microbiota into GF recipient mice [10,88]. Future clinical studies and experimental research need to address the mechanisms through which TMAO influences CVD and arterial thrombosis.…”

Section: Patterns and Metabolites From The Gut Microbiota As Drivers mentioning

confidence: 95%

“…While choline supplemented diet augmented atherosclerosis and plaque macrophage content in this mouse atherosclerosis study, broad-spectrum antibiotic treatment (0.5 g/L vancomycin, 1 g/L neomycin sulfate, 1 g/L metronidazole, 1 g/L ampicillin) via the drinking water demonstrated that depletion of the microbiota decreased the choline-dependent enhancement of atherosclerotic lesions in male and female Apoe −/− C57BL/6J mice, when kept on a choline-enriched diet at the age of four-weeks until the age of twenty-weeks [16]. Non-lethal inhibition of gut bacterial TMA lyases with 3,3-dimethyl-1-butanol prevented atherogenesis in Apoe −/− mice on choline rich diet [10,13]. Furthermore, the microbiome-dependent impact of TMAO on prothrombotic platelet function and arterial thrombosis was demonstrated to be transmissible by fecal transplantation from human donors with low or high TMAO-producing microbiota into GF recipient mice [10,88].…”

Section: Patterns and Metabolites From The Gut Microbiota As Drivers mentioning

confidence: 99%

“…The gut microbiota influences the development of vascular inflammation and atherosclerosis [7][8][9]. Various mouse models have shown that intestinal microbial communities have a crucial influence on vascular inflammatory phenotypes, the development of cardiovascular diseases (CVD), and arterial thrombosis [10]. While interfering with host energy metabolism [8], the gut microbiota impacts on the development of atherosclerosis, as demonstrated by the association-based sequencing studies on patient samples [8,[11][12][13] and by the depletion of the gut microbiota with antibiotics or by comparing germ-free (GF) with conventionally raised (CONV-R) mouse atherosclerosis models [7,[13][14][15][16].…”

Section: Introductionmentioning

confidence: 99%

“…(A) Pro-atherogenic effects are described for the choline-rich diet and the microbiota-derived choline-metabolite trimethylamine N-oxide (TMAO)[12,13,16]. (B) GF Apoe-deficient mice on a chow-diet developed an increased lesion size compared to CONV-R Apoe-deficient mice and the gut microbiota had a cholesterol-lowering function under chow-diet conditions[9,10,14,15].…”

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confidence: 99%

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The Gut Microbiota in Cardiovascular Disease and Arterial Thrombosis

et al. 2019

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The gut microbiota has emerged as a contributing factor in the development of atherosclerosis and arterial thrombosis. Metabolites from the gut microbiota, such as trimethylamine N-oxide and short chain fatty acids, were identified as messengers that induce cell type-specific signaling mechanisms and immune reactions in the host vasculature, impacting the development of cardiovascular diseases. In addition, microbial-associated molecular patterns drive atherogenesis and the microbiota was recently demonstrated to promote arterial thrombosis through Toll-like receptor signaling. Furthermore, by the use of germ-free mouse models, the presence of a gut microbiota was shown to influence the synthesis of endothelial adhesion molecules. Hence, the gut microbiota is increasingly being recognized as an influencing factor of arterial thrombosis and attempts of dietary pre-or probiotic modulation of the commensal microbiota, to reduce cardiovascular risk, are becoming increasingly significant.

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Prebiotics and Probiotics

Ullah¹,

Daglia²,

Khan³

2022

Handbook of Nutraceuticals and Natural Products

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Scope of the SeriesBiochemistry, the study of chemical transformations occurring within living organisms, impacts all of life sciences, from molecular crystallography and genetics, to ecology, medicine and population biology. Biochemistry studies macromoleculesproteins, nucleic acids, carbohydrates and lipids -their building blocks, structures, functions and interactions. Much of biochemistry is devoted to enzymes, proteins that catalyze chemical reactions, enzyme structures, mechanisms of action and their roles within cells. Biochemistry also studies small signaling molecules, coenzymes, inhibitors, vitamins and hormones, which play roles in the life process. Biochemical experimentation, besides coopting the methods of classical chemistry, e.g., chromatography, adopted new techniques, e.g., X-ray diffraction, electron microscopy, NMR, radioisotopes, and developed sophisticated microbial genetic tools, e.g., auxotroph mutants and their revertants, fermentation etc. More recently, biochemistry embraced the 'big data' omics systems. ContentsPreface XIII Section 1 Human NutritionChapter 1 Probiotics and Prebiotics in Infant Formulae by José Maldonado

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The role of intestinal microbiota in cardiovascular disease

Cited by 157 publications

References 101 publications

Crosstalk Between the Gut Microbiome and Bioactive Lipids: Therapeutic Targets in Cognitive Frailty

Crosstalk Between the Gut Microbiome and Bioactive Lipids: Therapeutic Targets in Cognitive Frailty

The Gut Microbiota in Cardiovascular Disease and Arterial Thrombosis

Prebiotics and Probiotics

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