Diet Is a Stronger Covariate than Exercise in Determining Gut Microbial Richness and Diversity

Yun, Eon-Joo; Imdad, Saba; Jang, Ji-Young; So, Byunghun; Kim, Jinhee; Kang, Chounghun

doi:10.3390/nu14122507

Cited by 16 publications

(17 citation statements)

References 61 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…By changing the amount or composition of lipids entering the colon, the altered digestion and absorption of fat caused by ingested PE-I could also impact the gut microbiome. A high fat diet has been shown to rapidly and reversibly alter the gut microbiota in mice , and is frequently used to induce obesity, typically accompanied by gut dysbiosis, in experimental animals. − As summarized in recent reviews, although interventional changes in dietary fat have not been found to consistently alter the gut microbiome composition in humans, several observational studies have reported an inverse correlation between fat intake and gut microbiota diversity in humans. ,, Moreover, gut dysbiosis has been implicated in neuro-psychiatric disorders that often accompany obesity, which are thought to be mediated by the activity of the gut microbiota through the “microbiota-gut-brain axis”, recently reviewed by Cryan et al and Morais et al Reduced lipid delivery to the colon due to increased absorption in the presence of PE-I might therefore improve the diversity of the gut microbiome and thereby ameliorate these disorders.…”

Section: Discussionmentioning

confidence: 99%

Incineration-Generated Polyethylene Micro-Nanoplastics Increase Triglyceride Lipolysis and Absorption in an In Vitro Small Intestinal Epithelium Model

DeLoid

Cao

Coreas

et al. 2022

Environ. Sci. Technol.

View full text Add to dashboard Cite

Despite mounting evidence of micro-nanoplastics (MNPs) in food and drinking water, little is known of the potential health risks of ingested MNPs, and nothing is known of their potential impact on nutrient digestion and absorption. We assessed the effects of environmentally relevant secondary MNPs generated by incineration of polyethylene (PE-I), on digestion and absorption of fat in a high fat food model using a 3-phase in vitro simulated digestion coupled with a tri-culture small intestinal epithelium model. The presence of 400 μg/mL PE-I increased fat digestion by 33% and increased fat absorption by 147 and 145% 1 and 2 h after exposure. Analysis of the PE-I lipid corona during digestion revealed predominantly triacylglycerols with enrichment of fatty acids in the small intestinal phase. Protein corona analysis showed enrichment of triacylglycerol lipase and depletion of β-casein in the small intestinal phase. These findings suggest digestion of triacylglycerol by lipase on the surface of lipid-coated MNPs as a potential mechanism. Further studies are needed to investigate the mechanisms underlying the greater observed increase in fat absorption, to verify these results in an animal model, and to determine the MNP properties governing their effects on lipid digestion and absorption.

show abstract

Section: Discussionmentioning

confidence: 99%

Incineration-Generated Polyethylene Micro-Nanoplastics Increase Triglyceride Lipolysis and Absorption in an In Vitro Small Intestinal Epithelium Model

DeLoid

Cao

Coreas

et al. 2022

Environ. Sci. Technol.

View full text Add to dashboard Cite

show abstract

“…One of these was Butyricimonas , which belongs to the Bacteroidetes phylum and was more abundant in the group with poorer HEIs. This genus has been positively associated with the adoption of a high-fat diet [158], but also with normal BMIs in another study [159]. Moreover, the B. virosa species has previously been stated to have a beneficial effect on obesity and T2D by promoting SCFA production [160] and thus the secretion of the glucagon-like peptide-1 (GLP-1) [161], an incretin that activates glucose-dependent insulin secretion and inhibits glucagon release [162].…”

Section: Discussionmentioning

confidence: 99%

Uncovering the link between gut microbiome, highly processed food consumption and diet quality through bioinformatics methods

Molina

Lacruz-Pleguezuelos

Pau

et al. 2023

Preprint

View full text Add to dashboard Cite

The consumption of highly processed foods, along with other dietary and lifestyle poor habits, has an impact on health by increasing the risk of several non-communicable pathologies, such as diabetes. Gut microbiome composition, in specific, can be modulated by nutrients, deriving in different metabolic outcomes that have an influence on this high disease susceptibility and making it a possible therapeutic target for these comorbidities. In this work, gut microbiome of 60 and 46 individuals from 2 different studies focused, among other aspects, on diet-microbiome interactions, was characterised. By means of differential abundance analyses and supervised machine learning techniques based on random forest, gradient boosting and support vector machines, a set of microbial genera that could be potential biomarkers for the differentiation of individuals with poorer dietary patterns was discovered, after comparing coincidences in these taxa among classifiers and testing them for significant differences. Among these, Dialister, Phocea and Pseudoflavonifractor were suggested to have a role in the way highly processed foods affect health negatively, along with Prevotellaceae NK3B31 group and an undetermined genus from Muribaculaceae in the opposite sense. Furthermore, all the identified genera in this study had already been linked to type 2 diabetes, among which Bacteroides and Pseudoflavonifractor proved to be differentially abundant in groups of individuals with different levels of biomarkers for this disease. Nevertheless, further research via longitudinal studies and experimental validation of these genera should be carried out to confirm the association of these taxa with diet and diabetes.

show abstract

“…There were many changes in taxa identified, including higher Proteobacteria with high-fat feeding. The increase in diversity was suggested to be consistent with an induction of bacteria that metabolize carbohydrates, perhaps as a compensatory mechanism [37 ▪ ].…”

Section: Dietary Patterns and Diet Components Associated With A Benef...mentioning

confidence: 93%

“…In one study that evaluated high fat diets and exercise in mice using a 2 × 2 study design, the effects of diet on the intestinal microbiota were found to be much more profound than that of exercise [37 ▪ ]. The two groups of mice fed the high fat diet had lower Bacteroidetes to Firmicutes ratios and gut microbial richness than the mice fed the chow diet, regardless of whether or not the mice were exercised on a treadmill [37 ▪ ]. However, mice in the two high-fat diet groups had higher diversity (Shannon) and evenness.…”

Section: Dietary Patterns and Diet Components Associated With A Benef...mentioning

confidence: 99%

Dietary approaches for normalizing dysbiosis induced by high-fat, obesogenic diets

Djurić¹

2023

Current Opinion in Clinical Nutrition &Amp; Metabolic Care

View full text Add to dashboard Cite

Purpose of reviewGiven the world-wide problem of obesity, this review considers what types of dietary changes can be utilized to minimize the adverse effects of an obesogenic diet on the intestinal microbiota.Recent findingsIn rodents fed high-fat diets containing lard or Western blend fats to induce obesity, switching to high-fat diets formulated to contain higher amounts of fiber or fiber-containing foods, plant extracts, omega-3 fatty acids or whole grains has beneficial effects on body weight, metabolic alterations, and the intestinal microbiota. Several studies show that the intestinal microbiota has a role in mediating the beneficial health effects of these dietary factors. Many aspects of the microbiota observed in animals when healthful dietary components were added to the feed have also been observed in humans who follow healthful dietary patterns.SummaryThe data shows that specific foods and macronutrients can normalize the obesity-associated microbiota and improve metabolic health. These findings support the design of dietary interventions that would allow individuals to focus on diet quality independently of weight loss to mitigate the adverse sequelae of obesity.

show abstract

Diet Is a Stronger Covariate than Exercise in Determining Gut Microbial Richness and Diversity

Cited by 16 publications

References 61 publications

Incineration-Generated Polyethylene Micro-Nanoplastics Increase Triglyceride Lipolysis and Absorption in an In Vitro Small Intestinal Epithelium Model

Incineration-Generated Polyethylene Micro-Nanoplastics Increase Triglyceride Lipolysis and Absorption in an In Vitro Small Intestinal Epithelium Model

Uncovering the link between gut microbiome, highly processed food consumption and diet quality through bioinformatics methods

Dietary approaches for normalizing dysbiosis induced by high-fat, obesogenic diets

Contact Info

Product

Resources

About