Obesity Reshapes the Microbial Population Structure along the Gut-Liver-Lung Axis in Mice

The microbiome is emerging as a major player in tissue homeostasis in health and disease. Gut microbiome dysbiosis correlates with several autoimmune and metabolic diseases, while high-fat diets and ensuing obesity are known to affect the complexity and diversity of the microbiome, thus modulating p...

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Published in:Biomedicines 2022-02, Vol.10 (2), p.494
Main Authors: Galaris, Apostolos, Fanidis, Dionysios, Stylianaki, Elli-Anna, Harokopos, Vaggelis, Kalantzi, Alexandra-Styliani, Moulos, Panagiotis, Dimas, Antigone S, Hatzis, Pantelis, Aidinis, Vassilis
Format: Article
Language:English
Subjects:
16S rRNA
Animals
Chronic obstructive pulmonary disease
Diet
Dysbacteriosis
gut
High fat diet
Homeostasis
Intestinal microflora
Liver
Lungs
Metabolic disorders
Metabolism
Metabolites
microbiome
Microbiomes
Obesity
Population structure
rRNA 16S
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creator Galaris, Apostolos
Fanidis, Dionysios
Stylianaki, Elli-Anna
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Moulos, Panagiotis
Dimas, Antigone S
Hatzis, Pantelis
Aidinis, Vassilis
description The microbiome is emerging as a major player in tissue homeostasis in health and disease. Gut microbiome dysbiosis correlates with several autoimmune and metabolic diseases, while high-fat diets and ensuing obesity are known to affect the complexity and diversity of the microbiome, thus modulating pathophysiology. Moreover, the existence of a gut-liver microbial axis has been proposed, which may extend to the lung. In this context, we systematically compared the microbiomes of the gut, liver, and lung of mice fed a high-fat diet to those of littermates fed a matched control diet. We carried out deep sequencing of seven hypervariable regions of the 16S rRNA microbial gene to examine microbial diversity in the tissues of interest. Comparison of the local microbiomes indicated that lung tissue has the least diverse microbiome under healthy conditions, while microbial diversity in the healthy liver clustered closer to the gut. Obesity increased microbial complexity in all three tissues, with lung microbial diversity being the most modified. Obesity promoted the expansion of Firmicutes along the gut-liver-lung axis, highlighting staphylococcus as a possible pathologic link between obesity and systemic pathophysiology, especially in the lungs.
doi_str_mv 10.3390/biomedicines10020494
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subjects 16S rRNA
Animals
Chronic obstructive pulmonary disease
Diet
Dysbacteriosis
gut
High fat diet
Homeostasis
Intestinal microflora
Liver
Lungs
Metabolic disorders
Metabolism
Metabolites
microbiome
Microbiomes
Obesity
Population structure
rRNA 16S
title Obesity Reshapes the Microbial Population Structure along the Gut-Liver-Lung Axis in Mice
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