Modulation of the gut microbiota by metformin improves metabolic profiles in aged obese mice

Lee, Heetae; Lee, Young‐Joo; Kim, Jiyeon; An, Jinho; Lee, Sung-Won; Kong, Hyunseok; Song, Youngcheon; Lee, Chong-Kil; Kim, Kyungjae

doi:10.1080/19490976.2017.1405209

Cited by 151 publications

(147 citation statements)

References 52 publications

(76 reference statements)

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“…A high level of IVIVC at the phylum level, especially for day 14 samples, was indicated with Pearson's correlation of r = 0.93 ± 0.02 ( Figure 3B). Furthermore, at the genus level, we observed a consistent increase in the genera Akkermansia, Bacteroides and Parabacteroides ( Figure 3C) under both in vitro and in vivo conditions, the in vivo change was agreement with the previously reported studies 5,41,42 . At the species level, three separate groups of PLS-DA analyses were performed by comparing untreated microbiome versus microbiome following in vivo 14-and 28-day and in vitro 24 hr metformin treatment, respectively.…”

Section: Evaluation Of In Vitro-in Vivo Correlation Of Microbial Respsupporting

confidence: 92%

“…Metformin is a widely prescribed drug for treating type 2 diabetes and it has been reported that in human 30% of the oral dose can be recovered in ers he for in feces 40 . Several studies have focused on the effect of metformin on gut microbiota composition and functions 5,6,41 . For these reasons, we employed metformin to validate our MiPro model against in vivo studies by investigating the impact of metformin exposure on gut microbial communities in mice and in our model.…”

Section: Evaluation Of In Vitro-in Vivo Correlation Of Microbial Respmentioning

confidence: 99%

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An in vitro model maintaining taxon-specific functional activities of the gut microbiome

Abou-Samra

Ning

et al. 2019

Preprint

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The gut microbiome is a new target for therapeutics. In vitro high-throughput culture models could provide time-and-cost saving solutions to discover microbiome responses to drugs. Unfortunately, there has been no report of in vitro models capable of maintaining functional and compositional profiles resembling the in vivo gut microbiome. Here, we developed and validated a high-throughput culturing model named Mipro to maintain individuals' microbiomes. The Mipro model quintupled viable bacteria count while maintained the functional and compositional profiles of individuals' gut microbiomes.Comparison of taxon-specific functions between pre -and-post culture microbiomes showed Pearson's correlation coefficient r of 0.83 ± 0.03. Moreover, the Mipro model also exhibited a high degree of in vitro -in vivo correlation (Pearson's r of 0.68 ± 0.09) in microbial responses to metformin in mice fed a high-fat diet. Mipro provides a highly simulated gut microbiome for high-throughput investigation of drug-microbiome interactions.

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Section: Evaluation Of In Vitro-in Vivo Correlation Of Microbial Respsupporting

confidence: 92%

Section: Evaluation Of In Vitro-in Vivo Correlation Of Microbial Respmentioning

confidence: 99%

An in vitro model maintaining taxon-specific functional activities of the gut microbiome

Abou-Samra

Ning

et al. 2019

Preprint

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“…is colonised by a unique microbial community, including species such as Bacteroides fragilis and Akkermansia muciniphila 11,12 . The importance of A. muciniphila is only starting to emerge in connection with several diseases: it is most beneficial to the host, although an excess has been linked to pathologies such as multiple sclerosis 13 and Parkinson's disease 14 .…”

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confidence: 99%

Compositional and functional differences of the mucosal microbiota along the intestine of healthy individuals

Vaga

Lee

et al. 2019

Preprint

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Gut mucosal microbes evolved closest to the host, developing specialized local communities. There is, however, insufficient knowledge of these communities as most studies have employed sequencing technologies to investigate faecal microbiota. This work used shotgun metagenomics of mucosal biopsies to explore the microbial communities compositions of terminal ileum and large intestine in 5 healthy individuals. Functional annotations and genome-scale metabolic modelling of selected species were then employed to identify local functional enrichments. While faecal metagenomics provided a good approximation of the average gut microbiome composition, mucosal biopsies allowed detecting the subtle variations of local microbial communities. Given their significant enrichment in the mucosal microbiota, we highlight the roles of Bacteroides species and describe the antimicrobial resistance biogeography along the intestine. We also detail which species, at which locations, are involved with the tryptophan/indole pathway, whose malfunctioning has been linked to pathologies including inflammatory bowel disease. Our study thus provides invaluable resources for investigating mechanisms connecting gut microbiota and host pathophysiology.

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“…Additionally, members of the Lachnospiraceae and Erysipelotrichaceae families have previously been suggested to be associated with microbe TMA generation and development of atherosclerosis (Qiu, Tao, Xiong, Yu, & Wei, 2018). These species have been suggested as playing a role in inhibiting obesity as well as improving intestinal barrier function, possibly through interaction with host intestinal epithelial cells via mucoprotein(Berry et al, 2012;Depommier et al, 2019;Lee et al, 2018).The differences in the gut microbial species from different experimental groups were further defined using LEfSe analysis (Figure 4). The composition of the gut microbiota at the phylum and genus levels induced by the experimental diets is shown in Figure 3.…”

mentioning

confidence: 99%

“…without AMPK inhibition). These species have been suggested as playing a role in inhibiting obesity as well as improving intestinal barrier function, possibly through interaction with host intestinal epithelial cells via mucoprotein(Berry et al, 2012;Depommier et al, 2019;Lee et al, 2018).The differences in the gut microbial species from different experimental groups were further defined using LEfSe analysis (Figure 4). Species from Firmicutes phylum, Dubosiella, Chlamydia, Enterorhabdus, and Clostridium were identified to be significantly enriched in the mice fed with a red meat diet, potentially indicating a relatively unhealthy gut environment as these species have been associated with dysbiosis or pathogenicity (Kociolek & Gerding, 2016; Leclercq et al, 2017; Zhang et al, 2018).…”

mentioning

confidence: 99%

Potential correlation between carbohydrate‐active enzyme family 48 expressed by gut microbiota and the expression of intestinal epithelial AMP‐activated protein kinase β

Zhang

et al. 2019

J Food Biochem

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The expression of the carbohydrate‐active enzyme family and related genes is known to be influenced by the response of intestinal microbiota to dietary changes. However, it is uncertain whether this is caused by variation in the intestinal microecology. In this study, metabolite analysis, 16S rDNA sequencing, metagenomics, and Western blotting were employed to investigate the effects of dietary intervention on the composition of gut microbiota and microbiota‐mediated changes. The results showed that compared with the low fiber‐fed group, the fiber diet‐fed mice displayed a shift in gut microbiota composition to contain more members of phylum Bacteroidetes, accompanied by higher proportions of Akkermansia and typical probiotic Bifidobacterium. Moreover, correlations were found between microbial genes coding for carbohydrate‐binding module family 48 (CBM48) and intestinal epithelial expression levels of AMPK β. This finding provides new insight for elucidating the contribution of dietary intervention through AMPK regulation linked to the microbial carbohydrate‐binding family. Practical applications The relationship suggested by these data will provide theoretical and applied foundations for the development of potential intervention targeting the interaction between gut microbiota and host health, particularly the use of dietary fiber as a medically relevant food. Additionally, a better understanding of the interactions between gut microbiota and intestinal epithelial will inform the development of gut microbiota intervention as a health‐promoting procedure.

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Modulation of the gut microbiota by metformin improves metabolic profiles in aged obese mice

Cited by 151 publications

References 52 publications

An in vitro model maintaining taxon-specific functional activities of the gut microbiome

An in vitro model maintaining taxon-specific functional activities of the gut microbiome

Compositional and functional differences of the mucosal microbiota along the intestine of healthy individuals

Potential correlation between carbohydrate‐active enzyme family 48 expressed by gut microbiota and the expression of intestinal epithelial AMP‐activated protein kinase β

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