Duodenal Metatranscriptomics to Define Human and Microbial Functional Alterations Associated with Severe Obesity: A Pilot Study

Granata, Ilaria; Nardelli, Carmela; D’Argenio, Valeria; Tramontano, Salvatore; Compare, Debora; Guarracino, Mario Rosario; Nardone, Gerardo; Pilone, Vincenzo; Sacchetti, Lucia

doi:10.3390/microorganisms8111811

Cited by 18 publications

(19 citation statements)

References 83 publications

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“…Knowing that the metabolic activities of certain microbes could be suppressed by antagonists and so may not be actively involved in a given condition (phenotype), capturing such bacteria due to their sheer presence may give a false positive association. This is supported by studies that have reported that taxonomic abundance does not correspond to transcriptional activities [ 25 , 26 , 27 ]. The library construction, assembly, and reference databases of metagenomics for annotation employ biases that are difficult to understand [ 21 ].…”

Section: Omic Techniques In Gut Microbiome Studiessupporting

confidence: 68%

“…For this reason, analyzing the mRNA produced by a microbe at a given time would be a better way to predict the metabolic activities and potential function(s) of the organism rather than making predictions based on its mere presence. Using metatranscriptomics, Granata et al [ 25 ] showed that carbohydrate, amino acid, and nucleotide metabolism are severely impaired in the duodenal microbiota of obese patients when compared to non-obese patients. Though the analytical technique is biased towards organisms with higher transcriptional rates, assigning mRNA reads to taxa could unveil critical functions contributed by keystone taxa.…”

Section: Omic Techniques In Gut Microbiome Studiesmentioning

confidence: 99%

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Challenges and Perspective in Integrated Multi-Omics in Gut Microbiota Studies

et al. 2021

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The advent of omic technology has made it possible to identify viable but unculturable micro-organisms in the gut. Therefore, application of multi-omic technologies in gut microbiome studies has become invaluable for unveiling a comprehensive interaction between these commensals in health and disease. Meanwhile, despite the successful identification of many microbial and host–microbial cometabolites that have been reported so far, it remains difficult to clearly identify the origin and function of some proteins and metabolites that are detected in gut samples. However, the application of single omic techniques for studying the gut microbiome comes with its own challenges which may be overcome if a number of different omics techniques are combined. In this review, we discuss our current knowledge about multi-omic techniques, their challenges and future perspective in this field of gut microbiome studies.

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Section: Omic Techniques In Gut Microbiome Studiessupporting

confidence: 68%

Section: Omic Techniques In Gut Microbiome Studiesmentioning

confidence: 99%

Challenges and Perspective in Integrated Multi-Omics in Gut Microbiota Studies

et al. 2021

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“…Shotgun sequencing profiles may present information about the potential function(s) of an entire microbial community at the gene level based on databases of microbial genomes with known sequences, yet the information yielded by this method may not accurately represent what is happening in the gut at a given time (Emerson et al, 2017). This is supported by studies of taxonomic abundance that do not correspond to transcriptional activities (Abu-Ali et al, 2018;Jia et al, 2019;Granata et al, 2020). Utilizing this method, distinct meibum microbial communities were identified in patients with meibomian gland dysfunction and in healthy controls, indicating different immune evasive virulence of the meibum microbiota (Zhao et al, 2020).…”

Section: Metagenomicsmentioning

confidence: 99%

“…The same bacterial species has also been reported to fortify gut barrier functions by modulating mucin production in the gut, which may eventually prevent gut mucosal inflammation ( Graziani et al., 2016 ; Luissint et al., 2016 ). Using metatranscriptomics, Granata et al. (2020) showed that carbohydrate, amino acid, and nucleotide metabolism are severely impaired in the duodenal microbiota of obese patients compared to nonobese patients.…”

Section: Influences Of the Gut Microbiome And Analysis Approachesmentioning

confidence: 99%

Microbiota and Ocular Diseases

Xue

Zou

et al. 2021

Front. Cell. Infect. Microbiol.

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Recent advances have identified significant associations between the composition and function of the gut microbiota and various disorders in organ systems other than the digestive tract. Utilizing next-generation sequencing and multiomics approaches, the microbial community that possibly impacts ocular disease has been identified. This review provides an overview of the literature on approaches to microbiota analysis and the roles of commensal microbes in ophthalmic diseases, including autoimmune uveitis, age-related macular degeneration, glaucoma, and other ocular disorders. In addition, this review discusses the hypothesis of the “gut-eye axis” and evaluates the therapeutic potential of targeting commensal microbiota to alleviate ocular inflammation.

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“…Microbes play important roles in obesity. Previously, our group investigated the duodenal metatranscriptome in human obese and lean subjects, highlighting an obese-associated gut dysbiosis and human and bacterial genes both contributing to relevant dysfunctions in important metabolic pathways [ 17 , 18 ]. Regarding CRC alterations until now reported in the gut microbiota community or in single bacterial species in association with the tumor [ 19 ], in presence/absence of various risk factors among which increased adiposity, they have been mostly studied in murine models and/or in human fecal samples, but the human mucosal colon microbiome has still scarcely been investigated [ 20 , 21 , 22 , 23 ].…”

Section: Introductionmentioning

confidence: 99%

16S rRNA of Mucosal Colon Microbiome and CCL2 Circulating Levels Are Potential Biomarkers in Colorectal Cancer

Nardelli

Granata

Nunziato

et al. 2021

IJMS

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Colorectal cancer (CRC) is one of the most common malignancies in the Western world and intestinal dysbiosis might contribute to its pathogenesis. The mucosal colon microbiome and C-C motif chemokine 2 (CCL2) were investigated in 20 healthy controls (HC) and 20 CRC patients using 16S rRNA sequencing and immunoluminescent assay, respectively. A total of 10 HC subjects were classified as overweight/obese (OW/OB_HC) and 10 subjects were normal weight (NW_HC); 15 CRC patients were classified as OW/OB_CRC and 5 patients were NW_CRC. Results: Fusobacterium nucleatum and Escherichia coli were more abundant in OW/OB_HC than in NW_HC microbiomes. Globally, Streptococcus intermedius, Gemella haemolysans, Fusobacterium nucleatum, Bacteroides fragilis and Escherichia coli were significantly increased in CRC patient tumor/lesioned tissue (CRC_LT) and CRC patient unlesioned tissue (CRC_ULT) microbiomes compared to HC microbiomes. CCL2 circulating levels were associated with tumor presence and with the abundance of Fusobacterium nucleatum, Bacteroides fragilis and Gemella haemolysans. Our data suggest that mucosal colon dysbiosis might contribute to CRC pathogenesis by inducing inflammation. Notably, Fusobacterium nucleatum, which was more abundant in the OW/OB_HC than in the NW_HC microbiomes, might represent a putative link between obesity and increased CRC risk.

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Duodenal Metatranscriptomics to Define Human and Microbial Functional Alterations Associated with Severe Obesity: A Pilot Study

Cited by 18 publications

References 83 publications

Challenges and Perspective in Integrated Multi-Omics in Gut Microbiota Studies

Challenges and Perspective in Integrated Multi-Omics in Gut Microbiota Studies

Microbiota and Ocular Diseases

16S rRNA of Mucosal Colon Microbiome and CCL2 Circulating Levels Are Potential Biomarkers in Colorectal Cancer

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