Getting to Know the Gut Microbial Diversity of Metropolitan Buenos Aires Inhabitants

Getting to Know the Gut Microbial Diversity of Metropolitan Buenos Aires Inhabitants

In recent years, the field of immunology has been revolutionized by the growing understanding of the fundamental role of microbiota in the immune system function. The immune system has evolved to maintain a symbiotic relationship with these microbes. The aim of our study was to know in depth the unc...

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Main Authors: Fiorella Sabrina Belforte, Natalie Fernandez, Francisco Tonín Monzón, Ayelén Daiana Rosso, Sofía Quesada, María Cecilia Cimolai, Andrea Millán, Gloria Edith Cerrone, Gustavo Daniel Frechtel, Rémy Burcelin, Federico Coluccio Leskow, Alberto Penas-Steinhardt
Format: Article
Language:English
Published: Frontiers Media S.A. 2019-05-01
Series:Frontiers in Microbiology
Subjects:
microbiota
16S rRNA
Buenos Aires
gut micobiome
westernized population
Online Access:https://www.frontiersin.org/article/10.3389/fmicb.2019.00965/full
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author Fiorella Sabrina Belforte
Fiorella Sabrina Belforte
Fiorella Sabrina Belforte
Natalie Fernandez
Francisco Tonín Monzón
Ayelén Daiana Rosso
Ayelén Daiana Rosso
Sofía Quesada
Sofía Quesada
María Cecilia Cimolai
María Cecilia Cimolai
María Cecilia Cimolai
Andrea Millán
Gloria Edith Cerrone
Gustavo Daniel Frechtel
Rémy Burcelin
Rémy Burcelin
Federico Coluccio Leskow
Federico Coluccio Leskow
Alberto Penas-Steinhardt
Alberto Penas-Steinhardt
Alberto Penas-Steinhardt
Alberto Penas-Steinhardt
spellingShingle Fiorella Sabrina Belforte
Fiorella Sabrina Belforte
Fiorella Sabrina Belforte
Natalie Fernandez
Francisco Tonín Monzón
Ayelén Daiana Rosso
Ayelén Daiana Rosso
Sofía Quesada
Sofía Quesada
María Cecilia Cimolai
María Cecilia Cimolai
María Cecilia Cimolai
Andrea Millán
Gloria Edith Cerrone
Gustavo Daniel Frechtel
Rémy Burcelin
Rémy Burcelin
Federico Coluccio Leskow
Federico Coluccio Leskow
Alberto Penas-Steinhardt
Alberto Penas-Steinhardt
Alberto Penas-Steinhardt
Alberto Penas-Steinhardt
Getting to Know the Gut Microbial Diversity of Metropolitan Buenos Aires Inhabitants
Frontiers in Microbiology
microbiota
16S rRNA
Buenos Aires
gut micobiome
westernized population
author_facet Fiorella Sabrina Belforte
Fiorella Sabrina Belforte
Fiorella Sabrina Belforte
Natalie Fernandez
Francisco Tonín Monzón
Ayelén Daiana Rosso
Ayelén Daiana Rosso
Sofía Quesada
Sofía Quesada
María Cecilia Cimolai
María Cecilia Cimolai
María Cecilia Cimolai
Andrea Millán
Gloria Edith Cerrone
Gustavo Daniel Frechtel
Rémy Burcelin
Rémy Burcelin
Federico Coluccio Leskow
Federico Coluccio Leskow
Alberto Penas-Steinhardt
Alberto Penas-Steinhardt
Alberto Penas-Steinhardt
Alberto Penas-Steinhardt
author_sort Fiorella Sabrina Belforte
title Getting to Know the Gut Microbial Diversity of Metropolitan Buenos Aires Inhabitants
title_short Getting to Know the Gut Microbial Diversity of Metropolitan Buenos Aires Inhabitants
title_full Getting to Know the Gut Microbial Diversity of Metropolitan Buenos Aires Inhabitants
title_fullStr Getting to Know the Gut Microbial Diversity of Metropolitan Buenos Aires Inhabitants
title_full_unstemmed Getting to Know the Gut Microbial Diversity of Metropolitan Buenos Aires Inhabitants
title_sort getting to know the gut microbial diversity of metropolitan buenos aires inhabitants
publisher Frontiers Media S.A.
series Frontiers in Microbiology
issn 1664-302X
publishDate 2019-05-01
description In recent years, the field of immunology has been revolutionized by the growing understanding of the fundamental role of microbiota in the immune system function. The immune system has evolved to maintain a symbiotic relationship with these microbes. The aim of our study was to know in depth the uncharacterized metagenome of the Buenos Aires (BA) city population and its metropolitan area, being the second most populated agglomeration in the southern hemisphere. For this purpose, we evaluated 30 individuals (age: 35.23 ± 8.26 years and BMI: 23.91 ± 3.4 kg/m2), from the general population of BA. The hypervariable regions V3-V4 of the bacterial 16S gene was sequenced by MiSeq-Illumina system, obtaining 47526 ± 4718 sequences/sample. The dominant phyla were Bacteroidetes, Firmicutes, Proteobacteria, Verrucomicrobia, and Actinobacteria. Additionally, we compared the microbiota of BA with other westernized populations (Santiago de Chile, Rosario-Argentina, United States-Human-microbiome-project, Bologna-Italy) and the Hadza population of hunter-gatherers. The unweighted UniFrac clustered together all westernized populations, leaving the hunter-gatherer population from Hadza out. In particular, Santiago de Chile’s population turns out to be the closest to BA’s, principally due to the presence of Verrucomicrobiales of the genus Akkermansia. These microorganisms have been proposed as a hallmark of a healthy gut. Finally, westernized populations showed more abundant metabolism related KEEG pathways than hunter-gatherers, including carbohydrate metabolism (amino sugar and nucleotide sugar metabolism), amino acid metabolism (alanine, aspartate and glutamate metabolism), lipid metabolism, biosynthesis of secondary metabolites, and sulfur metabolism. These findings contribute to promote research and comparison of the microbiome in different human populations, in order to develop more efficient therapeutic strategies for the restoration of a healthy dialogue between host and environment.
topic microbiota
16S rRNA
Buenos Aires
gut micobiome
westernized population
url https://www.frontiersin.org/article/10.3389/fmicb.2019.00965/full
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spelling doaj-7bd4fd33a46d465f909da1d8b6bbd0632020-11-24T21:56:41ZengFrontiers Media S.A.Frontiers in Microbiology1664-302X2019-05-011010.3389/fmicb.2019.00965435439Getting to Know the Gut Microbial Diversity of Metropolitan Buenos Aires InhabitantsFiorella Sabrina Belforte0Fiorella Sabrina Belforte1Fiorella Sabrina Belforte2Natalie Fernandez3Francisco Tonín Monzón4Ayelén Daiana Rosso5Ayelén Daiana Rosso6Sofía Quesada7Sofía Quesada8María Cecilia Cimolai9María Cecilia Cimolai10María Cecilia Cimolai11Andrea Millán12Gloria Edith Cerrone13Gustavo Daniel Frechtel14Rémy Burcelin15Rémy Burcelin16Federico Coluccio Leskow17Federico Coluccio Leskow18Alberto Penas-Steinhardt19Alberto Penas-Steinhardt20Alberto Penas-Steinhardt21Alberto Penas-Steinhardt22Laboratorio de Genómica Computacional, Departamento de Ciencias Básicas, Universidad Nacional de Luján, Luján, ArgentinaPrograma de Estudios de Comunicación y Señalización Inter-Reino (PECSI), Departamento de Ciencias Básicas, Universidad Nacional de Luján, Luján, ArgentinaConsejo Nacional de Investigaciones Científicas y Técnicas (CONICET), CABA, Buenos Aires, ArgentinaIcahn School of Medicine at Mount Sinai, New York, NY, United StatesCentro de Investigación, Docencia y Extensión en Tecnologías de la Información y las Comunicaciones (CIDETIC), Universidad Nacional de Luján, Luján, ArgentinaLaboratorio de Genómica Computacional, Departamento de Ciencias Básicas, Universidad Nacional de Luján, Luján, ArgentinaPrograma de Estudios de Comunicación y Señalización Inter-Reino (PECSI), Departamento de Ciencias Básicas, Universidad Nacional de Luján, Luján, ArgentinaLaboratorio de Genómica Computacional, Departamento de Ciencias Básicas, Universidad Nacional de Luján, Luján, ArgentinaPrograma de Estudios de Comunicación y Señalización Inter-Reino (PECSI), Departamento de Ciencias Básicas, Universidad Nacional de Luján, Luján, ArgentinaLaboratorio de Genómica Computacional, Departamento de Ciencias Básicas, Universidad Nacional de Luján, Luján, ArgentinaPrograma de Estudios de Comunicación y Señalización Inter-Reino (PECSI), Departamento de Ciencias Básicas, Universidad Nacional de Luján, Luján, ArgentinaConsejo Nacional de Investigaciones Científicas y Técnicas (CONICET), CABA, Buenos Aires, ArgentinaLaboratorio de Diabetes y Metabolismo, Instituto de Inmunología, Genética y Metabolismo, Universidad de Buenos Aires-CONICET, CABA, Buenos Aires, ArgentinaLaboratorio de Diabetes y Metabolismo, Instituto de Inmunología, Genética y Metabolismo, Universidad de Buenos Aires-CONICET, CABA, Buenos Aires, ArgentinaLaboratorio de Diabetes y Metabolismo, Instituto de Inmunología, Genética y Metabolismo, Universidad de Buenos Aires-CONICET, CABA, Buenos Aires, ArgentinaInstitut National de la Santé et de la Recherche Médicale (INSERM), Toulouse, FranceUniversité Paul Sabatier (UPS), Unité Mixte de Recherche (UMR) 1048, Institut des Maladies Métaboliques et Cardiovasculaires (I2MC), Team 2: ‘Intestinal Risk Factors, Diabetes, Dyslipidemia’, Toulouse, FrancePrograma de Estudios de Comunicación y Señalización Inter-Reino (PECSI), Departamento de Ciencias Básicas, Universidad Nacional de Luján, Luján, ArgentinaConsejo Nacional de Investigaciones Científicas y Técnicas (CONICET), CABA, Buenos Aires, ArgentinaLaboratorio de Genómica Computacional, Departamento de Ciencias Básicas, Universidad Nacional de Luján, Luján, ArgentinaPrograma de Estudios de Comunicación y Señalización Inter-Reino (PECSI), Departamento de Ciencias Básicas, Universidad Nacional de Luján, Luján, ArgentinaConsejo Nacional de Investigaciones Científicas y Técnicas (CONICET), CABA, Buenos Aires, ArgentinaFundación H.A. Barceló, Instituto Universitario de Ciencias de la Salud, CABA, Buenos Aires, ArgentinaIn recent years, the field of immunology has been revolutionized by the growing understanding of the fundamental role of microbiota in the immune system function. The immune system has evolved to maintain a symbiotic relationship with these microbes. The aim of our study was to know in depth the uncharacterized metagenome of the Buenos Aires (BA) city population and its metropolitan area, being the second most populated agglomeration in the southern hemisphere. For this purpose, we evaluated 30 individuals (age: 35.23 ± 8.26 years and BMI: 23.91 ± 3.4 kg/m2), from the general population of BA. The hypervariable regions V3-V4 of the bacterial 16S gene was sequenced by MiSeq-Illumina system, obtaining 47526 ± 4718 sequences/sample. The dominant phyla were Bacteroidetes, Firmicutes, Proteobacteria, Verrucomicrobia, and Actinobacteria. Additionally, we compared the microbiota of BA with other westernized populations (Santiago de Chile, Rosario-Argentina, United States-Human-microbiome-project, Bologna-Italy) and the Hadza population of hunter-gatherers. The unweighted UniFrac clustered together all westernized populations, leaving the hunter-gatherer population from Hadza out. In particular, Santiago de Chile’s population turns out to be the closest to BA’s, principally due to the presence of Verrucomicrobiales of the genus Akkermansia. These microorganisms have been proposed as a hallmark of a healthy gut. Finally, westernized populations showed more abundant metabolism related KEEG pathways than hunter-gatherers, including carbohydrate metabolism (amino sugar and nucleotide sugar metabolism), amino acid metabolism (alanine, aspartate and glutamate metabolism), lipid metabolism, biosynthesis of secondary metabolites, and sulfur metabolism. These findings contribute to promote research and comparison of the microbiome in different human populations, in order to develop more efficient therapeutic strategies for the restoration of a healthy dialogue between host and environment.https://www.frontiersin.org/article/10.3389/fmicb.2019.00965/fullmicrobiota16S rRNABuenos Airesgut micobiomewesternized population

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