Morten Nilsen, Unni Cecilie Nygaard, Petter Brodin, Karin Cecilie Lødrup Carlsen, Cecilie Fredheim, Guttorm Haugen, Gunilla Hedlin, Christine Monceyron Jonassen, Unni Lise Albertsdottir Jonsmoen, Tadepally Lakshmikanth, Björn Nordlund, Axel Olin, Eva Maria Rehbinder, Håvard O. Skjerven, Lars Snipen, Anne Cathrine Staff, Cilla Söderhäll, Riyas Vettukattil, Knut Rudi
{"title":"6 个月大时的肠道细菌与 1 岁儿童的免疫细胞状况有关","authors":"Morten Nilsen, Unni Cecilie Nygaard, Petter Brodin, Karin Cecilie Lødrup Carlsen, Cecilie Fredheim, Guttorm Haugen, Gunilla Hedlin, Christine Monceyron Jonassen, Unni Lise Albertsdottir Jonsmoen, Tadepally Lakshmikanth, Björn Nordlund, Axel Olin, Eva Maria Rehbinder, Håvard O. Skjerven, Lars Snipen, Anne Cathrine Staff, Cilla Söderhäll, Riyas Vettukattil, Knut Rudi","doi":"10.1111/sji.13346","DOIUrl":null,"url":null,"abstract":"Age-related gut bacterial changes during infancy have been widely studied, but it remains still unknown how these changes are associated with immune cell composition. This study's aim was to explore if the temporal development of gut bacteria during infancy prospectively affects immune cell composition. Faecal bacteria and short-chain fatty acids were analysed from 67 PreventADALL study participants at four timepoints (birth to 12 months) using reduced metagenome sequencing and gas chromatography. Immune cell frequencies were assessed using mass cytometry in whole blood samples at 12 months. The infants clustered into four groups based on immune cell composition: clusters 1 and 2 showed a high relative abundance of naïve cells, cluster 3 exhibited increased abundance of classical- and non-classical monocytes and clusters 3 and 4 had elevated neutrophil levels. At all age groups, we did observe significant associations between the gut microbiota and immune cell clusters; however, these were generally from low abundant species. Only at 6 months of age we observed significant associations between abundant (>8%) species and immune cell clusters. <i>Bifidobacterium adolescentis</i> and <i>Porphyromonadaceae</i> are associated with cluster 1, while <i>Bacteroides fragilis</i> and <i>Bifidobacterium longum</i> are associated with clusters 3 and 4 respectively. These species have been linked to T-cell polarization and maturation. No significant correlations were found between short-chain fatty acids and immune cell composition. Our findings suggest that abundant gut bacteria at 6 months may influence immune cell frequencies at 12 months, highlighting the potential role of gut microbiota in shaping later immune cell composition.","PeriodicalId":21493,"journal":{"name":"Scandinavian Journal of Immunology","volume":"106 1","pages":""},"PeriodicalIF":4.1000,"publicationDate":"2023-12-07","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Gut bacteria at 6 months of age are associated with immune cell status in 1-year-old children\",\"authors\":\"Morten Nilsen, Unni Cecilie Nygaard, Petter Brodin, Karin Cecilie Lødrup Carlsen, Cecilie Fredheim, Guttorm Haugen, Gunilla Hedlin, Christine Monceyron Jonassen, Unni Lise Albertsdottir Jonsmoen, Tadepally Lakshmikanth, Björn Nordlund, Axel Olin, Eva Maria Rehbinder, Håvard O. Skjerven, Lars Snipen, Anne Cathrine Staff, Cilla Söderhäll, Riyas Vettukattil, Knut Rudi\",\"doi\":\"10.1111/sji.13346\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Age-related gut bacterial changes during infancy have been widely studied, but it remains still unknown how these changes are associated with immune cell composition. This study's aim was to explore if the temporal development of gut bacteria during infancy prospectively affects immune cell composition. Faecal bacteria and short-chain fatty acids were analysed from 67 PreventADALL study participants at four timepoints (birth to 12 months) using reduced metagenome sequencing and gas chromatography. Immune cell frequencies were assessed using mass cytometry in whole blood samples at 12 months. The infants clustered into four groups based on immune cell composition: clusters 1 and 2 showed a high relative abundance of naïve cells, cluster 3 exhibited increased abundance of classical- and non-classical monocytes and clusters 3 and 4 had elevated neutrophil levels. At all age groups, we did observe significant associations between the gut microbiota and immune cell clusters; however, these were generally from low abundant species. Only at 6 months of age we observed significant associations between abundant (>8%) species and immune cell clusters. <i>Bifidobacterium adolescentis</i> and <i>Porphyromonadaceae</i> are associated with cluster 1, while <i>Bacteroides fragilis</i> and <i>Bifidobacterium longum</i> are associated with clusters 3 and 4 respectively. These species have been linked to T-cell polarization and maturation. No significant correlations were found between short-chain fatty acids and immune cell composition. 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Gut bacteria at 6 months of age are associated with immune cell status in 1-year-old children
Age-related gut bacterial changes during infancy have been widely studied, but it remains still unknown how these changes are associated with immune cell composition. This study's aim was to explore if the temporal development of gut bacteria during infancy prospectively affects immune cell composition. Faecal bacteria and short-chain fatty acids were analysed from 67 PreventADALL study participants at four timepoints (birth to 12 months) using reduced metagenome sequencing and gas chromatography. Immune cell frequencies were assessed using mass cytometry in whole blood samples at 12 months. The infants clustered into four groups based on immune cell composition: clusters 1 and 2 showed a high relative abundance of naïve cells, cluster 3 exhibited increased abundance of classical- and non-classical monocytes and clusters 3 and 4 had elevated neutrophil levels. At all age groups, we did observe significant associations between the gut microbiota and immune cell clusters; however, these were generally from low abundant species. Only at 6 months of age we observed significant associations between abundant (>8%) species and immune cell clusters. Bifidobacterium adolescentis and Porphyromonadaceae are associated with cluster 1, while Bacteroides fragilis and Bifidobacterium longum are associated with clusters 3 and 4 respectively. These species have been linked to T-cell polarization and maturation. No significant correlations were found between short-chain fatty acids and immune cell composition. Our findings suggest that abundant gut bacteria at 6 months may influence immune cell frequencies at 12 months, highlighting the potential role of gut microbiota in shaping later immune cell composition.
期刊介绍:
This peer-reviewed international journal publishes original articles and reviews on all aspects of basic, translational and clinical immunology. The journal aims to provide high quality service to authors, and high quality articles for readers.
The journal accepts for publication material from investigators all over the world, which makes a significant contribution to basic, translational and clinical immunology.