Ching Jian1, Panu Luukkonen2, Sanja Sädevirta2, Hannele Yki-Järvinen2, Anne Salonen3. 1. Human Microbiome Research Program, Faculty of Medicine, University of Helsinki, Helsinki, Finland. 2. Minerva Foundation Institute for Medical Research, Helsinki, Finland; Department of Medicine, University of Helsinki and Helsinki University Central Hospital, Helsinki, Finland. 3. Human Microbiome Research Program, Faculty of Medicine, University of Helsinki, Helsinki, Finland. Electronic address: anne.salonen@helsinki.fi.
Abstract
BACKGROUNDS & AIMS: Intestinal microbiota may be causally involved in the pathogenesis of non-alcoholic fatty liver disease (NAFLD). We aimed to study the effect of short-term overfeeding on human gut microbiota in relation to baseline and overfeeding-induced liver steatosis. We also asked whether the baseline microbiota composition is associated to the overfeeding-induced increase in liver fat. METHODS: In a randomized trial, 38 overweight and obese subjects were assigned to consume an excess of 1000 kcal/day of diets rich in either saturated fat, unsaturated fat, or simple sugars for 3 weeks. Fasting blood samples and 1H-MR spectroscopy were used for extensive clinical phenotyping as previously reported (PMID: 29844096). Fecal samples were collected for the analysis of the gut microbiota using 16S rRNA amplicon sequencing, imputed metagenomics and qPCR. Microbiota results were correlated with dietary intakes and clinical measurements before and during overfeeding. RESULTS: The overall community structure of the microbiota remained highly stable and personalized during overfeeding based on between-sample Bray-Curtis dissimilarity, but the relative abundances of individual taxa were altered in a diet-specific manner: overfeeding saturated fat increased Proteobacteria, while unsaturated fat increased butyrate producers. Sugar overfeeding increased Lactococcus and Escherichia coli. Imputed functions of the gut microbiota were not affected by overfeeding. Several taxa affected by overfeeding significantly correlated with the changes in host metabolic markers. The baseline levels of proteobacterial family Desulfovibrionaceae, and especially genus Bilophila, were significantly associated to overfeeding-induced liver fat increase independently of the diet arm. In general, limited overlap was observed between the overfeeding-induced microbiota changes and the liver fat-associated microbiota features at baseline. CONCLUSIONS: Our work indicates that the human gut microbiota is resilient to short-term overfeeding on community level, but specific taxa are altered on diet composition-dependent manner. Generalizable microbiota signatures directly associated with liver steatosis could not be identified. Instead, the carriage of Bilophila was identified as a potential novel risk factor for diet-induced liver steatosis in humans. Clinical trial registry number: NCT02133144 listed on NIH website: ClinicalTrials.gov.
RCT Entities:
BACKGROUNDS & AIMS: Intestinal microbiota may be causally involved in the pathogenesis of non-alcoholic fatty liver disease (NAFLD). We aimed to study the effect of short-term overfeeding on human gut microbiota in relation to baseline and overfeeding-induced liver steatosis. We also asked whether the baseline microbiota composition is associated to the overfeeding-induced increase in liver fat. METHODS: In a randomized trial, 38 overweight and obese subjects were assigned to consume an excess of 1000 kcal/day of diets rich in either saturated fat, unsaturated fat, or simple sugars for 3 weeks. Fasting blood samples and 1H-MR spectroscopy were used for extensive clinical phenotyping as previously reported (PMID: 29844096). Fecal samples were collected for the analysis of the gut microbiota using 16S rRNA amplicon sequencing, imputed metagenomics and qPCR. Microbiota results were correlated with dietary intakes and clinical measurements before and during overfeeding. RESULTS: The overall community structure of the microbiota remained highly stable and personalized during overfeeding based on between-sample Bray-Curtis dissimilarity, but the relative abundances of individual taxa were altered in a diet-specific manner: overfeeding saturated fat increased Proteobacteria, while unsaturated fat increased butyrate producers. Sugar overfeeding increased Lactococcus and Escherichia coli. Imputed functions of the gut microbiota were not affected by overfeeding. Several taxa affected by overfeeding significantly correlated with the changes in host metabolic markers. The baseline levels of proteobacterial family Desulfovibrionaceae, and especially genus Bilophila, were significantly associated to overfeeding-induced liver fat increase independently of the diet arm. In general, limited overlap was observed between the overfeeding-induced microbiota changes and the liver fat-associated microbiota features at baseline. CONCLUSIONS: Our work indicates that the human gut microbiota is resilient to short-term overfeeding on community level, but specific taxa are altered on diet composition-dependent manner. Generalizable microbiota signatures directly associated with liver steatosis could not be identified. Instead, the carriage of Bilophila was identified as a potential novel risk factor for diet-induced liver steatosis in humans. Clinical trial registry number: NCT02133144 listed on NIH website: ClinicalTrials.gov.
Authors: Ching Jian; Marta Paulino Silvestre; Danielle Middleton; Katri Korpela; Elli Jalo; David Broderick; Willem Meindert de Vos; Mikael Fogelholm; Mike William Taylor; Anne Raben; Sally Poppitt; Anne Salonen Journal: Genome Med Date: 2022-05-23 Impact factor: 15.266
Authors: Jordi Mayneris-Perxachs; Marina Cardellini; Lesley Hoyles; Jèssica Latorre; Francesca Davato; José Maria Moreno-Navarrete; María Arnoriaga-Rodríguez; Matteo Serino; James Abbott; Richard H Barton; Josep Puig; Xavier Fernández-Real; Wifredo Ricart; Christopher Tomlinson; Mark Woodbridge; Paolo Gentileschi; Sarah A Butcher; Elaine Holmes; Jeremy K Nicholson; Vicente Pérez-Brocal; Andrés Moya; Donald Mc Clain; Rémy Burcelin; Marc-Emmanuel Dumas; Massimo Federici; José-Manuel Fernández-Real Journal: Microbiome Date: 2021-05-07 Impact factor: 14.650
Authors: Fredrik Rosqvist; Marju Orho-Melander; Joel Kullberg; David Iggman; Hans-Erik Johansson; Jonathan Cedernaes; Håkan Ahlström; Ulf Risérus Journal: Front Nutr Date: 2020-12-03
Authors: María Juárez-Fernández; David Porras; Petar Petrov; Sara Román-Sagüillo; María Victoria García-Mediavilla; Polina Soluyanova; Susana Martínez-Flórez; Javier González-Gallego; Esther Nistal; Ramiro Jover; Sonia Sánchez-Campos Journal: Antioxidants (Basel) Date: 2021-12-15