183 results on '"Falony, Gwen"'
Search Results
2. Evidence of a causal and modifiable relationship between kidney function and circulating trimethylamine N-oxide
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Andrikopoulos, Petros, Aron-Wisnewsky, Judith, Chakaroun, Rima, Myridakis, Antonis, Forslund, Sofia K., Nielsen, Trine, Adriouch, Solia, Holmes, Bridget, Chilloux, Julien, Vieira-Silva, Sara, Falony, Gwen, Salem, Joe-Elie, Andreelli, Fabrizio, Belda, Eugeni, Kieswich, Julius, Chechi, Kanta, Puig-Castellvi, Francesc, Chevalier, Mickael, Le Chatelier, Emmanuelle, Olanipekun, Michael T., Hoyles, Lesley, Alves, Renato, Helft, Gerard, Isnard, Richard, Køber, Lars, Coelho, Luis Pedro, Rouault, Christine, Gauguier, Dominique, Gøtze, Jens Peter, Prifti, Edi, Froguel, Philippe, Zucker, Jean-Daniel, Bäckhed, Fredrik, Vestergaard, Henrik, Hansen, Torben, Oppert, Jean-Michel, Blüher, Matthias, Nielsen, Jens, Raes, Jeroen, Bork, Peer, Yaqoob, Muhammad M., Stumvoll, Michael, Pedersen, Oluf, Ehrlich, S. Dusko, Clément, Karine, and Dumas, Marc-Emmanuel
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- 2023
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3. Rigorous Donor Selection for Fecal Microbiota Transplantation in Active Ulcerative Colitis: Key Lessons From a Randomized Controlled Trial Halted for Futility
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Caenepeel, Clara, Deleu, Sara, Vazquez Castellanos, Jorge Francisco, Arnauts, Kaline, Braekeleire, Sara, Machiels, Kathleen, Baert, Filip, Mana, Fazia, Pouillon, Lieven, Hindryckx, Pieter, Lobaton, Triana, Louis, Edouard, Franchimont, Denis, Verstockt, Bram, Ferrante, Marc, Sabino, João, Vieira-Silva, Sara, Falony, Gwen, Raes, Jeroen, and Vermeire, Séverine
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- 2024
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4. Large-scale association analyses identify host factors influencing human gut microbiome composition
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Kurilshikov, Alexander, Medina-Gomez, Carolina, Bacigalupe, Rodrigo, Radjabzadeh, Djawad, Wang, Jun, Demirkan, Ayse, Le Roy, Caroline I, Raygoza Garay, Juan Antonio, Finnicum, Casey T, Liu, Xingrong, Zhernakova, Daria V, Bonder, Marc Jan, Hansen, Tue H, Frost, Fabian, Rühlemann, Malte C, Turpin, Williams, Moon, Jee-Young, Kim, Han-Na, Lüll, Kreete, Barkan, Elad, Shah, Shiraz A, Fornage, Myriam, Szopinska-Tokov, Joanna, Wallen, Zachary D, Borisevich, Dmitrii, Agreus, Lars, Andreasson, Anna, Bang, Corinna, Bedrani, Larbi, Bell, Jordana T, Bisgaard, Hans, Boehnke, Michael, Boomsma, Dorret I, Burk, Robert D, Claringbould, Annique, Croitoru, Kenneth, Davies, Gareth E, van Duijn, Cornelia M, Duijts, Liesbeth, Falony, Gwen, Fu, Jingyuan, van der Graaf, Adriaan, Hansen, Torben, Homuth, Georg, Hughes, David A, Ijzerman, Richard G, Jackson, Matthew A, Jaddoe, Vincent WV, Joossens, Marie, Jørgensen, Torben, Keszthelyi, Daniel, Knight, Rob, Laakso, Markku, Laudes, Matthias, Launer, Lenore J, Lieb, Wolfgang, Lusis, Aldons J, Masclee, Ad AM, Moll, Henriette A, Mujagic, Zlatan, Qibin, Qi, Rothschild, Daphna, Shin, Hocheol, Sørensen, Søren J, Steves, Claire J, Thorsen, Jonathan, Timpson, Nicholas J, Tito, Raul Y, Vieira-Silva, Sara, Völker, Uwe, Völzke, Henry, Võsa, Urmo, Wade, Kaitlin H, Walter, Susanna, Watanabe, Kyoko, Weiss, Stefan, Weiss, Frank U, Weissbrod, Omer, Westra, Harm-Jan, Willemsen, Gonneke, Payami, Haydeh, Jonkers, Daisy MAE, Arias Vasquez, Alejandro, de Geus, Eco JC, Meyer, Katie A, Stokholm, Jakob, Segal, Eran, Org, Elin, Wijmenga, Cisca, Kim, Hyung-Lae, Kaplan, Robert C, Spector, Tim D, Uitterlinden, Andre G, Rivadeneira, Fernando, Franke, Andre, Lerch, Markus M, Franke, Lude, Sanna, Serena, D’Amato, Mauro, and Pedersen, Oluf
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Microbiology ,Biological Sciences ,Genetics ,Human Genome ,Biotechnology ,Clinical Research ,Digestive Diseases ,Nutrition ,2.1 Biological and endogenous factors ,Aetiology ,Oral and gastrointestinal ,Adolescent ,Adult ,Bifidobacterium ,Child ,Child ,Preschool ,Cohort Studies ,Female ,Gastrointestinal Microbiome ,Genetic Variation ,Genome-Wide Association Study ,Humans ,Lactase ,Linkage Disequilibrium ,Male ,Mendelian Randomization Analysis ,Metabolism ,Quantitative Trait Loci ,RNA ,Ribosomal ,16S ,Medical and Health Sciences ,Developmental Biology ,Agricultural biotechnology ,Bioinformatics and computational biology - Abstract
To study the effect of host genetics on gut microbiome composition, the MiBioGen consortium curated and analyzed genome-wide genotypes and 16S fecal microbiome data from 18,340 individuals (24 cohorts). Microbial composition showed high variability across cohorts: only 9 of 410 genera were detected in more than 95% of samples. A genome-wide association study of host genetic variation regarding microbial taxa identified 31 loci affecting the microbiome at a genome-wide significant (P
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- 2021
5. RIGOROUS DONOR SELECTION FOR FMT IN ACTIVE ULCERATIVE COLITIS: KEY LESSONS FROM A RANDOMIZED CONTROLLED TRIAL HALTED FOR FUTILITY
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Caenepeel, Clara, primary, Deleu, Sara, additional, Vazquez Castellanos, Jorge Francisco, additional, Arnauts, Kaline, additional, Braekeleire, Sara, additional, Machiels, Kathleen, additional, Baert, Filip, additional, Mana, Fazia, additional, Pouillon, Lieven, additional, Hindryckx, Pieter, additional, Lobaton, Triana, additional, Louis, Edouard, additional, Franchimont, Denis, additional, Verstockt, Bram, additional, Ferrante, Marc, additional, Sabino, João, additional, Vieira-Silva, Sara, additional, Falony, Gwen, additional, Raes, Jeroen, additional, and Vermeire, Séverine, additional
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- 2024
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6. Effect of cryopreservation medium conditions on growth and isolation of gut anaerobes from human faecal samples
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Biclot, Anaïs, Huys, Geert R. B., Bacigalupe, Rodrigo, D’hoe, Kevin, Vandeputte, Doris, Falony, Gwen, Tito, Raul Y., and Raes, Jeroen
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- 2022
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7. Combinatorial, additive and dose-dependent drug-microbiome associations
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Forslund, Sofia K., Chakaroun, Rima, Zimmermann-Kogadeeva, Maria, Markó, Lajos, Aron-Wisnewsky, Judith, Nielsen, Trine, Moitinho-Silva, Lucas, Schmidt, Thomas S.B., Falony, Gwen, Vieira-Silva, Sara, Adriouch, Solia, Alves, Renato J., Assmann, Karen, Bastard, Jean-Philippe, Birkner, Till, Caesar, Robert, and Chilloux, Julien
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Microbiota (Symbiotic organisms) -- Physiological aspects ,Pharmacology, Experimental ,Metabolic diseases -- Drug therapy ,Cardiovascular diseases -- Drug therapy ,Dose-response relationship (Biochemistry) -- Research ,Environmental issues ,Science and technology ,Zoology and wildlife conservation - Abstract
During the transition from a healthy state to cardiometabolic disease, patients become heavily medicated, which leads to an increasingly aberrant gut microbiome and serum metabolome, and complicates biomarker discovery.sup.1-5. Here, through integrated multi-omics analyses of 2,173 European residents from the MetaCardis cohort, we show that the explanatory power of drugs for the variability in both host and gut microbiome features exceeds that of disease. We quantify inferred effects of single medications, their combinations as well as additive effects, and show that the latter shift the metabolome and microbiome towards a healthier state, exemplified in synergistic reduction in serum atherogenic lipoproteins by statins combined with aspirin, or enrichment of intestinal Roseburia by diuretic agents combined with beta-blockers. Several antibiotics exhibit a quantitative relationship between the number of courses prescribed and progression towards a microbiome state that is associated with the severity of cardiometabolic disease. We also report a relationship between cardiometabolic drug dosage, improvement in clinical markers and microbiome composition, supporting direct drug effects. Taken together, our computational framework and resulting resources enable the disentanglement of the effects of drugs and disease on host and microbiome features in multimedicated individuals. Furthermore, the robust signatures identified using our framework provide new hypotheses for drug-host-microbiome interactions in cardiometabolic disease. An analysis of 2,173 individuals from the MetaCardis cohort quantifies the individual and combinatorial effects of a range of drugs on host health, metabolome and gut microbiome in cardiometabolic disease., Author(s): Sofia K. Forslund [sup.1] [sup.2] [sup.3] [sup.4] [sup.5] [sup.6] , Rima Chakaroun [sup.7] , Maria Zimmermann-Kogadeeva [sup.1] , Lajos Markó [sup.2] [sup.4] [sup.5] , Judith Aron-Wisnewsky [sup.8] [sup.9] , [...]
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- 2021
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8. Microbiome and metabolome features of the cardiometabolic disease spectrum
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Fromentin, Sebastien, Forslund, Sofia K., Chechi, Kanta, Aron-Wisnewsky, Judith, Chakaroun, Rima, Nielsen, Trine, Tremaroli, Valentina, Ji, Boyang, Prifti, Edi, Myridakis, Antonis, Chilloux, Julien, Andrikopoulos, Petros, Fan, Yong, Olanipekun, Michael T., Alves, Renato, Adiouch, Solia, Bar, Noam, Talmor-Barkan, Yeela, Belda, Eugeni, Caesar, Robert, Coelho, Luis Pedro, Falony, Gwen, Fellahi, Soraya, Galan, Pilar, Galleron, Nathalie, Helft, Gerard, Hoyles, Lesley, Isnard, Richard, Le Chatelier, Emmanuelle, Julienne, Hanna, Olsson, Lisa, Pedersen, Helle Krogh, Pons, Nicolas, Quinquis, Benoit, Rouault, Christine, Roume, Hugo, Salem, Joe-Elie, Schmidt, Thomas S. B., Vieira-Silva, Sara, Li, Peishun, Zimmermann-Kogadeeva, Maria, Lewinter, Christian, Søndertoft, Nadja B., Hansen, Tue H., Gauguier, Dominique, Gøtze, Jens Peter, Køber, Lars, Kornowski, Ran, Vestergaard, Henrik, Hansen, Torben, Zucker, Jean-Daniel, Hercberg, Serge, Letunic, Ivica, Bäckhed, Fredrik, Oppert, Jean-Michel, Nielsen, Jens, Raes, Jeroen, Bork, Peer, Stumvoll, Michael, Segal, Eran, Clément, Karine, Dumas, Marc-Emmanuel, Ehrlich, S. Dusko, and Pedersen, Oluf
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- 2022
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9. Novel insights into the genetically obese (ob/ob) and diabetic (db/db) mice: two sides of the same coin
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Suriano, Francesco, Vieira-Silva, Sara, Falony, Gwen, Roumain, Martin, Paquot, Adrien, Pelicaen, Rudy, Régnier, Marion, Delzenne, Nathalie M., Raes, Jeroen, Muccioli, Giulio G., Van Hul, Matthias, and Cani, Patrice D.
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- 2021
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10. Benchmarking microbiome transformations favors experimental quantitative approaches to address compositionality and sampling depth biases
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Lloréns-Rico, Verónica, Vieira-Silva, Sara, Gonçalves, Pedro J., Falony, Gwen, and Raes, Jeroen
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- 2021
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11. Statin therapy is associated with lower prevalence of gut microbiota dysbiosis
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Vieira-Silva, Sara, Falony, Gwen, Belda, Eugeni, Nielsen, Trine, Aron-Wisnewsky, Judith, Chakaroun, Rima, and Forslund, Sofia K.
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Microbiota (Symbiotic organisms) -- Control -- Causes of -- Analysis ,Dysbiosis -- Drug therapy -- Distribution ,Statins -- Dosage and administration ,Overweight persons -- Diseases -- Analysis ,Prevalence studies (Epidemiology) -- Analysis ,Company distribution practices ,Environmental issues ,Science and technology ,Zoology and wildlife conservation - Abstract
Microbiome community typing analyses have recently identified the Bacteroides2 (Bact2) enterotype, an intestinal microbiota configuration that is associated with systemic inflammation and has a high prevalence in loose stools in humans.sup.1,2. Bact2 is characterized by a high proportion of Bacteroides, a low proportion of Faecalibacterium and low microbial cell densities.sup.1,2, and its prevalence varies from 13% in a general population cohort to as high as 78% in patients with inflammatory bowel disease.sup.2. Reported changes in stool consistency.sup.3 and inflammation status.sup.4 during the progression towards obesity and metabolic comorbidities led us to propose that these developments might similarly correlate with an increased prevalence of the potentially dysbiotic Bact2 enterotype. Here, by exploring obesity-associated microbiota alterations in the quantitative faecal metagenomes of the cross-sectional MetaCardis Body Mass Index Spectrum cohort (n = 888), we identify statin therapy as a key covariate of microbiome diversification. By focusing on a subcohort of participants that are not medicated with statins, we find that the prevalence of Bact2 correlates with body mass index, increasing from 3.90% in lean or overweight participants to 17.73% in obese participants. Systemic inflammation levels in Bact2-enterotyped individuals are higher than predicted on the basis of their obesity status, indicative of Bact2 as a dysbiotic microbiome constellation. We also observe that obesity-associated microbiota dysbiosis is negatively associated with statin treatment, resulting in a lower Bact2 prevalence of 5.88% in statin-medicated obese participants. This finding is validated in both the accompanying MetaCardis cardiovascular disease dataset (n = 282) and the independent Flemish Gut Flora Project population cohort (n = 2,345). The potential benefits of statins in this context will require further evaluation in a prospective clinical trial to ascertain whether the effect is reproducible in a randomized population and before considering their application as microbiota-modulating therapeutics. A cross-sectional analysis of participants in the MetaCardis Body Mass Index Spectrum cohort finds that the higher prevalence of gut microbiota dysbiosis in individuals with obesity is not observed in those who take statin drugs., Author(s): Sara Vieira-Silva [sup.1] [sup.2] , Gwen Falony [sup.1] [sup.2] , Eugeni Belda [sup.3] [sup.4] , Trine Nielsen [sup.5] , Judith Aron-Wisnewsky [sup.3] [sup.6] , Rima Chakaroun [sup.7] , Sofia [...]
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- 2020
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12. Systematic optimization of fermentation conditions for in vitro fermentations with fecal inocula
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Poppe, Jonas, primary, Vieira-Silva, Sara, additional, Raes, Jeroen, additional, Verbeke, Kristin, additional, and Falony, Gwen, additional
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- 2023
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13. Supplementation with Akkermansia muciniphila in overweight and obese human volunteers: a proof-of-concept exploratory study
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Depommier, Clara, Everard, Amandine, Druart, Céline, Plovier, Hubert, Van Hul, Matthias, Vieira-Silva, Sara, Falony, Gwen, Raes, Jeroen, Maiter, Dominique, Delzenne, Nathalie M., de Barsy, Marie, Loumaye, Audrey, Hermans, Michel P., Thissen, Jean-Paul, de Vos, Willem M., and Cani, Patrice D.
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- 2019
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14. Gut microbiome composition is associated with long-term disability worsening in multiple sclerosis
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Devolder, Lindsay, primary, Pauwels, Ayla, additional, Van Remoortel, Ann, additional, Falony, Gwen, additional, Vieira-Silva, Sara, additional, Nagels, Guy, additional, De Keyser, Jacques, additional, Raes, Jeroen, additional, and D’Hooghe, Marie B., additional
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- 2023
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15. Quantitative microbiome profiling links gut community variation to microbial load
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Vandeputte, Doris, Kathagen, Gunter, D’hoe, Kevin, Vieira-Silva, Sara, Valles-Colomer, Mireia, Sabino, João, Wang, Jun, Tito, Raul Y., De Commer, Lindsey, Darzi, Youssef, Vermeire, Séverine, Falony, Gwen, and Raes, Jeroen
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- 2017
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16. Variation and transmission of the human gut microbiota across multiple familial generations
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Valles-Colomer, Mireia, Bacigalupe, Rodrigo, Vieira-Silva, Sara, Suzuki, Shinya, Darzi, Youssef, Tito, Raul Y., Yamada, Takuji, Segata, Nicola, Raes, Jeroen, and Falony, Gwen
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Adult ,Microbiology (medical) ,16S ,Adolescent ,Immunology ,DIVERSITY ,CHILDREN ,Bacterial Physiological Phenomena ,Applied Microbiology and Biotechnology ,Microbiology ,Article ,Cohort Studies ,LIKELIHOOD ,Feces ,Young Adult ,RICHNESS ,RNA, Ribosomal, 16S ,REGRESSION ,80 and over ,Genetics ,Humans ,Family ,R PACKAGE ,Preschool ,Child ,Aged ,LEVEL ANALYSIS ,Ribosomal ,Aged, 80 and over ,RISK ,Science & Technology ,Bacteria ,Cell Biology ,Child, Preschool ,Female ,Gastrointestinal Microbiome ,Metagenomics ,Middle Aged ,Metagenome ,CATALOG ,BODY-MASS INDEX ,RNA ,Microbiome ,Life Sciences & Biomedicine - Abstract
Although the composition and functional potential of the human gut microbiota evolve over the lifespan, kinship has been identified as a key covariate of microbial community diversification. However, to date, sharing of microbiota features within families has mostly been assessed between parents and their direct offspring. Here we investigate the potential transmission and persistence of familial microbiome patterns and microbial genotypes in a family cohort (n = 102) spanning 3 to 5 generations over the same female bloodline. We observe microbiome community composition associated with kinship, with seven low abundant genera displaying familial distribution patterns. While kinship and current cohabitation emerge as closely entangled variables, our explorative analyses of microbial genotype distribution and transmission estimates point at the latter as a key covariate of strain dissemination. Highest potential transmission rates are estimated between sisters and mother–daughter pairs, decreasing with increasing daughter’s age and being higher among cohabiting pairs than those living apart. Although rare, we detect potential transmission events spanning three and four generations, primarily involving species of the genera Alistipes and Bacteroides. Overall, while our analyses confirm the existence of family-bound microbiome community profiles, transmission or co-acquisition of bacterial strains appears to be strongly linked to cohabitation., Quantitative metagenomic analyses of gut microbiomes reveals kinship, together with current cohabitation, as drivers of microbial community transmission and persistence between family members over three to five generations.
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- 2021
17. A low-gluten diet induces changes in the intestinal microbiome of healthy Danish adults
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Hansen, Lea B. S., Roager, Henrik M., Søndertoft, Nadja B., Gøbel, Rikke J., Kristensen, Mette, Vallès-Colomer, Mireia, Vieira-Silva, Sara, Ibrügger, Sabine, Lind, Mads V., Mærkedahl, Rasmus B., Bahl, Martin I., Madsen, Mia L., Havelund, Jesper, Falony, Gwen, Tetens, Inge, Nielsen, Trine, Allin, Kristine H., Frandsen, Henrik L., Hartmann, Bolette, Holst, Jens Juul, Sparholt, Morten H., Holck, Jesper, Blennow, Andreas, Moll, Janne Marie, Meyer, Anne S., Hoppe, Camilla, Poulsen, Jørgen H., Carvalho, Vera, Sagnelli, Domenico, Dalgaard, Marlene D., Christensen, Anders F., Lydolph, Magnus Christian, Ross, Alastair B., Villas-Bôas, Silas, Brix, Susanne, Sicheritz-Pontén, Thomas, Buschard, Karsten, Linneberg, Allan, Rumessen, Jüri J., Ekstrøm, Claus T., Ritz, Christian, Kristiansen, Karsten, Nielsen, H. Bjørn, Vestergaard, Henrik, Færgeman, Nils J., Raes, Jeroen, Frøkiær, Hanne, Hansen, Torben, Lauritzen, Lotte, Gupta, Ramneek, Licht, Tine Rask, and Pedersen, Oluf
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- 2018
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18. Human gut microbes impact host serum metabolome and insulin sensitivity
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Pedersen, Helle Krogh, Gudmundsdottir, Valborg, Nielsen, Henrik Bjorn, Hyotylainen, Tuulia, Nielsen, Trine, Jensen, Benjamin A.H., Forslund, Kristoffer, Hildebrand, Falk, Prifti, Edi, Falony, Gwen, Le Chatelier, Emmanuelle, Levenez, Florence, Dore, Joel, Mattila, Ismo, Plichta, Damian R., Poho, Paivi, Hellgren, Lars I., Arumugam, Manimozhiyan, Sunagawa, Shinichi, Vieira-Silva, Sara, Jorgensen, Torben, Holm, Jacob Bak, Trost, Kajetan, Kristiansen, Karsten, Brix, Susanne, Raes, Jeroen, Wang, Jun, Hansen, Torben, Bork, Peer, Brunak, Soren, Oresic, Matej, Ehrlich, S. Dusko, and Pedersen, Oluf
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Insulin resistance -- Genetic aspects ,Amino acids ,Metabolic diseases ,Cardiovascular diseases ,Environmental issues ,Science and technology ,Zoology and wildlife conservation - Abstract
Insulin resistance is a forerunner state of ischaemic cardiovascular disease and type 2 diabetes. Here we show how the human gut microbiome impacts the serum metabolome and associates with insulin resistance in 277 non-diabetic Danish individuals. The serum metabolome of insulin-resistant individuals is characterized by increased levels of branched- chain amino acids (BCAAs), which correlate with a gut microbiome that has an enriched biosynthetic potential for BCAAs and is deprived of genes encoding bacterial inward transporters for these amino acids. Prevotella copri and Bacteroides vulgatus are identified as the main species driving the association between biosynthesis of BCAAs and insulin resistance, and in mice we demonstrate that P. copri can induce insulin resistance, aggravate glucose intolerance and augment circulating levels of BCAAs. Our findings suggest that microbial targets may have the potential to diminish insulin resistance and reduce the incidence of common metabolic and cardiovascular disorders., Insulin resistance (IR) and metabolic syndrome are risk factors for both type 2 diabetes and ischaemic cardiovascular diseases, pathologies that are in epidemic growth worldwide. Mounting evidence suggests a link [...]
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- 2016
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19. Disentangling type 2 diabetes and metformin treatment signatures in the human gut microbiota
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Forslund, Kristoffer, Hildebrand, Falk, Nielsen, Trine, Falony, Gwen, Le Chatelier, Emmanuelle, Sunagawa, Shinichi, Prifti, Edi, Vieira-Silva, Sara, Gudmundsdottir, Valborg, Pedersen, Helle Krogh, Arumugam, Manimozhiyan, Kristiansen, Karsten, Voigt, Anita Yvonne, Vestergaard, Henrik, Hercog, Rajna, Costea, Paul Igor, Kultima, Jens Roat, Li, Junhua, Jorgensen, Torben, Levenez, Florence, Dore, Joel, Nielsen, H. Bjorn, Brunak, Soren, Raes, Jeroen, Hansen, Torben, Wang, Jun, Ehrlich, S. Dusko, Bork, Peer, and Pedersen, Oluf
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Microbiota (Symbiotic organisms) -- Physiological aspects ,Diabetes therapy -- Physiological aspects ,Metformin -- Patient outcomes -- Physiological aspects ,Type 2 diabetes -- Drug therapy -- Physiological aspects -- Patient outcomes ,Environmental issues ,Science and technology ,Zoology and wildlife conservation ,Drug therapy ,Physiological aspects ,Patient outcomes - Abstract
In recent years, several associations between common chronic human disorders and altered gut microbiome composition and function have been reported (1, 2). In most of these reports, treatment regimens were not controlled for and conclusions could thus be confounded by the effects of various drugs on the microbiota, which may obscure microbial causes, protective factors or diagnostically relevant signals. Our study addresses disease and drug signatures in the human gut microbiome of type 2 diabetes mellitus (T2D). Two previous quantitative gut metagenomics studies of T2D patients that were unstratified for treatment yielded divergent conclusions regarding its associated gut microbial dysbiosis (3, 4). Here we show, using 784 available human gut metagenomes, how antidiabetic medication confounds these results, and analyse in detail the effects of the most widely used antidiabetic drug metformin. We provide support for microbial mediation of the therapeutic effects of metformin through short-chain fatty acid production, as well as for potential microbiota-mediated mechanisms behind known intestinal adverse effects in the form of a relative increase in abundance of Escherichia species. Controlling for metformin treatment, we report a unified signature of gut microbiome shifts in T2D with a depletion of butyrate-producing taxa (3, 4). These in turn cause functional microbiome shifts, in part alleviated by metformin-induced changes. Overall, the present study emphasizes the need to disentangle gut microbiota signatures of specific human diseases from those of medication., T2D is a disorder of elevated blood glucose levels (hyperglycaemia) primarily due to insulin resistance and inadequate insulin secretion, with rising global prevalence. Genetic and environmental risk factors are known, [...]
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- 2015
20. 440: STANDARDIZED FECAL MICROBIOTA TRANSPLANTATION THROUGH MICROBIOME-GUIDED DONOR SELECTION IN ACTIVE ULCERATIVE COLITIS PATIENTS: A RANDOMIZED, PLACEBO-CONTROLLED INTERVENTION STUDY
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Deleu, Sara, primary, Caenepeel, Clara, additional, Arnauts, Kaline, additional, Castellanos, Jorge Francisco Vazquez, additional, Braekeleire, Sara, additional, Machiels, Kathleen, additional, Baert, Filip J., additional, Mana, Fazia, additional, Pouillon, Lieven, additional, Hindryckx, Pieter, additional, Lobaton, Triana, additional, Louis, Edouard, additional, Franchimont, Denis, additional, Ferrante, Marc, additional, Sabino, João, additional, Vieira-Silva, Sara, additional, Falony, Gwen, additional, Raes, Jeroen, additional, and Vermeire, Severine, additional
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- 2022
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21. The virota and its transkingdom interactions in the healthy infant gut
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Beller, Leen, primary, Deboutte, Ward, additional, Vieira-Silva, Sara, additional, Falony, Gwen, additional, Tito, Raul Yhossef, additional, Rymenans, Leen, additional, Yinda, Claude Kwe, additional, Vanmechelen, Bert, additional, Van Espen, Lore, additional, Jansen, Daan, additional, Shi, Chenyan, additional, Zeller, Mark, additional, Maes, Piet, additional, Faust, Karoline, additional, Van Ranst, Marc, additional, Raes, Jeroen, additional, and Matthijnssens, Jelle, additional
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- 2022
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22. Additional file 3 of Effect of cryopreservation medium conditions on growth and isolation of gut anaerobes from human faecal samples
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Biclot, Anaïs, Huys, Geert R. B., Bacigalupe, Rodrigo, D’hoe, Kevin, Vandeputte, Doris, Falony, Gwen, Tito, Raul Y., and Raes, Jeroen
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fluids and secretions ,digestive, oral, and skin physiology - Abstract
Additional file 2: Figure S2: Spearman correlation heatmap of the faecal variables, no significance was observed.
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- 2022
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23. Additional file 4 of Effect of cryopreservation medium conditions on growth and isolation of gut anaerobes from human faecal samples
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Biclot, Anaïs, Huys, Geert R. B., Bacigalupe, Rodrigo, D’hoe, Kevin, Vandeputte, Doris, Falony, Gwen, Tito, Raul Y., and Raes, Jeroen
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Additional file 3: Figure S3: Proportion of taxa per total sequence per preservation conditions at species and genus level.
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- 2022
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24. Additional file 11 of Effect of cryopreservation medium conditions on growth and isolation of gut anaerobes from human faecal samples
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Biclot, Anaïs, Huys, Geert R. B., Bacigalupe, Rodrigo, D’hoe, Kevin, Vandeputte, Doris, Falony, Gwen, Tito, Raul Y., and Raes, Jeroen
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Additional file 10: Supplementary Table S7: Summary of the number of isolates and the number of recovered sequences from 16S rDNA sequencing of the isolates per individual and preservation condition.
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- 2022
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25. Additional file 6 of Effect of cryopreservation medium conditions on growth and isolation of gut anaerobes from human faecal samples
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Biclot, Anaïs, Huys, Geert R. B., Bacigalupe, Rodrigo, D’hoe, Kevin, Vandeputte, Doris, Falony, Gwen, Tito, Raul Y., and Raes, Jeroen
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Additional file 5: Supplementary Table S2: Cell counts of the cultured fractions for each individual and each preservation condition.
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- 2022
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26. Impairment of gut microbial biotin metabolism and host biotin status in severe obesity:effect of biotin and prebiotic supplementation on improved metabolism
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Belda, Eugeni, Voland, Lise, Tremaroli, Valentina, Falony, Gwen, Adriouch, Solia, Assmann, Karen E., Prifiti, Edi, Aron-Wisnewsky, Judith, Debedat, Jean, Le Roy, Tiphaine, Nielsen, Trine, Amouyal, Chloe, Andre, Sebastien, Andreelli, Fabrizio, Blueher, Matthias, Chakaroun, Rima, Chilloux, Julien, Coelho, Luis Pedro, Dao, Maria Carlota, Das, Promi, Fellahi, Soraya, Forslund, Sofia, Galleron, Nathalie, Hansen, Tue H., Holmes, Bridget, Ji, Boyang, Pedersen, Helle Krogh, Phuong Le, Le Chatelier, Emmanuelle, Lewinter, Christian, Manneras-Holm, Louise, Marquet, Florian, Myridakis, Antonis, Pelloux, Veronique, Pons, Nicolas, Quinquis, Benoit, Rouault, Christine, Roume, Hugo, Salem, Joe-Elie, Sokolovska, Nataliya, Søndertoft, Nadja B., Touch, Sothea, Vieira-Silva, Sara, Galan, Pilar, Holst, Jens, Gøtze, Jens Peter, Køber, Lars, Vestergaard, Henrik, Hansen, Torben, Hercberg, Serge, Oppert, Jean-Michel, Nielsen, Jens, Letunic, Ivica, Dumas, Marc-Emmanuel, Stumvoll, Michael, Pedersen, Oluf Borbye, Bork, Peer, Ehrlich, Stanislav Dusko, Zucker, Jean-Daniel, Baeckhed, Fredrik, Raes, Jeroen, Clement, Karine, Commission of the European Communities, Medical Research Council (MRC), Unité de Recherche sur les Maladies Cardiovasculaires, du Métabolisme et de la Nutrition = Research Unit on Cardiovascular and Metabolic Diseases [IHU ICAN], Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Sorbonne Université (SU)-Institut de Cardiométabolisme et Nutrition = Institute of Cardiometabolism and Nutrition [CHU Pitié Salpêtrière] (IHU ICAN), CHU Pitié-Salpêtrière [AP-HP], Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Sorbonne Université (SU)-Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Sorbonne Université (SU)-CHU Pitié-Salpêtrière [AP-HP], Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Sorbonne Université (SU), Nutrition et obésités: approches systémiques (UMR-S 1269) (Nutriomics), Institut National de la Santé et de la Recherche Médicale (INSERM)-Sorbonne Université (SU), Inst Med, Dept Mol & Clin Med, Wallenberg Lab, University of Gothenburg (GU), Catholic University of Leuven - Katholieke Universiteit Leuven (KU Leuven), Centre de Recherche Épidémiologie et Statistique Sorbonne Paris Cité (CRESS (U1153 / UMR_A_1125 / UMR_S_1153)), Institut National de la Recherche Agronomique (INRA)-Université Paris Diderot - Paris 7 (UPD7)-Université Paris Descartes - Paris 5 (UPD5)-Université Sorbonne Paris Cité (USPC)-Institut National de la Santé et de la Recherche Médicale (INSERM), Université Sorbonne Paris Cité (COMUE) (USPC), MetaGenoPolis, Institut National de la Recherche Agronomique (INRA), Unité de Recherche sur les Maladies Cardiovasculaires, du Métabolisme et de la Nutrition = Institute of cardiometabolism and nutrition (ICAN), Université Pierre et Marie Curie - Paris 6 (UPMC)-Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Institut National de la Santé et de la Recherche Médicale (INSERM)-CHU Pitié-Salpêtrière [AP-HP], Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Sorbonne Université (SU)-Sorbonne Université (SU), Service de Nutrition [CHU Pitié-Salpétrière], Institut E3M [CHU Pitié-Salpêtrière], Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Sorbonne Université (SU)-Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Sorbonne Université (SU), Université de Bordeaux (UB), Novo Nordisk Foundation Center for Basic Metabolic Research (CBMR), Faculty of Health and Medical Sciences, University of Copenhagen = Københavns Universitet (UCPH)-University of Copenhagen = Københavns Universitet (UCPH), Service de Diabétologie [CHU Pitié-Salpétrière], Laboratoire de chimie Macromoléculaire (CNRS UMR 5076), Ecole Nationale Supérieure de Chimie de Montpellier (ENSCM), Institut Cochin (IC UM3 (UMR 8104 / U1016)), Université Paris Descartes - Paris 5 (UPD5)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS), Universität Leipzig [Leipzig], Keck School of Medicine [Los Angeles], University of Southern California (USC), Nutrition et cerveau (U1213, U855), Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Institut National de la Santé et de la Recherche Médicale (INSERM), Instituto de Medicina Molecular, Metabolic functional (epi)genomics and molecular mechanisms involved in type 2 diabetes and related diseases - UMR 8199 - UMR 1283 (EGENODIA (GI3M)), Institut Pasteur de Lille, Réseau International des Instituts Pasteur (RIIP)-Réseau International des Instituts Pasteur (RIIP)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Université de Lille-Centre National de la Recherche Scientifique (CNRS), Imperial College London - National Heart and Lung Institute, and Division of Computational and Systems Medicine, Imperial College London, London, SW7 2AZ, UK
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EXPRESSION ,[SDV]Life Sciences [q-bio] ,Biotin ,Endocrinology and Diabetes ,Microbiology ,DIET ,Mice ,Humans ,Animals ,Obesity ,CHROMIUM PICOLINATE ,Inflammation ,Science & Technology ,OVERWEIGHT ,Gastroenterology & Hepatology ,Gastroenterology ,1103 Clinical Sciences ,Gastrointestinal Microbiome ,Obesity, Morbid ,MetaCardis Consortium ,Mice, Inbred C57BL ,nutrition ,Prebiotics ,Diabetes Mellitus, Type 2 ,Cardiovascular and Metabolic Diseases ,micronutrients ,Other Clinical Medicine ,diabetes mellitus ,Vitamin B Complex ,1114 Paediatrics and Reproductive Medicine ,intestinal bacteria ,HEALTH ,Life Sciences & Biomedicine - Abstract
ObjectivesGut microbiota is a key component in obesity and type 2 diabetes, yet mechanisms and metabolites central to this interaction remain unclear. We examined the human gut microbiome’s functional composition in healthy metabolic state and the most severe states of obesity and type 2 diabetes within the MetaCardis cohort. We focused on the role of B vitamins and B7/B8 biotin for regulation of host metabolic state, as these vitamins influence both microbial function and host metabolism and inflammation.DesignWe performed metagenomic analyses in 1545 subjects from the MetaCardis cohorts and different murine experiments, including germ-free and antibiotic treated animals, faecal microbiota transfer, bariatric surgery and supplementation with biotin and prebiotics in mice.ResultsSevere obesity is associated with an absolute deficiency in bacterial biotin producers and transporters, whose abundances correlate with host metabolic and inflammatory phenotypes. We found suboptimal circulating biotin levels in severe obesity and altered expression of biotin-associated genes in human adipose tissue. In mice, the absence or depletion of gut microbiota by antibiotics confirmed the microbial contribution to host biotin levels. Bariatric surgery, which improves metabolism and inflammation, associates with increased bacterial biotin producers and improved host systemic biotin in humans and mice. Finally, supplementing high-fat diet-fed mice with fructo-oligosaccharides and biotin improves not only the microbiome diversity, but also the potential of bacterial production of biotin and B vitamins, while limiting weight gain and glycaemic deterioration.ConclusionStrategies combining biotin and prebiotic supplementation could help prevent the deterioration of metabolic states in severe obesity.Trial registration numberNCT02059538.
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- 2022
27. Additional file 7 of Effect of cryopreservation medium conditions on growth and isolation of gut anaerobes from human faecal samples
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Biclot, Anaïs, Huys, Geert R. B., Bacigalupe, Rodrigo, D’hoe, Kevin, Vandeputte, Doris, Falony, Gwen, Tito, Raul Y., and Raes, Jeroen
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Additional file 6: Supplementary Table S3: Cumulative and independent contribution of metadata variables to community variation of the cultured fractions (dbRDA and stepwise dbRDA; FDR by Benjamini-Hochberg) in the cohort (n=129). Cumulative explanatory power and significance level of the included variables are reported.
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- 2022
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28. Additional file 5 of Effect of cryopreservation medium conditions on growth and isolation of gut anaerobes from human faecal samples
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Biclot, Anaïs, Huys, Geert R. B., Bacigalupe, Rodrigo, D’hoe, Kevin, Vandeputte, Doris, Falony, Gwen, Tito, Raul Y., and Raes, Jeroen
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Additional file 4: Supplementary Table S1: Gradients in physicochemical and biological parameters of the 11 donor samples.
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- 2022
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29. Additional file 2 of Effect of cryopreservation medium conditions on growth and isolation of gut anaerobes from human faecal samples
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Biclot, Anaïs, Huys, Geert R. B., Bacigalupe, Rodrigo, D’hoe, Kevin, Vandeputte, Doris, Falony, Gwen, Tito, Raul Y., and Raes, Jeroen
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Additional file 1: Figure S1: Distribution of gradients among the 51 samples, selected samples are coloured.
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- 2022
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30. Additional file 9 of Effect of cryopreservation medium conditions on growth and isolation of gut anaerobes from human faecal samples
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Biclot, Anaïs, Huys, Geert R. B., Bacigalupe, Rodrigo, D’hoe, Kevin, Vandeputte, Doris, Falony, Gwen, Tito, Raul Y., and Raes, Jeroen
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Additional file 8: Supplementary Table S5: Relative abundances of genera detected in feacal and cultured fractions samples in culture-independent (faecal) and cultured fractions per preservation conditions (P1 to P4).
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- 2022
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31. FLEXiGUT: Rationale for exposomics associations with chronic low-grade gut inflammation
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Pero-Gascon, Roger, primary, Hemeryck, Lieselot Y., additional, Poma, Giulia, additional, Falony, Gwen, additional, Nawrot, Tim S., additional, Raes, Jeroen, additional, Vanhaecke, Lynn, additional, De Boevre, Marthe, additional, Covaci, Adrian, additional, and De Saeger, Sarah, additional
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- 2022
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32. Successional Stages in Infant Gut Microbiota Maturation
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Beller, Leen, primary, Deboutte, Ward, additional, Falony, Gwen, additional, Vieira-Silva, Sara, additional, Tito, Raul Yhossef, additional, Valles-Colomer, Mireia, additional, Rymenans, Leen, additional, Jansen, Daan, additional, Van Espen, Lore, additional, Papadaki, Maria Ioanna, additional, Shi, Chenyan, additional, Yinda, Claude Kwe, additional, Zeller, Mark, additional, Faust, Karoline, additional, Van Ranst, Marc, additional, Raes, Jeroen, additional, and Matthijnssens, Jelle, additional
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- 2021
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33. Interindividual differences in response to treatment with butyrate-producing Butyricicoccus pullicaecorum 25–3T studied in an in vitro gut model
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Geirnaert, Annelies, Wang, Jun, Tinck, Magali, Steyaert, Alix, Van den Abbeele, Pieter, Eeckhaut, Venessa, Vilchez-Vargas, Ramiro, Falony, Gwen, Laukens, Debby, De Vos, Martine, Van Immerseel, Filip, Raes, Jeroen, Boon, Nico, Van de Wiele, Tom, and Marchesi, Julian R.
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- 2015
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34. Perspectives and pitfalls of microbiome research through home based fecal sampling: the Flemish Gut Flora Project experience
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Vandeputte, Doris, Vanleeuwen, Rianne, Falony, Gwen, Joossens, Marie, and Raes, Jeroen
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- 2015
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35. Additional file 2 of Novel insights into the genetically obese (ob/ob) and diabetic (db/db) mice: two sides of the same coin
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Suriano, Francesco, Vieira-Silva, Sara, Falony, Gwen, Roumain, Martin, Paquot, Adrien, Pelicaen, Rudy, Régnier, Marion, Delzenne, Nathalie M., Raes, Jeroen, Muccioli, Giulio G., Van Hul, Matthias, and Cani, Patrice D.
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Additional file 1: Table S1. RT-qPCR primer sequences for the targeted mouse genes.
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- 2021
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36. Additional file 7 of Novel insights into the genetically obese (ob/ob) and diabetic (db/db) mice: two sides of the same coin
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Suriano, Francesco, Vieira-Silva, Sara, Falony, Gwen, Roumain, Martin, Paquot, Adrien, Pelicaen, Rudy, Régnier, Marion, Delzenne, Nathalie M., Raes, Jeroen, Muccioli, Giulio G., Van Hul, Matthias, and Cani, Patrice D.
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Additional file 6: Table S3. Taxa-metabolic parameters associations. Spearman correlation between bacterial genera and selected metabolic parameters. Genera whose prevalence was less than 15% of the samples were excluded. Multiple testing correction was performed (Benjamini-Hochberg method).
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- 2021
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37. Richness of human gut microbiome correlates with metabolic markers
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Le Chatelier, Emmanuelle, Nielsen, Trine, Qin, Junjie, Prifti, Edi, Hildebrand, Falk, Falony, Gwen, Almeida, Mathieu, Arumugam, Manimozhiyan, Batto, Jean-Michel, Kennedy, Sean, Leonard, Pierre, Li, Junhua, Burgdorf, Kristoffer, Grarup, Niels, Jørgensen, Torben, Brandslund, Ivan, Nielsen, Henrik Bjørn, Juncker, Agnieszka S., Bertalan, Marcelo, Levenez, Florence, Pons, Nicolas, Rasmussen, Simon, Sunagawa, Shinichi, Tap, Julien, Tims, Sebastian, Zoetendal, Erwin G., Brunak, Søren, Clément, Karine, Doré, Joël, Kleerebezem, Michiel, Kristiansen, Karsten, Renault, Pierre, Sicheritz-Ponten, Thomas, de Vos, Willem M., Zucker, Jean-Daniel, Raes, Jeroen, Hansen, Torben, Bork, Peer, Wang, Jun, Ehrlich, S. Dusko, and Pedersen, Oluf
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- 2013
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38. Imidazole propionate is increased in diabetes and associated with dietary patterns and altered microbial ecology
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Bel Lassen, Pierre, Nielsen, Trine, Bergh, Per-Olof, Rouault, Christine, André, Sébastien, Marquet, Florian, Andreelli, Fabrizio, Salem, Joe-Elie, Assmann, Karen, Bastard, Jean-Philippe, Forslund, Sofia, Le Chatelier, Emmanuelle, Falony, Gwen, Pons, Nicolas, Prifti, Edi, Quinquis, Benoit, Roume, Hugo, Vieira-Silva, Sara, Hansen, Tue, Pedersen, Helle Krogh, Lewinter, Christian, Sønderskov, Nadja, Vestergaard, Henrik, Raes, Jeroen, Nielsen, Jens, Bork, Peer, Ehrlich, S. Dusko, Pedersen, Oluf, Aron-Wisneswky, Judith, Clément, Karine, Bäckhed, Fredrik, Molinaro, Antonio, Lassen, Pierre, Henricsson, Marcus, Wu, Hao, Adriouch, Solia, Belda, Eugeni, Chakaroun, Rima, Nielse, Trine, Bergh, Christine, Rouault, Sébastien, Andr, Florian, Marquet, Fabrizio, Andreelli, Joe-Elie, Salem, Karen, Assmann, Jean-Philippe, Bastard, Sofia, Forslund, Emmanuelle, Le Chatelier, Gwen, Falon, Nicolas, Pons, Edi, Prift, Benoit, Quinquis, Hugo, Roume, Sara, Vieira-Silv, Tue, Hansen, Krogh, Pedersen, Christian, Lewinter, Nadja, The, Metacardis, Køber, Lars, Vestergaar, Henrik, Hansen, Torben, Zucker, Jean-Daniel, Galan, Pilar, Dumas, Marc-Emmanuel, Rae, Jeroen, Oppert, Jean-Michel, Letunic, Ivica, Nielse, Jens, Ehrlic, S, Stumvoll, Michael, Pederse, Oluf, Aron-Wisnewsky, Judith, Bäckhe, Fredrik, Sahlgrenska Center for Cardiovascular and Metabolic Research, Partenaires INRAE, Sahlgrenska University Hospital, Nutrition et obésités: approches systémiques (nutriomics) (UMR-S 1269 INSERM - Sorbonne Université), Institut National de la Santé et de la Recherche Médicale (INSERM)-Sorbonne Université (SU), Centre de Recherche en Nutrition Humaine d'Ile-de-France (CRNH-IDF), Institut de Veille Sanitaire (INVS)-Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Conservatoire National des Arts et Métiers [CNAM] (CNAM)-Institut National Agronomique Paris-Grignon (INA P-G)-CETAF-Institut National de la Santé et de la Recherche Médicale (INSERM)-Sorbonne Université (SU)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE)-Université Sorbonne Paris Nord, Unité de Recherche sur les Maladies Cardiovasculaires, du Métabolisme et de la Nutrition = Institute of cardiometabolism and nutrition (ICAN), Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Institut National de la Santé et de la Recherche Médicale (INSERM)-CHU Pitié-Salpêtrière [AP-HP], Sorbonne Université-Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Sorbonne Université-Sorbonne Université (SU), Medical Department III – Endocrinology, Nephrology, Rheumatology, Universität Leipzig [Leipzig], Novo Nordisk Foundation Center for Basic Metabolic Research (CBMR), Faculty of Health and Medical Sciences, University of Copenhagen = Københavns Universitet (KU)-University of Copenhagen = Københavns Universitet (KU), Centre d'Investigation Clinique de Paris Est, Institut National de la Santé et de la Recherche Médicale (INSERM), AP-HP Hôpital Tenon [Paris], Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP), Experimental and Clinical Research Center [Berlin, Germany], Max Delbrück Center for Molecular Medicine [Berlin] (MDC), Helmholtz-Gemeinschaft = Helmholtz Association-Helmholtz-Gemeinschaft = Helmholtz Association-Charité - Universitätsmedizin Berlin / Charite - University Medicine Berlin, MICrobiologie de l'ALImentation au Service de la Santé (MICALIS), AgroParisTech-Université Paris-Saclay-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), Department of Microbiology and Immunology, Rega Institute for Medical Research, Laboratory of Molecular Bacteriology, Université Catholique de Louvain (UCL), VIB-KU Leuven Center for Microbiology [Belgium], Catholic University of Leuven - Katholieke Universiteit Leuven (KU Leuven), Unité de modélisation mathématique et informatique des systèmes complexes [Bondy] (UMMISCO), Sorbonne Université (SU)-Universtié Yaoundé 1 [Cameroun]-Université Cadi Ayyad [Marrakech] (UCA)-Université Gaston Bergé (Saint-Louis, Sénégal)-Université Cheikh Anta Diop [Dakar, Sénégal] (UCAD)-Institut de la francophonie pour l'informatique-Institut de Recherche pour le Développement (IRD [France-Nord]), Equipe 3: EREN- Equipe de Recherche en Epidémiologie Nutritionnelle (CRESS - U1153), Centre de Recherche Épidémiologie et Statistique Sorbonne Paris Cité (CRESS (U1153 / UMR_A_1125 / UMR_S_1153)), Conservatoire National des Arts et Métiers [CNAM] (CNAM)-Université Sorbonne Paris Cité (USPC)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Université de Paris (UP)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE)-Conservatoire National des Arts et Métiers [CNAM] (CNAM)-Université Sorbonne Paris Cité (USPC)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Université de Paris (UP)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), Department of Metabolism, Digestion and Reproduction, Imperial College London, National Heart and Lung Institute [London] (NHLI), Royal Brompton and Harefield NHS Foundation Trust-Imperial College London, Centre de Recherche en Nutrition Humaine - Ile de France (CRNH - IDF), Biobyte Solutions GMBH, Nutrition et obésités: approches systémiques (UMR-S 1269) (Nutriomics), Institut de Veille Sanitaire (INVS)-Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Conservatoire National des Arts et Métiers [CNAM] (CNAM), HESAM Université - Communauté d'universités et d'établissements Hautes écoles Sorbonne Arts et métiers université (HESAM)-HESAM Université - Communauté d'universités et d'établissements Hautes écoles Sorbonne Arts et métiers université (HESAM)-Institut National Agronomique Paris-Grignon (INA P-G)-CETAF-Institut National de la Santé et de la Recherche Médicale (INSERM)-Sorbonne Université (SU)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE)-Université Sorbonne Paris Nord, University of Copenhagen = Københavns Universitet (UCPH)-University of Copenhagen = Københavns Universitet (UCPH), Sahlgrenska Academy at University of Gothenburg [Göteborg], CHU Tenon [AP-HP], Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Sorbonne Université (SU), Helmholtz-Gemeinschaft = Helmholtz Association-Helmholtz-Gemeinschaft = Helmholtz Association-Charité - UniversitätsMedizin = Charité - University Hospital [Berlin], Helmholtz-Gemeinschaft = Helmholtz Association, Charité - UniversitätsMedizin = Charité - University Hospital [Berlin], Rega Institute for Medical Research [Leuven, België], Unité de Recherche sur les Maladies Cardiovasculaires, du Métabolisme et de la Nutrition = Research Unit on Cardiovascular and Metabolic Diseases (ICAN), Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Sorbonne Université (SU)-Institut de Cardiométabolisme et Nutrition = Institute of Cardiometabolism and Nutrition [CHU Pitié Salpêtrière] (IHU ICAN), CHU Pitié-Salpêtrière [AP-HP], Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Sorbonne Université (SU)-Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Sorbonne Université (SU)-CHU Pitié-Salpêtrière [AP-HP], Université de Yaoundé I-Institut de la francophonie pour l'informatique-Université Cheikh Anta Diop [Dakar, Sénégal] (UCAD)-Université Gaston Bergé (Saint-Louis, Sénégal)-Université Cadi Ayyad [Marrakech] (UCA)-Sorbonne Université (SU)-Institut de Recherche pour le Développement (IRD [France-Nord]), Chalmers University of Technology [Göteborg], European Molecular Biology Laboratory [Heidelberg] (EMBL), Université Sorbonne Paris Nord-Centre de Recherche Épidémiologie et Statistique Sorbonne Paris Cité (CRESS (U1153 / UMR_A_1125 / UMR_S_1153)), Conservatoire National des Arts et Métiers [CNAM] (CNAM), HESAM Université - Communauté d'universités et d'établissements Hautes écoles Sorbonne Arts et métiers université (HESAM)-HESAM Université - Communauté d'universités et d'établissements Hautes écoles Sorbonne Arts et métiers université (HESAM)-Université Sorbonne Paris Cité (USPC)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Université Paris Cité (UPCité)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE)-Conservatoire National des Arts et Métiers [CNAM] (CNAM), HESAM Université - Communauté d'universités et d'établissements Hautes écoles Sorbonne Arts et métiers université (HESAM)-HESAM Université - Communauté d'universités et d'établissements Hautes écoles Sorbonne Arts et métiers université (HESAM)-Université Sorbonne Paris Cité (USPC)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Université Paris Cité (UPCité)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), Imperial College London-Royal Brompton and Harefield NHS Foundation Trust, HAL-SU, Gestionnaire, Conservatoire National des Arts et Métiers [CNAM] (CNAM)-Institut de Veille Sanitaire (INVS)-Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Université Sorbonne Paris Nord-Institut National Agronomique Paris-Grignon (INA P-G)-Sorbonne Université (SU)-CETAF-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE)-Institut National de la Santé et de la Recherche Médicale (INSERM), Sorbonne Université (SU)-Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP), Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Sorbonne Université (SU)-Sorbonne Université (SU), Institut de Recherche pour le Développement (IRD [France-Nord])-Institut de la francophonie pour l'informatique-Université Cheikh Anta Diop [Dakar, Sénégal] (UCAD)-Université Gaston Bergé (Saint-Louis, Sénégal)-Université Cadi Ayyad [Marrakech] (UCA)-Université de Yaoundé I-Sorbonne Université (SU), Charité - Universitätsmedizin Berlin / Charite - University Medicine Berlin, Auteur indépendant, Commission of the European Communities, and Universität Leipzig
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0301 basic medicine ,Male ,ACCURATE METHOD ,endocrine system diseases ,Metabolite ,[SDV]Life Sciences [q-bio] ,General Physics and Astronomy ,Type 2 diabetes ,GUT MICROBIOME ,GLUCOSE ,Cohort Studies ,chemistry.chemical_compound ,0302 clinical medicine ,Endocrinology ,[CHIM] Chemical Sciences ,Prediabetes ,lcsh:Science ,2. Zero hunger ,RISK ,Multidisciplinary ,biology ,INSULIN SENSITIVITY ,Imidazoles ,HOMEOSTASIS MODEL ASSESSMENT ,Middle Aged ,3. Good health ,Multidisciplinary Sciences ,[SDV] Life Sciences [q-bio] ,030220 oncology & carcinogenesis ,Science & Technology - Other Topics ,Enterotype ,Female ,Adult ,medicine.medical_specialty ,Science ,Carbohydrate metabolism ,Microbiology ,digestive system ,Article ,General Biochemistry, Genetics and Molecular Biology ,03 medical and health sciences ,INTESTINAL MICROBIOTA ,Internal medicine ,medicine ,Humans ,[CHIM]Chemical Sciences ,Histidine ,Author Correction ,PHYSIOLOGY ,Aged ,Science & Technology ,Bacteria ,General Chemistry ,Metabolism ,medicine.disease ,biology.organism_classification ,Gastrointestinal Microbiome ,MetaCardis Consortium ,METAGENOME ,INDIVIDUALS ,030104 developmental biology ,chemistry ,Diabetes Mellitus, Type 2 ,Cardiovascular and Metabolic Diseases ,lcsh:Q ,Bacteroides - Abstract
Microbiota-host-diet interactions contribute to the development of metabolic diseases. Imidazole propionate is a novel microbially produced metabolite from histidine, which impairs glucose metabolism. Here, we show that subjects with prediabetes and diabetes in the MetaCardis cohort from three European countries have elevated serum imidazole propionate levels. Furthermore, imidazole propionate levels were increased in subjects with low bacterial gene richness and Bacteroides 2 enterotype, which have previously been associated with obesity. The Bacteroides 2 enterotype was also associated with increased abundance of the genes involved in imidazole propionate biosynthesis from dietary histidine. Since patients and controls did not differ in their histidine dietary intake, the elevated levels of imidazole propionate in type 2 diabetes likely reflects altered microbial metabolism of histidine, rather than histidine intake per se. Thus the microbiota may contribute to type 2 diabetes by generating imidazole propionate that can modulate host inflammation and metabolism., Gut microbial metabolism of nutrients contributes to metabolic diseases, and the histidine metabolite imidazole propionate (ImP) is produced by type 2 diabetes (T2D) associated microbiome. Here the authors report that circulating ImP levels are increased in subjects with prediabetes or T2D in three European populations, and this increase associates with altered gut microbiota rather than dietary histidine.
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- 2020
39. Mo1810 BASELINE RNA AND MICROBIOTA SIGNATURES ARE ASSOCIATED WITH RESPONSE AND GENERAL DECREASE IN BACTEROIDES-2 ENTEROTYPE AFTER FMT IN UC
- Author
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Deleu, Sara, Caenepeel, Clara, Verstockt, Sare, Castellanos, Jorge Francisco Vazquez, Arnauts, Kaline, Braekeleire, Sara, Machiels, Kathleen, Baert, Filip J., Pouillon, Lieven, Hindryckx, Pieter, Lobaton, Triana, Louis, Edouard, Franchimont, Denis, Verstockt, Bram, Ferrante, Marc, Sabino, João, Vieira-Silva, Sara, Falony, Gwen, Raes, Jeroen, and Vermeire, Séverine
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- 2023
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40. A metagenome-wide association study of gut microbiota in type 2 diabetes
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Qin, Junjie, Li, Yingrui, Cai, Zhiming, Li, Shenghui, Zhu, Jianfeng, Zhang, Fan, Liang, Suisha, Zhang, Wenwei, Guan, Yuanlin, Shen, Dongqian, Peng, Yangqing, Zhang, Dongya, Jie, Zhuye, Wu, Wenxian, Qin, Youwen, Xue, Wenbin, Li, Junhua, Han, Lingchuan, Lu, Donghui, Wu, Peixian, Dai, Yali, Sun, Xiaojuan, Li, Zesong, Tang, Aifa, Zhong, Shilong, Li, Xiaoping, Chen, Weineng, Xu, Ran, Wang, Mingbang, Feng, Qiang, Gong, Meihua, Yu, Jing, Zhang, Yanyan, Zhang, Ming, Hansen, Torben, Sanchez, Gaston, Raes, Jeroen, Falony, Gwen, Okuda, Shujiro, Almeida, Mathieu, LeChatelier, Emmanuelle, Renault, Pierre, Pons, Nicolas, Batto, Jean-Michel, Zhang, Zhaoxi, Chen, Hua, Yang, Ruifu, Zheng, Weimou, Li, Songgang, Yang, Huanming, Wang, Jian, Ehrlich, Dusko S., Nielsen, Rasmus, Pedersen, Oluf, Kristiansen, Karsten, and Wang, Jun
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- 2012
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41. Correction: Integrated culturing, modeling and transcriptomics uncovers complex interactions and emergent behavior in a three-species synthetic gut community
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D'hoe, Kevin, primary, Vet, Stefan, additional, Faust, Karoline, additional, Moens, Frédéric, additional, Falony, Gwen, additional, Gonze, Didier, additional, Lloréns-Rico, Verónica, additional, Gelens, Lendert, additional, Danckaert, Jan, additional, De Vuyst, Luc, additional, and Raes, Jeroen, additional
- Published
- 2019
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42. The human microbiome in health and disease: hype or hope
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Falony, Gwen, primary, Vandeputte, Doris, additional, Caenepeel, Clara, additional, Vieira-Silva, Sara, additional, Daryoush, Tanine, additional, Vermeire, Séverine, additional, and Raes, Jeroen, additional
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- 2019
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43. Butyrate Producers as Potential Next-Generation Probiotics: Safety Assessment of the Administration of Butyricicoccus pullicaecorum to Healthy Volunteers
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Boesmans, Leen, primary, Valles-Colomer, Mireia, additional, Wang, Jun, additional, Eeckhaut, Venessa, additional, Falony, Gwen, additional, Ducatelle, Richard, additional, Van Immerseel, Filip, additional, Raes, Jeroen, additional, and Verbeke, Kristin, additional
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- 2018
- Full Text
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44. Integrated culturing, modeling and transcriptomics uncovers complex interactions and emergent behavior in a three-species synthetic gut community
- Author
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D'hoe, Kevin, primary, Vet, Stefan, additional, Faust, Karoline, additional, Moens, Frédéric, additional, Falony, Gwen, additional, Gonze, Didier, additional, Lloréns-Rico, Verónica, additional, Gelens, Lendert, additional, Danckaert, Jan, additional, De Vuyst, Luc, additional, and Raes, Jeroen, additional
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- 2018
- Full Text
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45. Corrigendum:Disentangling type 2 diabetes and metformin treatment signatures in the human gut microbiota
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Forslund, Kristoffer, Hildebrand, Falk, Nielsen, Trine, Falony, Gwen, Le Chatelier, Emmanuelle, Sunagawa, Shinichi, Prifti, Edi, Vieira-Silva, Sara, Gudmundsdottir, Valborg, Pedersen, Helle Krogh, Arumugam, Manimozhiyan, Kristiansen, Karsten, Voigt, Anita Yvonne, Vestergaard, Henrik, Hercog, Rajna, Costea, Paul Igor, Kultima, Jens Roat, Li, Junhua, Jørgensen, Torben, Levenez, Florence, Doré, Joël, Nielsen, Henrik Bjørn, Brunak, Søren, Raes, Jeroen, Hansen, Torben, Wang, Jun, Ehrlich, S. Dusko, Bork, Peer, and Pedersen, Oluf
- Subjects
0301 basic medicine ,Multidisciplinary ,Serum insulin ,Type 2 diabetes ,Biology ,medicine.disease ,Bioinformatics ,Affect (psychology) ,Phenotype ,03 medical and health sciences ,030104 developmental biology ,Human gut ,medicine ,Journal Article ,Metformin treatment ,Glycated haemoglobin - Abstract
Nature 528, 262–266 (2015); doi:10.1038/nature15766 In the Supplementary Information to this Letter, data from two previous studies were used in the meta-analysis. However, the unit conversions used to make the data comparable were inconsistent for two of the included phenotype measures. Although this error does not affect the data used to generate the conclusions of the Letter, it might affect follow-up studies using the glycated haemoglobin (HbA1c) and serum insulin phenotypes.
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- 2017
46. Prebiotic Wheat Bran Fractions Induce Specific Microbiota Changes
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D’hoe, Kevin, primary, Conterno, Lorenza, additional, Fava, Francesca, additional, Falony, Gwen, additional, Vieira-Silva, Sara, additional, Vermeiren, Joan, additional, Tuohy, Kieran, additional, and Raes, Jeroen, additional
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- 2018
- Full Text
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47. Meta-omics in IBD research: applications, challenges and guidelines
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Vallès-Colomer, Mireia, El Darzi, Youssef, Vieira-Silva, Sara, Falony, Gwen, Joossens, Marie, and Raes, Jeroen
- Abstract
Meta-omics (metagenomics, metatranscriptomics and metaproteomics) are rapidly expanding our knowledge of the gut microbiota in health and disease. These technologies are increasingly used in IBD research. Yet, meta-omics data analysis, interpretation, and among-study comparison remain challenging. In this review we discuss the role these techniques are playing in IBD research, highlighting their strengths and limitations. We give guidelines on proper sample collection and preparation methods, and on performing the analyses and interpreting the results, reporting available user-friendly tools and pipelines. ispartof: Journal of Crohns & Colitis vol:10 issue:6 pages:735-746 ispartof: location:England status: published
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- 2016
48. In vitro kinetics of prebiotic inulin-type fructan fermentation by butyrate-producing colon bacteria: implementation of online gas chromatography for quantitative analysis of carbon dioxide and hydrogen gas production
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Falony, Gwen, Verschaeren, An, DE Bruycker, Feije, De Preter, Vicky, Verbeke, Kristin, Leroy, Frederic, and De Vuyst, Luc
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Carbon dioxide -- Environmental aspects ,Fermentation -- Analysis ,Gas chromatography -- Usage ,Intestines -- Microbiology ,Intestines -- Research ,Biological sciences - Abstract
The kinetics of inulin-type fructan degradation is examined by representatives of the genera Anaerostipes and Roseburia and a method based on online gas chromatography (GC) is developed for assessing gas production in a continuously sparged fermentation vessel for complete coverage of metabolite production. The complete recovery of metabolites during fermentations of Clostridial cluster XIVa butyrate-producing colon bacteria has allowed stoichiometric balancing of the metabolite pathway for butyrate production, including the formation of [H.sub.2].
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- 2009
49. Coculture fermentations of Bifidobacterium species and Bacteriodes thetaiotaomicron reveal a mechanistic insight into the prebiotic effect of inuline-type fructans
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Falony, Gwen, Calmeyn, Thomas, Leroy, Frederic, and Vuyst, Luc De
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Bifidobacterium -- Genetic aspects ,Bifidobacterium -- Physiological aspects ,Fructose -- Chemical properties ,Inulin -- Chemical properties ,Biological sciences - Abstract
An in vitro competitiveness trials with bifidobacterial strains belonging to the different phenotypical clusters are designed to study the fructan degradation capacity of B. thetaiotaomicron LMG 11262 growing on oligofructose or inulin. The results indicated that different groups of inulin-type-fructan prebiotics might stimulate distinct subgroups of the large-intestinal Bifidobacterium population, a variation that could be reflected in differences concerning their health-promoting effects.
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- 2009
50. In vitro kinetic analysis of fermentation of prebiotic inulin-type fructans by Bifidobacterium species reveals four different phenotypes
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Falony, Gwen, Lazidou, Katerina, Verschaeren, An, Weckx, Stefan, Maes, Dominique, and De Vuyst, Luc
- Subjects
Bacterial growth -- Analysis ,Bifidobacterium -- Physiological aspects ,Bifidobacterium -- Genetic aspects ,Carbohydrates -- Chemical properties ,Biological sciences - Abstract
The bacterial growth, carbohydrate consumption and metabolite production of Bifidobacterium strains grown on fructose, oligofructose or inulin are kinetically analyzed. The variations have shown niche-specific adaptation of bifidobacteria and have in vivo implications on the strain specificity of the stimulatory effect of inulin-type fructans on bifidobacteria.
- Published
- 2009
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