Warning: Undefined array key "mm" in /www/wwwroot/www.ai-bt.com/si.php on line 10 Deprecated: trim(): Passing null to parameter #1 ($string) of type string is deprecated in /www/wwwroot/www.ai-bt.com/si.php on line 10 Causal relationships among the gut microbiome, short-chain fatty acids and metabolic diseases.

Literature DB >> 30778224

Causal relationships among the gut microbiome, short-chain fatty acids and metabolic diseases.

Serena Sanna¹, Natalie R van Zuydam^2,3, Anubha Mahajan^2,3, Alexander Kurilshikov⁴, Arnau Vich Vila^4,5, Urmo Võsa⁴, Zlatan Mujagic⁶, Ad A M Masclee⁶, Daisy M A E Jonkers⁶, Marije Oosting⁷, Leo A B Joosten⁷, Mihai G Netea⁷, Lude Franke⁴, Alexandra Zhernakova⁴, Jingyuan Fu^4,8, Cisca Wijmenga^9,10, Mark I McCarthy^11,12,13.

Abstract

Microbiome-wide association studies on large population cohorts have highlighted associations between the gut microbiome and complex traits, including type 2 diabetes (T2D) and obesity1. However, the causal relationships remain largely unresolved. We leveraged information from 952 normoglycemic individuals for whom genome-wide genotyping, gut metagenomic sequence and fecal short-chain fatty acid (SCFA) levels were available2, then combined this information with genome-wide-association summary statistics for 17 metabolic and anthropometric traits. Using bidirectional Mendelian randomization (MR) analyses to assess causality3, we found that the host-genetic-driven increase in gut production of the SCFA butyrate was associated with improved insulin response after an oral glucose-tolerance test (P = 9.8 × 10-5), whereas abnormalities in the production or absorption of another SCFA, propionate, were causally related to an increased risk of T2D (P = 0.004). These data provide evidence of a causal effect of the gut microbiome on metabolic traits and support the use of MR as a means to elucidate causal relationships from microbiome-wide association findings.

Entities: CellLine Chemical Disease Gene Mutation Species

Mesh：

Substances：
Fatty Acids, Volatile

Year: 2019 PMID： 30778224 PMCID： PMC6441384 DOI： 10.1038/s41588-019-0350-x

Source DB: PubMed Journal: Nat Genet ISSN： 1061-4036 Impact factor: 38.330

55 in total

1. Association of host genome with intestinal microbial composition in a large healthy cohort.

Authors: Williams Turpin; Osvaldo Espin-Garcia; Wei Xu; Mark S Silverberg; David Kevans; Michelle I Smith; David S Guttman; Anne Griffiths; Remo Panaccione; Anthony Otley; Lizhen Xu; Konstantin Shestopaloff; Gabriel Moreno-Hagelsieb; Andrew D Paterson; Kenneth Croitoru
Journal: Nat Genet Date: 2016-10-03 Impact factor: 38.330

2. Microbiota and SCFA in lean and overweight healthy subjects.

Authors: Andreas Schwiertz; David Taras; Klaus Schäfer; Silvia Beijer; Nicolaas A Bos; Christiane Donus; Philip D Hardt
Journal: Obesity (Silver Spring) Date: 2009-06-04 Impact factor: 5.002

3. Pleiotropic effects of lipid genes on plasma glucose, HbA1c, and HOMA-IR levels.

Authors: Naishi Li; Marijke R van der Sijde; Stephan J L Bakker; Robin P F Dullaart; Pim van der Harst; Ron T Gansevoort; Clara C Elbers; Cisca Wijmenga; Harold Snieder; Marten H Hofker; Jingyuan Fu
Journal: Diabetes Date: 2014-04-10 Impact factor: 9.461

4. Improvement of Insulin Sensitivity after Lean Donor Feces in Metabolic Syndrome Is Driven by Baseline Intestinal Microbiota Composition.

Authors: Ruud S Kootte; Evgeni Levin; Jarkko Salojärvi; Loek P Smits; Annick V Hartstra; Shanti D Udayappan; Gerben Hermes; Kristien E Bouter; Annefleur M Koopen; Jens J Holst; Filip K Knop; Ellen E Blaak; Jing Zhao; Hauke Smidt; Amy C Harms; Thomas Hankemeijer; Jacques J G H M Bergman; Hans A Romijn; Frank G Schaap; Steven W M Olde Damink; Mariette T Ackermans; Geesje M Dallinga-Thie; Erwin Zoetendal; Willem M de Vos; Mireille J Serlie; Erik S G Stroes; Albert K Groen; Max Nieuwdorp
Journal: Cell Metab Date: 2017-10-03 Impact factor: 27.287

5. Mendelian randomization analysis with multiple genetic variants using summarized data.

Authors: Stephen Burgess; Adam Butterworth; Simon G Thompson
Journal: Genet Epidemiol Date: 2013-09-20 Impact factor: 2.135

6. Human gut microbiota changes reveal the progression of glucose intolerance.

Authors: Xiuying Zhang; Dongqian Shen; Zhiwei Fang; Zhuye Jie; Xinmin Qiu; Chunfang Zhang; Yingli Chen; Linong Ji
Journal: PLoS One Date: 2013-08-27 Impact factor: 3.240

7. Mendelian randomization in health research: using appropriate genetic variants and avoiding biased estimates.

Authors: Amy E Taylor; Neil M Davies; Jennifer J Ware; Tyler VanderWeele; George Davey Smith; Marcus R Munafò
Journal: Econ Hum Biol Date: 2013-12-13 Impact factor: 2.184

8. Efficient Bayesian mixed-model analysis increases association power in large cohorts.

Authors: Po-Ru Loh; George Tucker; Brendan K Bulik-Sullivan; Bjarni J Vilhjálmsson; Hilary K Finucane; Rany M Salem; Daniel I Chasman; Paul M Ridker; Benjamin M Neale; Bonnie Berger; Nick Patterson; Alkes L Price
Journal: Nat Genet Date: 2015-02-02 Impact factor: 38.330

9. Genetic variation in GIPR influences the glucose and insulin responses to an oral glucose challenge.

Authors: Richa Saxena; Marie-France Hivert; Claudia Langenberg; Toshiko Tanaka; James S Pankow; Peter Vollenweider; Valeriya Lyssenko; Nabila Bouatia-Naji; Josée Dupuis; Anne U Jackson; W H Linda Kao; Man Li; Nicole L Glazer; Alisa K Manning; Jian'an Luan; Heather M Stringham; Inga Prokopenko; Toby Johnson; Niels Grarup; Trine W Boesgaard; Cécile Lecoeur; Peter Shrader; Jeffrey O'Connell; Erik Ingelsson; David J Couper; Kenneth Rice; Kijoung Song; Camilla H Andreasen; Christian Dina; Anna Köttgen; Olivier Le Bacquer; François Pattou; Jalal Taneera; Valgerdur Steinthorsdottir; Denis Rybin; Kristin Ardlie; Michael Sampson; Lu Qi; Mandy van Hoek; Michael N Weedon; Yurii S Aulchenko; Benjamin F Voight; Harald Grallert; Beverley Balkau; Richard N Bergman; Suzette J Bielinski; Amelie Bonnefond; Lori L Bonnycastle; Knut Borch-Johnsen; Yvonne Böttcher; Eric Brunner; Thomas A Buchanan; Suzannah J Bumpstead; Christine Cavalcanti-Proença; Guillaume Charpentier; Yii-Der Ida Chen; Peter S Chines; Francis S Collins; Marilyn Cornelis; Gabriel J Crawford; Jerome Delplanque; Alex Doney; Josephine M Egan; Michael R Erdos; Mathieu Firmann; Nita G Forouhi; Caroline S Fox; Mark O Goodarzi; Jürgen Graessler; Aroon Hingorani; Bo Isomaa; Torben Jørgensen; Mika Kivimaki; Peter Kovacs; Knut Krohn; Meena Kumari; Torsten Lauritzen; Claire Lévy-Marchal; Vladimir Mayor; Jarred B McAteer; David Meyre; Braxton D Mitchell; Karen L Mohlke; Mario A Morken; Narisu Narisu; Colin N A Palmer; Ruth Pakyz; Laura Pascoe; Felicity Payne; Daniel Pearson; Wolfgang Rathmann; Annelli Sandbaek; Avan Aihie Sayer; Laura J Scott; Stephen J Sharp; Eric Sijbrands; Andrew Singleton; David S Siscovick; Nicholas L Smith; Thomas Sparsø; Amy J Swift; Holly Syddall; Gudmar Thorleifsson; Anke Tönjes; Tiinamaija Tuomi; Jaakko Tuomilehto; Timo T Valle; Gérard Waeber; Andrew Walley; Dawn M Waterworth; Eleftheria Zeggini; Jing Hua Zhao; Thomas Illig; H Erich Wichmann; James F Wilson; Cornelia van Duijn; Frank B Hu; Andrew D Morris; Timothy M Frayling; Andrew T Hattersley; Unnur Thorsteinsdottir; Kari Stefansson; Peter Nilsson; Ann-Christine Syvänen; Alan R Shuldiner; Mark Walker; Stefan R Bornstein; Peter Schwarz; Gordon H Williams; David M Nathan; Johanna Kuusisto; Markku Laakso; Cyrus Cooper; Michael Marmot; Luigi Ferrucci; Vincent Mooser; Michael Stumvoll; Ruth J F Loos; David Altshuler; Bruce M Psaty; Jerome I Rotter; Eric Boerwinkle; Torben Hansen; Oluf Pedersen; Jose C Florez; Mark I McCarthy; Michael Boehnke; Inês Barroso; Robert Sladek; Philippe Froguel; James B Meigs; Leif Groop; Nicholas J Wareham; Richard M Watanabe
Journal: Nat Genet Date: 2010-01-17 Impact factor: 38.330

10. A central role for GRB10 in regulation of islet function in man.

Authors: Inga Prokopenko; Wenny Poon; Reedik Mägi; Rashmi Prasad B; S Albert Salehi; Peter Almgren; Peter Osmark; Nabila Bouatia-Naji; Nils Wierup; Tove Fall; Alena Stančáková; Adam Barker; Vasiliki Lagou; Clive Osmond; Weijia Xie; Jari Lahti; Anne U Jackson; Yu-Ching Cheng; Jie Liu; Jeffrey R O'Connell; Paul A Blomstedt; Joao Fadista; Sami Alkayyali; Tasnim Dayeh; Emma Ahlqvist; Jalal Taneera; Cecile Lecoeur; Ashish Kumar; Ola Hansson; Karin Hansson; Benjamin F Voight; Hyun Min Kang; Claire Levy-Marchal; Vincent Vatin; Aarno Palotie; Ann-Christine Syvänen; Andrea Mari; Michael N Weedon; Ruth J F Loos; Ken K Ong; Peter Nilsson; Bo Isomaa; Tiinamaija Tuomi; Nicholas J Wareham; Michael Stumvoll; Elisabeth Widen; Timo A Lakka; Claudia Langenberg; Anke Tönjes; Rainer Rauramaa; Johanna Kuusisto; Timothy M Frayling; Philippe Froguel; Mark Walker; Johan G Eriksson; Charlotte Ling; Peter Kovacs; Erik Ingelsson; Mark I McCarthy; Alan R Shuldiner; Kristi D Silver; Markku Laakso; Leif Groop; Valeriya Lyssenko
Journal: PLoS Genet Date: 2014-04-03 Impact factor: 5.917

207 in total

1. Causal effects in microbiomes using interventional calculus.

Authors: Musfiqur Sazal; Vitalii Stebliankin; Kalai Mathee; Changwon Yoo; Giri Narasimhan
Journal: Sci Rep Date: 2021-03-11 Impact factor: 4.379

Review 2. The association between dietary fibre deficiency and high-income lifestyle-associated diseases: Burkitt's hypothesis revisited.

Authors: Stephen J O'Keefe
Journal: Lancet Gastroenterol Hepatol Date: 2019-12

Causal relationships among the gut microbiome, short-chain fatty acids and metabolic diseases.

1. Association of host genome with intestinal microbial composition in a large healthy cohort.

2. Microbiota and SCFA in lean and overweight healthy subjects.

3. Pleiotropic effects of lipid genes on plasma glucose, HbA1c, and HOMA-IR levels.

4. Improvement of Insulin Sensitivity after Lean Donor Feces in Metabolic Syndrome Is Driven by Baseline Intestinal Microbiota Composition.

5. Mendelian randomization analysis with multiple genetic variants using summarized data.

6. Human gut microbiota changes reveal the progression of glucose intolerance.

7. Mendelian randomization in health research: using appropriate genetic variants and avoiding biased estimates.

8. Efficient Bayesian mixed-model analysis increases association power in large cohorts.

9. Genetic variation in GIPR influences the glucose and insulin responses to an oral glucose challenge.

10. A central role for GRB10 in regulation of islet function in man.

1. Causal effects in microbiomes using interventional calculus.

Review 2. The association between dietary fibre deficiency and high-income lifestyle-associated diseases: Burkitt's hypothesis revisited.

Review 3. Gut microbiota in human metabolic health and disease.

4. Effects of digested Cheonggukjang on human microbiota assessed by in vitro fecal fermentation.

5. Exposure to air pollutants and the gut microbiota: a potential link between exposure, obesity, and type 2 diabetes.

Review 6. Can intestinal microbiota and circulating microbial products contribute to pulmonary arterial hypertension?

Review 7. Demystifying the manipulation of host immunity, metabolism, and extraintestinal tumors by the gut microbiome.

Review 8. The integrative biology of type 2 diabetes.

Review 9. Genomic Determinants of Hypertension With a Focus on Metabolomics and the Gut Microbiome.

Review 10. Metabolites Linking the Gut Microbiome with Risk for Type 2 Diabetes.