Your search keyword '"Backhed, Fredrik"' showing total 115 results

1. Kinetics of imidazole propionate from orally delivered histidine in mice and humans

Author

Warmbrunn, Moritz V., Attaye, Ilias, Horak, Anthony, Banerjee, Rakhee, Massey, William J., Varadharajan, Venkateshwari, Rampanelli, Elena, Hao, Youling, Dutta, Sumita, Nemet, Ina, Aron-Wisnewsky, Judith, Clément, Karine, Koopen, Annefleur, Wortelboer, Koen, Bergh, Per-Olof, Davids, Mark, Mohamed, Nadia, Kemper, E. Marleen, Hazen, Stanley, Groen, Albert K., van Raalte, Daniel H., Herrema, Hilde, Backhed, Fredrik, Brown, J. Mark, and Nieuwdorp, Max

Published

2024

2. Diet-microbiota interactions as moderators of human metabolism

Author

Sonnenburg, Justin L. and Backhed, Fredrik

Subjects

Observations, Physiological aspects, Microbiota (Symbiotic organisms) -- Physiological aspects, Metabolism -- Observations

Abstract

Worldwide, obesity has more than doubled since 1980 according to the World Health Organization. In 2014, more than 1.9 billion adults were overweight, and over 600 million of those people [...], It is widely accepted that obesity and associated metabolic diseases, including type 2 diabetes, are intimately linked to diet. However, the gut microbiota has also become a focus for research at the intersection of diet and metabolic health. Mechanisms that link the gut microbiota with obesity are coming to light through a powerful combination of translation-focused animal models and studies in humans. A body of knowledge is accumulating that points to the gut microbiota as a mediator of dietary impact on the host metabolic status. Efforts are focusing on the establishment of causal relationships in people and the prospect of therapeutic interventions such as personalized nutrition.

Published

2016

3. Recurring intrahepatic cholestasis of pregnancy presents with distinct changes in the gut microbiota

Author

Marschall, Hanns-Ulrich, primary, Liu, Peidi, additional, Malcus, Sara, additional, Bergentall, Mattias, additional, Khan, Tanweer, additional, Lövgren-Sandblom, Anita, additional, Malcus, Peter, additional, Lindell, Gun, additional, Backhed, Fredrik, additional, Wiberg-Itzel, Ewa, additional, and Strevens, Helena, additional

Published

2022

4. Microbial produced ethanol: an underestimated burden on the liver

Author

Meijnikman, Stijn, primary, Davids, Mark, additional, Herrema, Hilde, additional, Aydin, Omrum, additional, Tremaroli, Valentina, additional, Verheij, Joanne, additional, De Brauw, Maurits, additional, Francque, Sven, additional, De Block, Christophe, additional, Backhed, Fredrik, additional, Gerdes, Victor, additional, Groen, Bert, additional, and Nieuwdorp, Max, additional

Published

2022

5. Dynamics of the normal gut microbiota : A longitudinal one-year population study in Sweden

Author

Olsson, Lisa M., Boulund, Fredrik, Nilsson, Staffan, Khan, Muhammad Tanweer, Gummesson, Anders, Fagerberg, Linn, Engstrand, Lars, Perkins, Rosie, Uhlén, Mathias, Bergström, Göran, Tremaroli, Valentina, Backhed, Fredrik, Olsson, Lisa M., Boulund, Fredrik, Nilsson, Staffan, Khan, Muhammad Tanweer, Gummesson, Anders, Fagerberg, Linn, Engstrand, Lars, Perkins, Rosie, Uhlén, Mathias, Bergström, Göran, Tremaroli, Valentina, and Backhed, Fredrik

Abstract

Temporal dynamics of the gut microbiota potentially limit the identification of microbial features associated with health status. Here, we used whole-genome metagenomic and 16S rRNA gene sequencing to characterize the intra-and inter-individual variations of gut microbiota composition and functional potential of a disease-free Swedish population (n = 75) over one year. We found that 23% of the total compositional variance was explained by intra-individual variation. The degree of intra-individual compositional variability was negatively associated with the abundance of Faecalibacterium prausnitzii (a butyrate producer) and two Bifidobacterium species. By contrast, the abundance of facultative anaerobes and aerotolerant bacteria such as Escherichia coli and Lactobacillus acidophilus varied extensively, independent of compositional stability. The contribution of intra-individual variance to the total variance was greater for functional pathways than for microbial species. Thus, reliable quantification of microbial features requires repeated samples to address the issue of intra-individual variations of the gut microbiota., QC 20220916

Published

2022

6. The Metabolic Role and Therapeutic Potential of the Microbiome

Author

Olofsson, Louise E., Backhed, Fredrik, Olofsson, Louise E., and Backhed, Fredrik

Abstract

We are host to an assembly of microorganisms that vary in structure and function along the length of the gut and from the lumen to the mucosa. This ecosystem is collectively known as the gut microbiota and significant efforts have been spent during the past 2 decades to catalog and functionally describe the normal gut microbiota and how it varies during a wide spectrum of disease states. The gut microbiota is altered in several cardiometabolic diseases and recent work has established microbial signatures that may advance disease. However, most research has focused on identifying associations between the gut microbiota and human diseases states and to investigate causality and potential mechanisms using cells and animals. Since the gut microbiota functions on the intersection between diet and host metabolism, and can contribute to inflammation, several microbially produced metabolites and molecules may modulate cardiometabolic diseases. Here we discuss how the gut bacterial composition is altered in, and can contribute to, cardiometabolic disease, as well as how the gut bacteria can be targeted to treat and prevent metabolic diseases.

Published

2022

7. Challenging the Hypothesis of de novo Biosynthesis of Bile Acids by Marine Bacteria

Author

Tueros, Felipe Gonzalo, Hashim Ellabaan, Mostafa M., Henricsson, Marcus, Vazquez-Uribe, Ruben, Backhed, Fredrik, Sommer, Morten Otto Alexander, Tueros, Felipe Gonzalo, Hashim Ellabaan, Mostafa M., Henricsson, Marcus, Vazquez-Uribe, Ruben, Backhed, Fredrik, and Sommer, Morten Otto Alexander

Abstract

Bile acids are essential molecules produced by vertebrates that are involved in several physiological roles, including the uptake of nutrients. Bacterial isolates capable of producing bile acids de novo have been identified and characterized. Such isolates may provide access to novel biochemical pathways suitable for the design of microbial cell factories. Here, we further characterized the ability of Maribacter dokdonensis, Dokdonia donghaensis, and Myroides pelagicus to produce bile acids. Contrary to previous reports, we did not observe de novo production of bile acids by these isolates. Instead, we found that these isolates deconjugated the amino acid moiety of bile acids present in the growth medium used in previous reports. Through genomic analysis, we identified putative bile salt hydrolases, which could be responsible for the different bile acid modifications observed. Our results challenge the hypothesis of de novo microbial bile acid production, while further demonstrating the diverse capacity of bacteria to modify bile acids.

Published

2022

8. Duodenal Anaerobutyricum soehngenii infusion stimulates GLP-1 production, ameliorates glycaemic control and beneficially shapes the duodenal transcriptome in metabolic syndrome subjects:a randomised double-blind placebo-controlled cross-over study

Author

Koopen, Annefleur, Witjes, Julia, Wortelboer, Koen, Majait, Soumia, Prodan, Andrei, Levin, Evgeni, Herrema, Hilde, Winkelmeijer, Maaike, Aalvink, Steven, Bergman, Jacques J. G. H. M., Havik, Stephan, Hartmann, Bolette, Levels, Han, Bergh, Per-Olof, van Son, Jamie, Balvers, Manon, Bastos, Diogo Mendes, Stroes, Erik, Groen, Albert K., Henricsson, Marcus, Kemper, Ellis Marleen, Holst, Jens, Strauch, Christopher M., Hazen, Stanley L., Backhed, Fredrik, De Vos, Willem M., Nieuwdorp, Max, Rampanelli, Elena, Koopen, Annefleur, Witjes, Julia, Wortelboer, Koen, Majait, Soumia, Prodan, Andrei, Levin, Evgeni, Herrema, Hilde, Winkelmeijer, Maaike, Aalvink, Steven, Bergman, Jacques J. G. H. M., Havik, Stephan, Hartmann, Bolette, Levels, Han, Bergh, Per-Olof, van Son, Jamie, Balvers, Manon, Bastos, Diogo Mendes, Stroes, Erik, Groen, Albert K., Henricsson, Marcus, Kemper, Ellis Marleen, Holst, Jens, Strauch, Christopher M., Hazen, Stanley L., Backhed, Fredrik, De Vos, Willem M., Nieuwdorp, Max, and Rampanelli, Elena

Abstract

Objective Although gut dysbiosis is increasingly recognised as a pathophysiological component of metabolic syndrome (MetS), the role and mode of action of specific gut microbes in metabolic health remain elusive. Previously, we identified the commensal butyrogenic Anaerobutyricum soehngenii to be associated with improved insulin sensitivity in subjects with MetS. In this proof-of-concept study, we investigated the potential therapeutic effects of A. soehngenii L2-7 on systemic metabolic responses and duodenal transcriptome profiles in individuals with MetS. Design In this randomised double-blind placebo-controlled cross-over study, 12 male subjects with MetS received duodenal infusions of A. soehngenii/ placebo and underwent duodenal biopsies, mixed meal tests (6 hours postinfusion) and 24-hour continuous glucose monitoring. Results A. soehngenii treatment provoked a markedly increased postprandial excursion of the insulinotropic hormone glucagon-like peptide 1 (GLP-1) and an elevation of plasma secondary bile acids, which were positively associated with GLP-1 levels. Moreover, A. soehngenii treatment robustly shaped the duodenal expression of 73 genes, with the highest fold induction in the expression of regenerating islet-protein 1B (REG1B)-encoding gene. Strikingly, duodenal REG1B expression positively correlated with GLP-1 levels and negatively correlated with peripheral glucose variability, which was significantly diminished in the 24 hours following A. soehngenii intake. Mechanistically, Reg1B expression is induced upon sensing butyrate or bacterial peptidoglycan. Importantly, A. soehngenii duodenal administration was safe and well tolerated. Conclusions A single dose of A. soehngenii improves peripheral glycaemic control within 24 hours; it specifically stimulates intestinal GLP-1 production and REG1B expression. Further studies are needed to delineate the specific pathways involved in REG1B induction and function in insulin sensitivity.

Published

2022

9. Propionate attenuates atherosclerosis by immune-dependent regulation of intestinal cholesterol metabolism

Author

Haghikia, Arash, Zimmermann, Friederike, Schumann, Paul, Jasina, Andrzej, Roessler, Johann, Schmidt, David, Heinze, Philipp, Kaisler, Johannes, Nageswaran, Vanasa, Aigner, Annette, Ceglarek, Uta, Cineus, Roodline, Hegazy, Ahmed N., Van Der Vorst, Emiel P.C., Doring, Yvonne, Strauch, Christopher M., Nemet, Ina, Tremaroli, Valentina, Dwibedi, Chinmay, Krankel, Nicolle, Leistner, David M., Heimesaat, Markus M., Bereswill, Stefan, Rauch, Geraldine, Seeland, Ute, Soehnlein, Oliver, Muller, Dominik N., Gold, Ralf, Backhed, Fredrik, Hazen, Stanley L., Haghikia, Aiden, Landmesser, Ulf, Haghikia, Arash, Zimmermann, Friederike, Schumann, Paul, Jasina, Andrzej, Roessler, Johann, Schmidt, David, Heinze, Philipp, Kaisler, Johannes, Nageswaran, Vanasa, Aigner, Annette, Ceglarek, Uta, Cineus, Roodline, Hegazy, Ahmed N., Van Der Vorst, Emiel P.C., Doring, Yvonne, Strauch, Christopher M., Nemet, Ina, Tremaroli, Valentina, Dwibedi, Chinmay, Krankel, Nicolle, Leistner, David M., Heimesaat, Markus M., Bereswill, Stefan, Rauch, Geraldine, Seeland, Ute, Soehnlein, Oliver, Muller, Dominik N., Gold, Ralf, Backhed, Fredrik, Hazen, Stanley L., Haghikia, Aiden, and Landmesser, Ulf

Abstract

Aims: Atherosclerotic cardiovascular disease (ACVD) is a major cause of mortality and morbidity worldwide, and increased low-density lipoproteins (LDLs) play a critical role in development and progression of atherosclerosis. Here, we examined for the first time gut immunomodulatory effects of the microbiota-derived metabolite propionic acid (PA) on intestinal cholesterol metabolism. Methods and results: Using both human and animal model studies, we demonstrate that treatment with PA reduces blood total and LDL cholesterol levels. In apolipoprotein E-/- (Apoe-/-) mice fed a high-fat diet (HFD), PA reduced intestinal cholesterol absorption and aortic atherosclerotic lesion area. Further, PA increased regulatory T-cell numbers and interleukin (IL)-10 levels in the intestinal microenvironment, which in turn suppressed the expression of Niemann-Pick C1-like 1 (Npc1l1), a major intestinal cholesterol transporter. Blockade of IL-10 receptor signalling attenuated the PA-related reduction in total and LDL cholesterol and augmented atherosclerotic lesion severity in the HFD-fed Apoe-/- mice. To translate these preclinical findings to humans, we conducted a randomized, double-blinded, placebo-controlled human study (clinical trial no. NCT03590496). Oral supplementation with 500 mg of PA twice daily over the course of 8 weeks significantly reduced LDL [-15.9 mg/dL (-8.1%) vs. -1.6 mg/dL (-0.5%), P = 0.016], total [-19.6 mg/dL (-7.3%) vs. -5.3 mg/dL (-1.7%), P = 0.014] and non-high-density lipoprotein cholesterol levels [PA vs. placebo: -18.9 mg/dL (-9.1%) vs. -0.6 mg/dL (-0.5%), P = 0.002] in subjects with elevated baseline LDL cholesterol levels. Conclusion: Our findings reveal a novel immune-mediated pathway linking the gut microbiota-derived metabolite PA with intestinal Npc1l1 expression and cholesterol homeostasis. The results highlight the gut immune system as a potential therapeutic target to control dyslipidaemia that may introduce a new avenue for prevention of ACVD

Published

2022

10. Effects of the Gut Microbiota on Host Adiposity Are Modulated by the Short-Chain Fatty-Acid Binding G Protein-Coupled Receptor, Gpr41

Author

Samuel, Buck S., Shaito, Abdullah, Motoike, Toshiyuki, Rey, Federico E., Backhed, Fredrik, Manchester, Jill K., Hammer, Robert E., Williams, S. Clay, Crowley, Jan, Yanagisawa, Masashi, and Gordon, Jeffrey I.

Published

2008

11. FXR is a molecular target for the effects of vertical sleeve gastrectomy

Author

Ryan, Karen K., Tremaroli, Valentina, Clemmensen, Christoffer, Kovatcheva-Datchary, Petia, Myronovych, Andriy, Karns, Rebekah, Wilson-Perez, Hilary E., Sandoval, Darleen A., Kohli, Rohit, Backhed, Fredrik, and Seeley, Randy J.

Subjects

Care and treatment, Research, Patient outcomes, Obesity -- Care and treatment, Gastrectomy -- Patient outcomes, Bariatric surgery -- Patient outcomes, Molecular targeted therapy -- Research, Obesity -- Care and treatment -- Surgery

Abstract

Perhaps surprisingly, the most effective and durable therapies for the treatment of obesity involve surgical, rather than pharmacological or behavioural, intervention. In contrast to the modest impact of diet and [...], Bariatric surgical procedures, such as vertical sleeve gastrectomy (VSG), are at present the most effective therapy for the treatment of obesity, and are associated with considerable improvements in co-morbidities, including type-2 diabetes mellitus. The underlying molecular mechanisms contributing to these benefits remain largely undetermined, despite offering the potential to reveal new targets for therapeutic intervention. Substantial changes in circulating total bile acids are known to occur after VSG. Moreover, bile acids are known to regulate metabolism by binding to the nuclear receptor FXR (farsenoid-X receptor, also known as NR1H4). We therefore examined the results of VSG surgery applied to mice with diet-induced obesity and targeted genetic disruption of FXR. Here we demonstrate that the therapeutic value of VSG does not result from mechanical restriction imposed by a smaller stomach. Rather, VSG is associated with increased circulating bile acids, and associated changes to gut microbial communities. Moreover, in the absence of FXR, the ability of VSG to reduce body weight and improve glucose tolerance is substantially reduced. These results point to bile acids and FXR signalling as an important molecular underpinning for the beneficial effects of this weight-loss surgery.

Published

2014

12. Angiopoietin-like 4 (ANGPTL4, Fasting-induced Adipose Factor) Is a Direct Glucocorticoid Receptor Target and Participates in Glucocorticoid-regulated Triglyceride Metabolism

Author

Koliwad, Suneil K., Kuo, Taiyi, Shipp, Lauren E., Gray, Nora E., Backhed, Fredrik, So, Alex Yick-Lun, Farese, Robert V., Jr, and Wang, Jen-Chywan

Published

2009

13. Gut metagenome in European women with normal, impaired and diabetic glucose control

Author

Karlsson, Fredrik H., Tremaroli, Valentina, Nookaew, Intawat, Bergstrom, Goran, Behre, Carl Johan, Fagerberg, Bjorn, Nielsen, Jens, and Backhed, Fredrik

Subjects

Physiological aspects, Genetic aspects, Research, Diabetes mellitus -- Research, Glucose metabolism -- Research, Microbiota (Symbiotic organisms) -- Research, Type 2 diabetes -- Research, Women -- Physiological aspects -- Genetic aspects, Diabetes -- Research

Abstract

Type 2 diabetes (T2D) is a result of complex gene-environment interactions, and several risk factors have been identified, including age, family history, diet, sedentary lifestyle and obesity. Statistical models that [...]

Published

2013

14. Functional interactions between the gut microbiota and host metabolism

Author

Tremaroli, Valentina and Backhed, Fredrik

Subjects

Research, Human nutrition -- Research, Host-bacteria relationships -- Research, Microbiota (Symbiotic organisms) -- Research

Abstract

Changes to lifestyle and an increase in the availability of energy-rich foods are important contributors to the worldwide obesity epidemic. The microbial inhabitants of the gut can also have an [...], The link between the microbes in the human gut and the development of obesity, cardiovascular disease and metabolic syndromes, such as type 2 diabetes, is becoming clearer. However, because of the complexity of the microbial community, the functional connections are less well understood. Studies in both mice and humans are helping to show what effect the gut microbiota has on host metabolism by improving energy yield from food and modulating dietary or the host-derived compounds that alter host metabolic pathways. Through increased knowledge of the mechanisms involved in the interactions between the microbiota and its host, we will be in a better position to develop treatments for metabolic disease.

Published

2012

15. Infection regulates pro-resolving mediators that lower antibiotic requirements

Author

Chiang, Nan, Fredman, Gabrielle, Backhed, Fredrik, Oh, Sungwhan F., Vickery, Thad, Schmidt, Birgitta A., and Serhan, Charles N.

Subjects

Health aspects, Staphylococcus aureus infections -- Health aspects, Staphylococcus aureus -- Health aspects, Cross infection -- Health aspects, Escherichia coli -- Health aspects, Ciprofloxacin -- Health aspects, Nosocomial infections -- Health aspects

Abstract

Author(s): Nan Chiang [1]; Gabrielle Fredman [1]; Fredrik Backhed [2]; Sungwhan F. Oh [1]; Thad Vickery [1]; Birgitta A. Schmidt [1]; Charles N. Serhan (corresponding author) [1] Underlying mechanisms for [...]

Published

2012

16. Tissue factor and PAR1 promote microbiota--induced intestinal vascular remodelling

Author

Reinhardt, Christoph, Bergentall, Mattias, Greiner, Thomas U., Schaffner, Florence, Ostergren-Lunden, Gunnel, Petersen, Lars C., Ruf, Wolfram, and Backhed, Fredrik

Subjects

Physiological aspects, Genetic aspects, Research, Neovascularization -- Physiological aspects -- Genetic aspects -- Research, Microbiota (Symbiotic organisms) -- Physiological aspects -- Genetic aspects -- Research, Cell adhesion molecules -- Physiological aspects -- Genetic aspects -- Research

Abstract

The mammalian intestine is an organ with marked postnatal vascular adaptation, which is induced at weaning and coincides with the development of an adult microbiota. In agreement with early studies [...], The gut microbiota is a complex ecosystem that has coevolved with host physiology. Colonization of germ-free (GF) mice with a microbiota promotes increased vessel density in the small intestine (1), but little is known about the mechanisms involved. Tissue factor (TF) is the membrane receptor that initiates the extrinsic coagulation pathway (2), and it promotes developmental and tumour angiogenesis (3,4). Here we show that the gut microbiota promotes TF glycosylation associated with localization of TF on the cell surface, the activation of coagulation proteases, and phosphorylation of the TF cytoplasmic domain in the small intestine. Anti-TF treatment of colonized GF mice decreased microbiota-induced vascular remodelling and expression of the proangiogenic factor angiopoietin-1 (Ang-1) in the small intestine. Mice with a genetic deletion of the TF cytoplasmic domain or with hypomorphic TF (F3) alleles had a decreased intestinal vessel density. Coagulation proteases downstream of TF activate protease-activated receptor (PAR) signalling implicated in angiogenesis (5). Vessel density and phosphorylation of the cytoplasmic domain of TF were decreased in small intestine from PAR1-deficient ([F2r.sup.-/-]) but not PAR2-deficient ([F2rl1.sup.-/-]) mice, and inhibition of thrombin showed that thrombin-PARl signalling was upstream of TF phosphorylation. Thus, the microbiota-induced extravascular TF-PAR1 signalling loop is a novel pathway that may be modulated to influence vascular remodelling in the small intestine.

Published

2012

17. Oxidation-specific epitopes are dominant targets of innate natural antibodies in mice and humans

Author

Chou, Meng-Yun, Fogelstrand, Linda, Hartvigsen, Karsten, Hansen, Lotte F., Woelkers, Douglas, Shaw, Peter X., Choi, Jeomil, Perkmann, Thomas, Backhed, Fredrik, Miller, Yury I., Horkko, Sohvi, Corr, Maripat, Witztum, Joseph L., and Binder, Christoph J.

Subjects

Care and treatment, Physiological aspects, Genetic aspects, Research, Risk factors, Atherosclerosis -- Risk factors -- Genetic aspects -- Care and treatment -- Research, Oxidative stress -- Physiological aspects -- Research -- Risk factors -- Care and treatment -- Genetic aspects, Lipoproteins -- Physiological aspects -- Genetic aspects -- Research, Hypercholesterolemia -- Risk factors -- Care and treatment -- Research -- Genetic aspects, Blood lipoproteins -- Physiological aspects -- Genetic aspects -- Research, Proteolipids -- Physiological aspects -- Genetic aspects -- Research

Abstract

Introduction Although hypercholesterolemia is necessary for the initiation and progression of atherosclerosis, there is now abundant evidence that immune mechanisms are also central to all phases of lesion development (1), [...], Atherosclerosis is a chronic inflammatory disease characterized by the accumulation of oxidized lipoproteins and apoptotic cells. Adaptive immune responses to various oxidation-specific epitopes play an important role in atherogenesis. However, accumulating evidence suggests that these epitopes are also recognized by innate receptors, such as scavenger receptors on macrophages, and plasma proteins, such as C-reactive protein (CRP). Here, we provide multiple lines of evidence that oxidation-specific epitopes constitute a dominant, previously unrecognized target of natural Abs (NAbs) in both mice and humans. Using reconstituted mice expressing solely IgM NAbs, we have shown that approximately 30% of all NAbs bound to model oxidation-specific epitopes, as well as to atherosclerotic lesions and apoptotic cells. Because oxidative processes are ubiquitous, we hypothesized that these epitopes exert selective pressure to expand NAbs, which in turn play an important role in mediating homeostatic functions consequent to inflammation and cell death, as demonstrated by their ability to facilitate apoptotic cell clearance. These findings provide novel insights into the functions of NAbs in mediating host homeostasis and into their roles in health and diseases, such as chronic inflammatory diseases and atherosclerosis.

Published

2009

18. Oral histidine affects gut microbiota and MAIT cells improving glycemic control in type 2 diabetes patients

Author

Warmbrunn, Moritz V., Attaye, Ilias, Aron-Wisnewsky, Judith, Rampanelli, Elena, van der Vossen, Eduard W.J., Hao, Youling, Koopen, Annefleur, Bergh, Per-Olof, Stols-Gonçalves, Daniela, Mohamed, Nadia, Kemper, Marleen, Verdoes, Xanthe, Wortelboer, Koen, Davids, Mark, Belda, Eugeni, André, Sébastien, Hazen, Stanley, Clement, Karine, Groen, Bert, van Raalte, Daniel H., Herrema, Hilde, Backhed, Fredrik, and Nieuwdorp, Max

Abstract

ABSTRACTAmino acids, metabolized by host cells as well as commensal gut bacteria, have signaling effects on host metabolism. Oral supplementation of the essential amino acid histidine has been shown to exert metabolic benefits. To investigate whether dietary histidine aids glycemic control, we performed a case-controlled parallel clinical intervention study in participants with type 2 diabetes (T2D) and healthy controls. Participants received oral histidine for seven weeks. After 2 weeks of histidine supplementation, the microbiome was depleted by antibiotics to determine the microbial contribution to histidine metabolism. We assessed glycemic control, immunophenotyping of peripheral blood mononucelar cells (PBMC), DNA methylation of PBMCs and fecal gut microbiota composition. Histidine improves several markers of glycemic control, including postprandial glucose levels with a concordant increase in the proportion of MAIT cells after two weeks of histidine supplementation. The increase in MAIT cells was associated with changes in gut microbial pathways such as riboflavin biosynthesis and epigenetic changes in the amino acid transporter SLC7A5. Associations between the microbiome and MAIT cells were replicated in the MetaCardis cohort. We propose a conceptual framework for how oral histidine may affect MAIT cells via altered gut microbiota composition and SLC7A5 expression in MAIT cells directly and thereby influencing glycemic control. Future studies should focus on the role of flavin biosynthesis intermediates and SLC7A5 modulation in MAIT cells to modulate glycemic control.

Published

2024

19. Developmental trajectory of the healthy human gut microbiota during the first 5 years of life

Author

Roswall, Josefine, Olsson, Lisa M., Kovatcheva-Datchary, Petia, Nilsson, Staffan, Tremaroli, Valentina, Simon, Marie-Christine, Kiilerich, Pia, Akrami, Rozita, Kramer, Manuela, Uhlén, Mathias, Gummesson, Anders, Kristiansen, Karsten, Dahlgren, Jovanna, Backhed, Fredrik, Roswall, Josefine, Olsson, Lisa M., Kovatcheva-Datchary, Petia, Nilsson, Staffan, Tremaroli, Valentina, Simon, Marie-Christine, Kiilerich, Pia, Akrami, Rozita, Kramer, Manuela, Uhlén, Mathias, Gummesson, Anders, Kristiansen, Karsten, Dahlgren, Jovanna, and Backhed, Fredrik

Abstract

The gut is inhabited by a densely populated ecosystem, the gut microbiota, that is established at birth. However, the succession by which different bacteria are incorporated into the gut microbiota is still relatively unknown. Here, we analyze the microbiota from 471 Swedish children followed from birth to 5 years of age, collecting samples after 4 and 12 months and at 3 and 5 years of age as well as from their mothers at birth using 16S rRNA gene profiling. We also compare their microbiota to an adult Swedish population. Genera follow 4 different colonization patterns during establishment where Methanobrevibacter and Christensenellaceae colonize late and do not reached adult levels at 5 years. These late colonizers correlate with increased alpha diversity in both children and adults. By following the children through age-specific community types, we observe that children have individual dynamics in the gut microbiota development trajectory., QC 20210622

Published

2021

20. Short Article Hypothalamic bile acid-TGR5 signaling protects from obesity

Author

Castellanos-Jankiewicz, Ashley, Guzman-Quevedo, Omar, Fenelon, Valerie S., Zizzari, Philippe, Quarta, Carmelo, Bellocchio, Luigi, Tailleux, Anne, Charton, Julie, Fernandois, Daniela, Henricsson, Marcus, Piveteau, Catherine, Simon, Vincent, Allard, Camille, Quemener, Sandrine, Guinot, Valentine, Hennuyer, Nathalie, Perino, Alessia, Duveau, Alexia, Maitre, Marlene, Leste-Lasserre, Thierry, Clark, Samantha, Dupuy, Nathalie, Cannich, Astrid, Gonzales, Delphine, Deprez, Benoit, Mithieux, Gilles, Dombrowicz, David, Backhed, Fredrik, Prevot, Vincent, Marsicano, Giovanni, Staels, Bart, Schoonjans, Kristina, Cota, Daniela, Castellanos-Jankiewicz, Ashley, Guzman-Quevedo, Omar, Fenelon, Valerie S., Zizzari, Philippe, Quarta, Carmelo, Bellocchio, Luigi, Tailleux, Anne, Charton, Julie, Fernandois, Daniela, Henricsson, Marcus, Piveteau, Catherine, Simon, Vincent, Allard, Camille, Quemener, Sandrine, Guinot, Valentine, Hennuyer, Nathalie, Perino, Alessia, Duveau, Alexia, Maitre, Marlene, Leste-Lasserre, Thierry, Clark, Samantha, Dupuy, Nathalie, Cannich, Astrid, Gonzales, Delphine, Deprez, Benoit, Mithieux, Gilles, Dombrowicz, David, Backhed, Fredrik, Prevot, Vincent, Marsicano, Giovanni, Staels, Bart, Schoonjans, Kristina, and Cota, Daniela

Abstract

Bile acids (BAs) improve metabolism and exert anti-obesity effects through the activation of the Takeda G protein-coupled receptor 5 (TGR5) in peripheral tissues. TGR5 is also found in the brain hypothalamus, but whether hypothalamic BA signaling is implicated in body weight control and obesity pathophysiology remains unknown. Here we show that hypothalamic BA content is reduced in diet-induced obese mice. Central administration of BAs or a specific TGR5 agonist in these animals decreases body weight and fat mass by activating the sympathetic nervous system, thereby promoting negative energy balance. Conversely, genetic downregulation of hypothalamic TGR5 expression in the mediobasal hypothalamus favors the development of obesity and worsens established obesity by blunting sympathetic activity. Lastly, hypothalamic TGR5 signaling is required for the anti-obesity action of dietary BA supplementation. Together, these findings identify hypothalamic TGR5 signaling as a key mediator of a top-down neural mechanism that counteracts diet induced obesity.

Published

2021

21. Plasma Imidazole Propionate Is Positively Correlated with Blood Pressure in Overweight and Obese Humans

Author

van Son, Jamie, Serlie, Mireille J., Stahlman, Marcus, Backhed, Fredrik, Nieuwdorp, Max, Aron-Wisnewsky, Judith, van Son, Jamie, Serlie, Mireille J., Stahlman, Marcus, Backhed, Fredrik, Nieuwdorp, Max, and Aron-Wisnewsky, Judith

Abstract

Background: The gut microbiota and its metabolites are essential for host health and dysbiosis has been involved in several pathologic conditions such as type 2 diabetes (T2D) and cardiovascular disease (CVD). Recent studies have identified that plasma imidazole propionate (ImP), a microbial-produced metabolite, is increased in patients with prediabetes and T2D. More recently, ImP was found to be significantly increased in patients with overt CVD. Here, we aimed to investigate the association between ImP and CVD risk factors: blood pressure, HDL-cholesterol, LDL-cholesterol and insulin-resistance in overweight and obese subjects without T2D or use of any metabolic diseases-related medication. Methods: Plasma metabolites, including ImP, were determined in 107 male or post-menopausal women with overweight/obesity, but without T2D. Insulin-sensitivity was assessed with the gold standard method: the hyperinsulinemic-euglycemic clamp using the isotope [6,6-H-2(2)] glucose and expressed as glucose rate of disposal (Rd) for peripheral insulin sensitivity and suppression of endogenous glucose production (EGP) for hepatic insulin sensitivity. Results: Partial correlation analysis controlled for BMI and age showed a significant correlation between ImP and diastolic blood pressure (r(s) = 0.285, p = 0.004) and a borderline significance with systolic blood pressure (r(s) = 0.187, p = 0.060); however, systolic and diastolic blood pressure did not correlate with ImP precursor histidine (r(s) = 0.063, p = 0.526 and r = -0.038, p = 0.712, respectively). We did not find a correlation between ImP with LDL-cholesterol or HDL-cholesterol (r(s) = -0.181, p = 0.064 and r(s) = 0.060, p = 0.546, respectively). Furthermore, there was no association between plasma ImP concentrations and Rd and EGP suppression. Conclusion: In this cohort with overweight/obese subjects without T2D, plasma ImP concentrations were positively correlated with diastolic blood pressure but not with insulin-sensit

Published

2021

22. Microbial regulation of enteroendocrine cells

Author

Arora, Tulika, Vanslette, Amanda Marie, Hjorth, Siv Annegrethe, Backhed, Fredrik, Arora, Tulika, Vanslette, Amanda Marie, Hjorth, Siv Annegrethe, and Backhed, Fredrik

Abstract

There has been an enormous interest to investigate impact of gut microbiota on host physiology over the past decade. To further understand its role at organismal level, it is important to delineate host-microbiota interaction at tissue and cell level. Diet, antibiotics, disease, or surgery produce shifts in composition of the gut microbiota that further alter levels of microbial-derived metabolites. Enteroendocrine cells (EEGs) are specialized hormone-producing cells in the gut epithelium that sense changes in the intestinal milieu through chemosensing G protein-coupled receptors. Accordingly, microbial metabolites interact with the EECs to stimulate or suppress hormone secretion, which act through endocrine and paracrine signaling to regulate local intestinal and diverse physiological functions and impact overall host metabolism. The remarkable success of glucagon-like peptide-1-based drugs for treatment of type 2 diabetes and obesity highlights the relevance to investigate microbial regulation of EEGs to tackle metabolic diseases through novel microbiota-based therapies.

Published

2021

23. Gut microbial metabolites as multi-kingdom intermediates

Author

Krautkramer, Kimberly A., Fan, Jing, Backhed, Fredrik, Krautkramer, Kimberly A., Fan, Jing, and Backhed, Fredrik

Abstract

The gut microbiota contributes to host physiology through the production of a myriad of metabolites. In this Review, Backhed and colleagues discuss the major classes of microbial metabolites, highlight examples of how microbial metabolites affect host health and provide a potential framework for integration of discovery-based metabolite studies with mechanistic work.The gut microbiota contributes to host physiology through the production of a myriad of metabolites. These metabolites exert their effects within the host as signalling molecules and substrates for metabolic reactions. Although the study of host-microbiota interactions remains challenging due to the high degree of crosstalk both within and between kingdoms, metabolite-focused research has identified multiple actionable microbial targets that are relevant for host health. Metabolites, as the functional output of combined host and microorganism interactions, provide a snapshot in time of an extraordinarily complex multi-organism system. Although substantial work remains towards understanding host-microbiota interactions and the underlying mechanisms, we review the current state of knowledge for each of the major classes of microbial metabolites with emphasis on clinical and translational research implications. We provide an overview of methodologies available for measurement of microbial metabolites, and in addition to discussion of key challenges, we provide a potential framework for integration of discovery-based metabolite studies with mechanistic work. Finally, we highlight examples in the literature where this approach has led to substantial progress in understanding host-microbiota interactions.

Published

2021

24. Mechanisms underlying the resistance to diet-induced obesity in germ-free mice

Author

Backhed, Fredrik, Manchester, Jill K., Semenkovich, Clay F., and Gordon, Jeffrey I.

Subjects

Adipose tissues -- Research, Fatty acid metabolism -- Research, Adenylic acid -- Research, Protein kinases -- Research, Science and technology

Abstract

The trillions of microbes that colonize our adult intestines function collectively as a metabolic organ that communicates with, and complements, our own human metabolic apparatus. Given the worldwide epidemic in obesity, there is interest in how interactions between human and microbial metabolomes may affect our energy balance. Here we report that, in contrast to mice with a gut microbiota, germ-free (GF) animals are protected against the obesity that develops after consuming a Western-style, high-fat, sugar-rich diet. Their persistently lean phenotype is associated with increased skeletal muscle and liver levels of phosphorylated AMP-activated protein kinase (AMPK) and its downstream targets involved in fatty acid oxidation (acetylCoA carboxylase; carnitine-palmitoyltransferase). Moreover, GF knockout mice lacking fasting-induced adipose factor (Fiaf), a circulating lipoprotein lipase inhibitor whose expression is normally selectively suppressed in the gut epithelium by the microbiota, are not protected from diet-induced obesity. Although GF Fiaf-/- animals exhibit similar levels of phosphorylated AMPK as their wild-type litter-mates in liver and gastrocnemius muscle, they have reduced expression of genes encoding the peroxisomal proliferator-activated receptor coactivator (Pgc-1[alpha]) and enzymes involved in fatty acid oxidation. Thus, GF animals are protected from diet-induced obesity by two complementary but independent mechanisms that result in increased fatty acid metabolism: (i) elevated levels of Fiaf, which induces Pgc-1[alpha]; and (ii) increased AMPK activity. Together, these findings support the notion that the gut microbiota can influence both sides of the energy balance equation, and underscore the importance of considering our metabolome in a supraorganismal context. AMP-activated protein kinase | fasting-induced adipose factor | fatty acid metabolism | gut microbiota | symbiosis

Published

2007

25. Postnatal lymphatic partitioning from the blood vasculature in the small intestine requires fasting-induced adipose factor

Author

Backhed, Fredrik, Crawford, Peter A., O'Donnell, David, and Gordon, Jeffrey I.

Subjects

Lymphangioma -- Research, Intestine, Small -- Research, Vascular endothelium -- Research, Science and technology

Abstract

Lymphatic vessels develop from specialized venous endothelial cells. Using knockout mice, we found that fasting-induced adipose factor (Fiaf) is required for functional partitioning of postnatal intestinal lymphatic and blood vessels. In wild-type animals, levels of intestinal Fiaf expression rise during the first postnatal day and peak at day 2, which coincides with the onset of the lymphaticovenous partitioning abnormality in Fiaf-/- mutants on a mixed 129/SvJ:C57BL/6 genetic background. Fiaf deficiency is not associated with disruption of the blood vasculature or with lymphatic endothelial recruitment of smooth muscle cells. We identified Prox1, a critical regulator of lymphangiogenesis, as a downstream target for Fiaf signaling in the intestinal lymphatic endothelium. This organ-specific lymphovascular abnormality can be rescued by allowing embryonic Fiaf-/- intestinal isografts to develop in Fiaf+/+ recipients. angiopoietin-like proteins | organ-specific regulator of lymphangiogenesis | postnatal gut development

Published

2007

26. Linkage between cellular communications, energy utilization, and proliferation in metastatic neuroendocrine cancers

Author

Ippolito, Joseph E., Merritt, Matthew E., Backhed, Fredrik, Moulder, Krista L., Mennerick, Steven, Manchester, Jill K., Gammon, Seth T., Piwnica-Worms, David, and Gordon, Jeffrey I.

Subjects

Electrophysiology -- Research, Cancer -- Care and treatment, Cancer -- Research, Metabonomic analysis, Science and technology

Abstract

To identify metabolic features that support the aggressive behavior of human neuroendocrine (NE) cancers, we examined metastatic prostate NE tumors and derived prostate NE cancer (PNEC) cell lines from a transgenic mouse model using a combination of magic angle spinning NMR spectroscopy, in silico predictions of biotransformations that observed metabolites may undergo, biochemical tests of these predictions, and electrophysiological/calcium imaging studies. Malignant NE cells undergo excitation and increased proliferation when their GAB[A.sub.A], glutamate, and/or glycine receptors are stimulated, use glutamate and GABA as substrates for NADH biosynthesis, and produce propylene glycol, a precursor of pyruvate derived from glycine that increases levels of circulating free fatty acids through extra-NE cell effects. Treatment of nude mice containing PNEC tumor xenografts with (i) amiloride, a diuretic that inhibits Abp1, an enzyme involved in NE cell GABA metabolism, (ii) carbidopa, an inhibitor of dopa decarboxylase which functions upstream of Abpl, plus (iii) flumazenil, a benzodiazepine antagonist that binds to GAB[A.sub.A] receptors, leads to significant reductions in tumor growth. These findings may be generally applicable: GeneChip data sets from 471 human neoplasms revealed that components of GABA metabolic pathways, including ABP1, exhibit statistically significant increases in their expression in NE and non-NE cancers. metabolome-directed cancer therapy | electrophysiology | GABA signaling and shunt | magic angle spinning-NMR | metabolomics

Published

2006

27. Obesity alters gut microbial ecology

Author

Ley, Ruth E., Backhed, Fredrik, Turnbaugh, Peter, Lozupone, Catherine A., Knight, Robin D., and Gordon, Jeffrey I.

Subjects

Phylogeny -- Research, Mice -- Research, RNA -- Research, Obesity -- Research, Science and technology

Abstract

We have analyzed 5,088 bacterial 16S rRNA gene sequences from the distal intestinal (cecal) microbiota of genetically obese ob/ob mice, lean ob/+ and wild-type siblings, and their ob/+ mothers, all fed the same polysaccharide-rich diet. Although the majority of mouse gut species are unique, the mouse and human microbiota(s) are similar at the division (superkingdom) level, with Firmicutes and Bacteroidetes dominating. Microbial-community composition is inherited from mothers. However, compared with lean mice and regardless of kinship, ob/ob animals have a 50% reduction in the abundance of Bacteroidetes and a proportional increase in Firmicutes. These changes, which are division-wide, indicate that, in this model, obesity affects the diversity of the gut microbiota and suggest that intentional manipulation of community structure may be useful for regulating energy balance in obese individuals. energy balance/obesity | host-microbial interactions | intestinal bacterial diversity | ob/ob mice | phylogenetics

Published

2005

28. Host-bacterial mutualism in the human intestine

Author

Backhed, Fredrik, Ley, Ruth E., Sonnenburg, Justin L., Peterson, Daniel A., and Gordon, Jeffrey I.

Subjects

Research, Bacteria -- Research, Gastrointestinal system -- Research, Mutualism (Biology) -- Research, Microbial populations -- Research

Abstract

The adult human intestine is home to an almost inconceivable number of microorganisms. The size of the population--up to 100 trillion--far exceeds that of all other microbial communities associated with [...], The distal human intestine represents an anaerobic bioreactor programmed with an enormous population of bacteria, dominated by relatively few divisions that are highly diverse at the strain/subspecies level. This microbiota and its collective genomes (microbiome) provide us with genetic and metabolic attributes we have not been required to evolve on our own, including the ability to harvest otherwise inaccessible nutrients. New studies are revealing how the gut microbiota has coevolved with us and how it manipulates and complements our biology in ways that are mutually beneficial. We are also starting to understand how certain keystone members of the microbiota operate to maintain the stability and functional adaptability of this microbial organ.

Published

2005

29. The gut microbiota as an environmental factor that regulates fat storage

Author

Backhed, Fredrik, Ding, Hao, Wang, Ting, Hooper, Lora V., Koh, Gou Young, Nagy, Andras, Semenkovich, Clay F., and Gordon, Jeffrey I.

Subjects

Obesity -- Research, Symbiosis -- Research, Science and technology

Abstract

New therapeutic targets for noncognitive reductions in energy intake, absorption, of storage ate crucial given the worldwide epidemic of obesity. The gut microbial community (microbiota) is essential for processing dietary polysaccharides. We found that conventionalization of adult germ-free (GF) C57BL/6 mice with a normal microbiota harvested from the distal intestine (cecum) of conventionally raised animals produces a 60% increase in body fat content and insulin resistance within 14 days despite reduced food intake. Studies of GF and conventionalized mice revealed that the microbiota promotes absorption of monosaccharides from the gut lumen, with resulting induction of de novo hepatic lipogenesis, Fasting-induced adipocyte factor (Fiaf), a member of the angiopoietin-like family of proteins, is selectively suppressed in the intestinal epithelium of normal mice by conventionalization. Analysis of GF and conventionalized, normal and Fiaf knockout mice established that Fiaf is a circulating lipoprotein lipase inhibitor and that its suppression is essential for the microbiota-induced deposition of triglycerides in adipocytes. Studies of Rag[1.sup.-/-] animals indicate that these host responses do not require mature lymphocytes. Our findings suggest that the gut microbiota is an important environmental factor that affects energy harvest from the diet and energy storage in the host. symbiosis | nutrient processing | energy storage | adiposity | fasting-induced adipose factor

Published

2004

30. Assessing the human gut microbiota in metabolic diseases

Author

Karlsson, Fredrik, Tremaroli, Valentina, Nielsen, Jens, and Backhed, Fredrik

Subjects

Care and treatment, Usage, Genetic aspects, Research, Diabetes mellitus -- Genetic aspects -- Care and treatment, Microbiota (Symbiotic organisms) -- Research, High-throughput screening (Biochemical assaying) -- Usage, Diabetes -- Genetic aspects -- Care and treatment

Abstract

We have coevolved with microbes in the environment, and each body habitat has a unique set of microorganisms (microbiota) (1). The most abundant and well-studied microbiota are found in the [...], Recent findings have demonstrated that the gut microbiome complements our human genome with at least 100-fold more genes. In contrast to our Homo sapiens--derived genes, the microbiome is much more plastic, and its composition changes with age and diet, among other factors. An altered gut microbiota has been associated with several diseases, including obesity and diabetes, but the mechanisms involved remain elusive. Here we discuss factors that affect the gut microbiome, how the gut microbiome may contribute to metabolic diseases, and how to study the gut microbiome. Next-generation sequencing and development of software packages have led to the development of large-scale sequencing efforts to catalog the human microbiome. Furthermore, the use of genetically engineered guotobiotic mouse models may increase our understanding of mechanisms by which the gut microbiome modulates host metabolism. A combination of classical microbiology, sequencing, and animal experiments may provide further insights into how the gut microbiota affect host metabolism and physiology.

Published

2013

31. α-Haemolysin of uropathogenic E. coli induces Ca 2+ oscillations in renal epithelial cells

Author

Uhlen, Per, Laestadius, Asa, Jahnukainen, Timo, Soderblom, Tomas, Backhed, Fredrik, Celsi, Gianni, Brismar, Hjalmar, Normark, Staffan, Aperia, Anita, and Richter-Dahlfors, Agneta

Abstract

Author(s): Per Uhlén [1, 2]; Ãsa Laestadius [1, 2]; Timo Jahnukainen [1]; Tomas Söderblom [3]; Fredrik Bäckhed [3]; Gianni Celsi [1]; Hjalmar Brismar [1]; Staffan Normark [3]; Anita Aperia [1]; [...]

Published

2000

32. Microbial Imidazole Propionate Affects Responses to Metformin through p38γ-Dependent Inhibitory AMPK Phosphorylation

Author

Koh, Ara, Manneras-Holm, Louise, Yunn, Na-Oh, Nilsson, Peter M., Ryu, Sung Ho, Molinaro, Antonio, Perkins, Rosie, Smith, J. Gustav, and Backhed, Fredrik

Subjects

MECHANISM, MTORC1, INSULIN-RESISTANCE, SULFASALAZINE, INCREASES, AKT, ACTIVATED PROTEIN-KINASE, SKELETAL-MUSCLE, INACTIVATION, CHEMOTHERAPY

Abstract

Metformin is the first-line therapy for type 2 diabetes, but there are large inter-individual variations in responses to this drug. Its mechanism of action is not fully understood, but activation of AMP-activated protein kinase (AMPK) and changes in the gut microbiota appear to be important. The inhibitory role of microbial metabolites on metformin action has not previously been investigated. Here, we show that concentrations of the microbial metabolite imidazole propionate are higher in subjects with type 2 diabetes taking metformin who have high blood glucose. We also show that metformin-induced glucose lowering is not observed in mice pretreated with imidazole propionate. Furthermore, we demonstrate that imidazole propionate inhibits AMPK activity by inducing inhibitory AMPK phosphorylation, which is dependent on imidazole propionate-induced basal Akt activation. Finally, we identify imidazole propionate-activated p38 gamma as a novel kinase for Akt and demonstrate that p38 gamma kinase activity mediates the inhibitory action of imidazole propionate on metformin.

Published

2020

33. Effects of a Vegetarian Diet on Cardiometabolic Risk Factors, Gut Microbiota, and Plasma Metabolome in Subjects With Ischemic Heart Disease : A Randomized, Crossover Study

Author

Djekic, Demir, Shi, Lin, Brolin, Harald, Carlsson, Frida, Sarnqvist, Charlotte, Savolainen, Otto, Cao, Yang, Backhed, Fredrik, Tremaroli, Valentina, Landberg, Rikard, Frobert, Ole, Djekic, Demir, Shi, Lin, Brolin, Harald, Carlsson, Frida, Sarnqvist, Charlotte, Savolainen, Otto, Cao, Yang, Backhed, Fredrik, Tremaroli, Valentina, Landberg, Rikard, and Frobert, Ole

Abstract

Background: A vegetarian diet (VD) may reduce future cardiovascular risk in patients with ischemic heart disease. Methods and Results: A randomized crossover study was conducted in subjects with ischemic heart disease, assigned to 4‐week intervention periods of isocaloric VD and meat diet (MD) with individually designed diet plans, separated by a 4‐week washout period. The primary outcome was difference in oxidized low‐density lipoprotein cholesterol (LDL‐C) between diets. Secondary outcomes were differences in cardiometabolic risk factors, quality of life, gut microbiota, fecal short‐chain and branched‐chain fatty acids, and plasma metabolome. Of 150 eligible patients, 31 (21%) agreed to participate, and 27 (87%) participants completed the study. Mean oxidized LDL‐C (−2.73 U/L), total cholesterol (−5.03 mg/dL), LDL‐C (−3.87 mg/dL), and body weight (−0.67 kg) were significantly lower with the VD than with the MD. Differences between VD and MD were observed in the relative abundance of several microbe genera within the families Ruminococcaceae, Lachnospiraceae, and Akkermansiaceae. Plasma metabolites, including l‐carnitine, acylcarnitine metabolites, and phospholipids, differed in subjects consuming VD and MD. The effect on oxidized LDL‐C in response to the VD was associated with a baseline gut microbiota composition dominated by several genera of Ruminococcaceae. Conclusions: The VD in conjunction with optimal medical therapy reduced levels of oxidized LDL‐C, improved cardiometabolic risk factors, and altered the relative abundance of gut microbes and plasma metabolites in patients with ischemic heart disease. Our results suggest that composition of the gut microbiota at baseline may be related to the reduction of oxidized LDL‐C observed with the VD.

Published

2020

34. Obesity-associated microbiota contributes to mucus layer defects in genetically obese mice

Author

Schroeder, Bjoern O., Birchenough, George M. H., Pradhan, Meenakshi, Nystrom, Elisabeth E. L., Henricsson, Marcus, Hansson, Gunnar C., Backhed, Fredrik, Schroeder, Bjoern O., Birchenough, George M. H., Pradhan, Meenakshi, Nystrom, Elisabeth E. L., Henricsson, Marcus, Hansson, Gunnar C., and Backhed, Fredrik

Abstract

The intestinal mucus layer is a physical barrier separating the tremendous number of gut bacteria from the host epithelium. Defects in the mucus layer have been linked to metabolic diseases, but previous studies predominantly investigated mucus function during high-caloric/low-fiber dietary interventions, thus making it difficult to separate effects mediated directly through diet quality from potential obesity-dependent effects. As such, we decided to examine mucus function in mouse models with metabolic disease to distinguish these factors. Here we show that, in contrast to their lean littermates, genetically obese (ob/ob) mice have a defective inner colonic mucus layer that is characterized by increased penetrability and a reduced mucus growth rate. Exploiting the coprophagic behavior of mice, we next co-housed ob/ob and lean mice to investigate if the gut microbiota contributed to these phenotypes. Co-housing rescued the defect of the mucus growth rate, whereas mucus penetrability displayed an intermediate phenotype in both mouse groups. Of note, non-obese diabetic mice with high blood glucose levels displayed a healthy colonic mucus barrier, indicating that the mucus defect is obesity- rather than glucose-mediated. Thus, our data suggest that the gut microbiota community of obesity-prone mice may regulate obesity-associated defects in the colonic mucosal barrier, even in the presence of dietary fiber.

Published

2020

35. Distinct alterations of gut morphology and microbiota characterize accelerated diabetes onset in nonobese diabetic mice

Author

Simon, Marie-Christine, Reinbeck, Anna Lena, Wessel, Corinna, Heindirk, Julia, Jelenik, Tomas, Kaul, Kirti, Arreguin-Cano, Juan, Strom, Alexander, Blaut, Michael, Backhed, Fredrik, Burkart, Volker, Roden, Michael, Simon, Marie-Christine, Reinbeck, Anna Lena, Wessel, Corinna, Heindirk, Julia, Jelenik, Tomas, Kaul, Kirti, Arreguin-Cano, Juan, Strom, Alexander, Blaut, Michael, Backhed, Fredrik, Burkart, Volker, and Roden, Michael

Abstract

The rising prevalence of type 1 diabetes (T1D) over the past decades has been linked to lifestyle changes, but the underlying mechanisms are largely unknown. Recent findings point to gut-associated mechanisms in the control of T1D pathogenesis. In nonobese diabetic (NOD) mice, a model of T1D, diabetes development accelerates after deletion of the Toll-like receptor 4 (TLR4). We hypothesized that altered intestinal functions contribute to metabolic alterations, which favor accelerated diabetes development in TLR4-deficient (TLR4(?/?)) NOD mice. In 70?90-day-old normoglycemic (prediabetic) female NOD TLR4(+/+) and NOD TLR4(?/?) mice, gut morphology and microbiome composition were analyzed. Parameters of lipid metabolism, glucose homeostasis, and mitochondrial respiratory activity were measured in vivo and ex vivo. Compared with NOD TLR4(+/+) mice, NOD TLR4(?/?) animals showed lower muscle mass of the small intestine, higher abundance of Bacteroidetes, and lower Firmicutes in the large intestine, along with lower levels of circulating short-chain fatty acids (SCFA). These changes are associated with higher body weight, hyperlipidemia, and severe insulin and glucose intolerance, all occurring before the onset of diabetes. These mice also exhibited insulin resistance?related abnormalities of energy metabolism, such as lower total respiratory exchange rates and higher hepatic oxidative capacity. Distinct alterations of gut morphology and microbiota composition associated with reduction of circulating SCFA may contribute to metabolic disorders promoting the progression of insulin-deficient diabetes/T1D development.

Published

2020

36. The Gut Microbiota in Prediabetes and Diabetes:A Population-Based Cross-Sectional Study

Author

Wu, Hao, Tremaroli, Valentina, Schmidt, Caroline, Lundqvist, Annika, Olsson, Lisa M., Kramer, Manuela, Gummesson, Anders, Perkins, Rosie, Bergstrom, Goran, Backhed, Fredrik, Wu, Hao, Tremaroli, Valentina, Schmidt, Caroline, Lundqvist, Annika, Olsson, Lisa M., Kramer, Manuela, Gummesson, Anders, Perkins, Rosie, Bergstrom, Goran, and Backhed, Fredrik

Abstract

The link between the gut microbiota and type 2 diabetes (T2D) warrants further investigation because of known confounding effects from antidiabetic treatment. Here, we profiled the gut microbiota in a discovery (n = 1,011) and validation (n = 484) cohort comprising Swedish subjects naive for diabetes treatment and grouped by glycemic status. We observed that overall gut microbiota composition was altered in groups with impaired glucose tolerance, combined glucose intolerance and T2D, but not in those with impaired fasting glucose. In addition, the abundance of several butyrate producers and functional potential for butyrate production were decreased both in prediabetes and T2D groups. Multivariate analyses and machine learning microbiome models indicated that insulin resistance was strongly associated with microbial variations. Therefore, our study indicates that the gut microbiota represents an important modifiable factor to consider when developing precision medicine approaches for the prevention and/or delay of T2D.

Published

2020

37. Effects of a Vegetarian Diet on Cardiometabolic Risk Factors, Gut Microbiota, and Plasma Metabolome in Subjects With Ischemic Heart Disease:A Randomized, Crossover Study

Author

Djekic, Demir, Shi, Lin, Brolin, Harald, Carlsson, Frida, Sarnqvist, Charlotte, Savolainen, Otto, Cao, Yang, Backhed, Fredrik, Tremaroli, Valentina, Landberg, Rikard, Frobert, Ole, Djekic, Demir, Shi, Lin, Brolin, Harald, Carlsson, Frida, Sarnqvist, Charlotte, Savolainen, Otto, Cao, Yang, Backhed, Fredrik, Tremaroli, Valentina, Landberg, Rikard, and Frobert, Ole

Abstract

Background A vegetarian diet (VD) may reduce future cardiovascular risk in patients with ischemic heart disease.Methods and Results A randomized crossover study was conducted in subjects with ischemic heart disease, assigned to 4-week intervention periods of isocaloric VD and meat diet (MD) with individually designed diet plans, separated by a 4-week washout period. The primary outcome was difference in oxidized low-density lipoprotein cholesterol (LDL-C) between diets. Secondary outcomes were differences in cardiometabolic risk factors, quality of life, gut microbiota, fecal short-chain and branched-chain fatty acids, and plasma metabolome. Of 150 eligible patients, 31 (21%) agreed to participate, and 27 (87%) participants completed the study. Mean oxidized LDL-C (-2.73 U/L), total cholesterol (-5.03 mg/dL), LDL-C (-3.87 mg/dL), and body weight (-0.67 kg) were significantly lower with the VD than with the MD. Differences between VD and MD were observed in the relative abundance of several microbe genera within the families Ruminococcaceae, Lachnospiraceae, and Akkermansiaceae. Plasma metabolites, includingl-carnitine, acylcarnitine metabolites, and phospholipids, differed in subjects consuming VD and MD. The effect on oxidized LDL-C in response to the VD was associated with a baseline gut microbiota composition dominated by several genera of Ruminococcaceae.Conclusions The VD in conjunction with optimal medical therapy reduced levels of oxidized LDL-C, improved cardiometabolic risk factors, and altered the relative abundance of gut microbes and plasma metabolites in patients with ischemic heart disease. Our results suggest that composition of the gut microbiota at baseline may be related to the reduction of oxidized LDL-C observed with the VD.

Published

2020

38. From Association to Causality:the Role of the Gut Microbiota and Its Functional Products on Host Metabolism

Author

Koh, Ara, Backhed, Fredrik, Koh, Ara, and Backhed, Fredrik

Published

2020

39. Hepatic expression of lipopolysaccharide- binding protein ( Lbp ) is induced by the gut microbiota through Myd88 and impairs glucose tolerance in mice independent of obesity

Author

Molinaro, Antonio, Koh, Ara, Wu, Hao, Schoeler, Marc, Faggi, Maria Ilaria, Carreras, Alba, Hallen, Anna, Backhed, Fredrik, Caesar, Robert, Molinaro, Antonio, Koh, Ara, Wu, Hao, Schoeler, Marc, Faggi, Maria Ilaria, Carreras, Alba, Hallen, Anna, Backhed, Fredrik, and Caesar, Robert

Published

2020

40. Gastric mucosal recognition of Helicobacter pylori is independent of Toll-like receptor 4. (Major Article)

Author

Backhed, Fredrik, Rokbi, Bachra, Torstensson, Elisabeth, Zhao, Ying, Nilsson, Christina, Seguin, Delphine, Normark, Staffan, Buchan, Alison M.J., and Richter-Dahlfors, Agneta

Subjects

Helicobacter infections -- Research, Mucins -- Physiological aspects, Stomach -- Physiological aspects, Cytokines -- Physiological aspects, Epithelium -- Physiological aspects, Interleukins -- Physiological aspects, Immunity -- Physiological aspects, Disease susceptibility -- Physiological aspects, Cell lines -- Observations, Cell lines -- Usage, Cell receptors -- Physiological aspects, Stomach cancer -- Research, Duodenal ulcer -- Research, Helicobacter pylori -- Physiological aspects, Health

Published

2003

41. OS133 - Recurring intrahepatic cholestasis of pregnancy presents with distinct changes in the gut microbiota

Author

Marschall, Hanns-Ulrich, Liu, Peidi, Malcus, Sara, Bergentall, Mattias, Khan, Tanweer, Lövgren-Sandblom, Anita, Malcus, Peter, Lindell, Gun, Backhed, Fredrik, Wiberg-Itzel, Ewa, and Strevens, Helena

Published

2022

42. GS011 - Microbial produced ethanol: an underestimated burden on the liver

Author

Meijnikman, Stijn, Davids, Mark, Herrema, Hilde, Aydin, Omrum, Tremaroli, Valentina, Verheij, Joanne, De Brauw, Maurits, Francque, Sven, De Block, Christophe, Backhed, Fredrik, Gerdes, Victor, Groen, Bert, and Nieuwdorp, Max

Published

2022

43. Liver-specific RORα deletion does not affect the metabolic susceptibility to western style diet feeding

Author

Molinaro, Antonio, Caesar, Robert, L'homme, Laurent, Koh, Ara, Stahlman, Marcus, Staels, Bart, Backhed, Fredrik, Molinaro, Antonio, Caesar, Robert, L'homme, Laurent, Koh, Ara, Stahlman, Marcus, Staels, Bart, and Backhed, Fredrik

Published

2019

44. Intestinal Microbiota in Cardiovascular Health and Disease:JACC State-of-the-Art Review

Author

Tang, W. H. Wilson, Backhed, Fredrik, Landmesser, Ulf, Hazen, Stanley L., Tang, W. H. Wilson, Backhed, Fredrik, Landmesser, Ulf, and Hazen, Stanley L.

Published

2019

45. The next decade of metabolism

Author

Backhed, Fredrik, Bugianesi, Elisabetta, Christofk, Heather, Dikic, Ivan, Gupta, Rana, Mair, William B., O'Neill, Luke A. J., Ralser, Markus, Sabatini, David M., Tschop, Matthias, Backhed, Fredrik, Bugianesi, Elisabetta, Christofk, Heather, Dikic, Ivan, Gupta, Rana, Mair, William B., O'Neill, Luke A. J., Ralser, Markus, Sabatini, David M., and Tschop, Matthias

Published

2019

46. Shining light on microbial signaling to distant organs

Author

Backhed, Fredrik and Backhed, Fredrik

Published

2019

47. Microbial fermentation of flaxseed fibers modulates the transcriptome of GPR41-expressing enteroendocrine cells and protects mice against diet-induced obesity

Author

Arora, Tulika, Rudenko, Olga, Egerod, Kristoffer Lihme, Husted, Anna Sofie, Kovatcheva-Datchary, Petia, Akrami, Rozita, Kristensen, Mette, Schwartz, Thue W., Backhed, Fredrik, Arora, Tulika, Rudenko, Olga, Egerod, Kristoffer Lihme, Husted, Anna Sofie, Kovatcheva-Datchary, Petia, Akrami, Rozita, Kristensen, Mette, Schwartz, Thue W., and Backhed, Fredrik

Published

2019

48. An Integrated Understanding of the Rapid Metabolic Benefits of a Carbohydrate-Restricted Diet on Hepatic Steatosis in Humans

Author

Mardinoglu, Adil, Wu, Hao, Björnson, Elias, Zhang, Cheng, Hakkarainen, Antti, Rasanen, Sari M., Lee, Sunjae, Mancina, Rosellina M., Bergentall, Mattias, Pietilainen, Kirsi H., Söderlund, Sanni, Matikainen, Niina, Stahlman, Marcus, Bergh, Per-Olof, Adiels, Martin, Piening, Brian D., Graner, Marit, Lundbom, Nina, Williams, Kevin J., Romeo, Stefano, Nielsen, Jens, Snyder, Michael, Uhlén, Mathias, Bergström, Göran, Perkins, Rosie, Marschall, Hanns-Ulrich, Backhed, Fredrik, Taskinen, Marja-Riitta, Boren, Jan, Mardinoglu, Adil, Wu, Hao, Björnson, Elias, Zhang, Cheng, Hakkarainen, Antti, Rasanen, Sari M., Lee, Sunjae, Mancina, Rosellina M., Bergentall, Mattias, Pietilainen, Kirsi H., Söderlund, Sanni, Matikainen, Niina, Stahlman, Marcus, Bergh, Per-Olof, Adiels, Martin, Piening, Brian D., Graner, Marit, Lundbom, Nina, Williams, Kevin J., Romeo, Stefano, Nielsen, Jens, Snyder, Michael, Uhlén, Mathias, Bergström, Göran, Perkins, Rosie, Marschall, Hanns-Ulrich, Backhed, Fredrik, Taskinen, Marja-Riitta, and Boren, Jan

Abstract

A carbohydrate-restricted diet is a widely recommended intervention for non-alcoholic fatty liver disease (NAFLD), but a systematic perspective on the multiple benefits of this diet is lacking. Here, we performed a short-term intervention with an isocaloric low-carbohydrate diet with increased protein content in obese subjects with NAFLD and characterized the resulting alterations in metabolism and the gut microbiota using a multi-omics approach. We observed rapid and dramatic reductions of liver fat and other cardiometabolic risk factors paralleled by (1) marked decreases in hepatic de novo lipogenesis; (2) large increases in serum beta-hydroxybutyrate concentrations, reflecting increased mitochondrial beta-oxidation; and (3) rapid increases in folate-producing Streptococcus and serum folate concentrations. Liver transcriptomic analysis on biopsy samples from a second cohort revealed downregulation of the fatty acid synthesis pathway and upregulation of folate-mediated one-carbon metabolism and fatty acid oxidation pathways. Our results highlight the potential of exploring diet-microbiota interactions for treating NAFLD., QC 20180404

Published

2018

49. Gut microbiota regulates maturation of the adult enteric nervous system via enteric serotonin networks

Author

De Vedder, Filipe, Grasset, Estelle, Holm, Louise Manneras, Karsenty, Gerard, Macpherson, Andrew J., Olofsson, Louise E., Backhed, Fredrik, De Vedder, Filipe, Grasset, Estelle, Holm, Louise Manneras, Karsenty, Gerard, Macpherson, Andrew J., Olofsson, Louise E., and Backhed, Fredrik

Published

2018

50. Exposure to the gut microbiota drives distinct methylome and transcriptome changes in intestinal epithelial cells during postnatal development

Author

Pan, Wei-Hung, Sommer, Felix, Falk-Paulsen, Maren, Ulas, Thomas, Best, Philipp, Fazio, Antonella, Kachroo, Priyadarshini, Luzius, Anne, Jentzsch, Marlene, Rehman, Ateequr, Mueller, Fabian, Lengauer, Thomas, Walter, Joern, Kuenzel, Sven, Baines, John F., Schreiber, Stefan, Franke, Andre, Schultze, Joachim L., Backhed, Fredrik, Rosenstiel, Philip, Pan, Wei-Hung, Sommer, Felix, Falk-Paulsen, Maren, Ulas, Thomas, Best, Philipp, Fazio, Antonella, Kachroo, Priyadarshini, Luzius, Anne, Jentzsch, Marlene, Rehman, Ateequr, Mueller, Fabian, Lengauer, Thomas, Walter, Joern, Kuenzel, Sven, Baines, John F., Schreiber, Stefan, Franke, Andre, Schultze, Joachim L., Backhed, Fredrik, and Rosenstiel, Philip

Published

2018