Your search keyword '"Elaine Holmes"' showing total 736 results

51. Phylometabonomic patterns of adaptation to high fat diet feeding in inbred mice.

Author

Jane F Fearnside, Marc-Emmanuel Dumas, Alice R Rothwell, Steven P Wilder, Olivier Cloarec, Ayo Toye, Christine Blancher, Elaine Holmes, Roger Tatoud, Richard H Barton, James Scott, Jeremy K Nicholson, and Dominique Gauguier

Subjects

Medicine, Science

Abstract

Insulin resistance plays a central role in type 2 diabetes and obesity, which develop as a consequence of genetic and environmental factors. Dietary changes including high fat diet (HFD) feeding promotes insulin resistance in rodent models which present useful systems for studying interactions between genetic background and environmental influences contributing to disease susceptibility and progression. We applied a combination of classical physiological, biochemical and hormonal studies and plasma (1)H NMR spectroscopy-based metabonomics to characterize the phenotypic and metabotypic consequences of HFD (40%) feeding in inbred mouse strains (C57BL/6, 129S6, BALB/c, DBA/2, C3H) frequently used in genetic studies. We showed the wide range of phenotypic and metabonomic adaptations to HFD across the five strains and the increased nutrigenomic predisposition of 129S6 and C57BL/6 to insulin resistance and obesity relative to the other strains. In contrast mice of the BALB/c and DBA/2 strains showed relative resistance to HFD-induced glucose intolerance and obesity. Hierarchical metabonomic clustering derived from (1)H NMR spectral data of the strains provided a phylometabonomic classification of strain-specific metabolic features and differential responses to HFD which closely match SNP-based phylogenetic relationships between strains. Our results support the concept of genomic clustering of functionally related genes and provide important information for defining biological markers predicting spontaneous susceptibility to insulin resistance and pathological adaptations to fat feeding.

Published

2008

52. Metabolic profiling of an Echinostoma caproni infection in the mouse for biomarker discovery.

Author

Jasmina Saric, Jia V Li, Yulan Wang, Jennifer Keiser, Jake G Bundy, Elaine Holmes, and Jürg Utzinger

Subjects

Arctic medicine. Tropical medicine, RC955-962, Public aspects of medicine, RA1-1270

Abstract

BACKGROUND: Metabolic profiling holds promise with regard to deepening our understanding of infection biology and disease states. The objectives of our study were to assess the global metabolic responses to an Echinostoma caproni infection in the mouse, and to compare the biomarkers extracted from different biofluids (plasma, stool, and urine) in terms of characterizing acute and chronic stages of this intestinal fluke infection. METHODOLOGY/PRINCIPAL FINDINGS: Twelve female NMRI mice were infected with 30 E. caproni metacercariae each. Plasma, stool, and urine samples were collected at 7 time points up to day 33 post-infection. Samples were also obtained from non-infected control mice at the same time points and measured using (1)H nuclear magnetic resonance (NMR) spectroscopy. Spectral data were subjected to multivariate statistical analyses. In plasma and urine, an altered metabolic profile was already evident 1 day post-infection, characterized by reduced levels of plasma choline, acetate, formate, and lactate, coupled with increased levels of plasma glucose, and relatively lower concentrations of urinary creatine. The main changes in the urine metabolic profile started at day 8 post-infection, characterized by increased relative concentrations of trimethylamine and phenylacetylglycine and lower levels of 2-ketoisocaproate and showed differentiation over the course of the infection. CONCLUSION/SIGNIFICANCE: The current investigation is part of a broader NMR-based metabonomics profiling strategy and confirms the utility of this approach for biomarker discovery. In the case of E. caproni, a diagnosis based on all three biofluids would deliver the most comprehensive fingerprint of an infection. For practical purposes, however, future diagnosis might aim at a single biofluid, in which case urine would be chosen for further investigation, based on quantity of biomarkers, ease of sampling, and the degree of differentiation from the non-infected control group.

Published

2008

53. CSF metabolic and proteomic profiles in patients prodromal for psychosis.

Author

Jeffrey T-J Huang, F Markus Leweke, Tsz M Tsang, Dagmar Koethe, Laura Kranaster, Christoph W Gerth, Sonja Gross, Daniela Schreiber, Stephan Ruhrmann, Frauke Schultze-Lutter, Joachim Klosterkötter, Elaine Holmes, and Sabine Bahn

Subjects

Medicine, Science

Abstract

BACKGROUND: The initial prodromal state of psychosis (IPS) is defined as an early disease stage prior to the onset of overt psychosis characterized by sub-threshold or more unspecific psychiatric symptoms. Little is known regarding the biochemical changes during this period. METHODOLOGY/PRINCIPAL FINDINGS: We investigated the metabolic/proteomic profiles of cerebrospinal fluid (CSF) of first-onset drug naïve paranoid schizophrenia patients (n = 54) and individuals presenting with initial prodromal symptoms (n = 24), alongside healthy volunteers (n = 70) using proton nuclear magnetic resonance ((1)H-NMR) spectroscopy and surface enhanced laser desorption ionization (SELDI) mass spectrometry, respectively. Partial least square discriminant analysis (PLS-DA) showed that 36%/29% of IPS patients displayed proteomic/metabolic profiles characteristic of first-onset, drug naïve schizophrenia, i.e., changes in levels of glucose and lactate as well as changes in a VGF-derived peptide (VGF23-62) and transthyretin protein concentrations. However, only 29% (n = 7) of the investigated IPS patients (who to date have been followed up for up to three years) have so far received a diagnosis of schizophrenia. The presence of biochemical alterations in the IPS group did not correlate with the risk to develop schizophrenia. CONCLUSIONS/SIGNIFICANCE: Our results imply that schizophrenia-related biochemical disease processes can be traced in CSF of prodromal patients. However, the biochemical disturbances identified in IPS patients, at least when measured at a single time point, may not be sufficient to predict clinical outcome.

Published

2007

54. Metabolic profiling of CSF: evidence that early intervention may impact on disease progression and outcome in schizophrenia.

Author

Elaine Holmes, Tsz M Tsang, Jeffrey T-J Huang, F Markus Leweke, Dagmar Koethe, Christoph W Gerth, Brit M Nolden, Sonja Gross, Daniela Schreiber, Jeremy K Nicholson, and Sabine Bahn

Subjects

Medicine

Abstract

BackgroundThe identification of schizophrenia biomarkers is a crucial step towards improving current diagnosis, developing new presymptomatic treatments, identifying high-risk individuals and disease subgroups, and assessing the efficacy of preventative interventions at a rate that is not currently possible.Methods and findings(1)H nuclear magnetic resonance spectroscopy in conjunction with computerized pattern recognition analysis were employed to investigate metabolic profiles of a total of 152 cerebrospinal fluid (CSF) samples from drug-naïve or minimally treated patients with first-onset paranoid schizophrenia (referred to as "schizophrenia" in the following text) and healthy controls. Partial least square discriminant analysis showed a highly significant separation of patients with first-onset schizophrenia away from healthy controls. Short-term treatment with antipsychotic medication resulted in a normalization of the disease signature in over half the patients, well before overt clinical improvement. No normalization was observed in patients in which treatment had not been initiated at first presentation, providing the first molecular evidence for the importance of early intervention for psychotic disorders. Furthermore, the alterations identified in drug-naïve patients could be validated in a test sample set achieving a sensitivity and specificity of 82% and 85%, respectively.ConclusionsOur findings suggest brain-specific alterations in glucoregulatory processes in the CSF of drug-naïve patients with first-onset schizophrenia, implying that these abnormalities are intrinsic to the disease, rather than a side effect of antipsychotic medication. Short-term treatment with atypical antipsychotic medication resulted in a normalization of the CSF disease signature in half the patients well before a clinical improvement would be expected. Furthermore, our results suggest that the initiation of antipsychotic treatment during a first psychotic episode may influence treatment response and/or outcome.

Published

2006

55. Effect of Operational Parameters on the Cultivation of the Gut Microbiome in Continuous Bioreactors Inoculated with Feces: A Systematic Review

Author

David Felipe García Mendez, Janeth Sanabria, Julien Wist, and Elaine Holmes

Subjects

General Chemistry, General Agricultural and Biological Sciences

Published

2023

56. Urinary Metabolic Profiling of Liver Fluke-Induced Cholangiocarcinoma—A Follow-Up Study

Author

Munirah Alsaleh, Paiboon Sithithaworn, Narong Khuntikeo, Watcharin Loilome, Puangrat Yongvanit, Thomas Hughes, Thomas O'Connor, Ross H. Andrews, Christopher A. Wadsworth, Roger Williams, Larry Koomson, Isobel Jane Cox, Elaine Holmes, and Simon D. Taylor-Robinson

Subjects

Hepatology

Abstract

Background/Aims: Global liquid chromatography mass spectrometry (LC-MS) profiling in a Thai population has previously identified a urinary metabolic signature in Opisthorchis viverrini-induced cholangiocarcinoma (CCA), primarily characterised by disturbance in acylcarnitine, bile acid, steroid, and purine metabolism. However, the detection of thousands of analytes by LC-MS in a biological sample in a single experiment potentially introduces false discovery errors. To verify these observed metabolic perturbations, a second validation dataset from the same population was profiled in a similar fashion. Methods: Reverse-phase ultra-performance liquid-chromatography mass spectrometry was utilised to acquire the global spectral profile of 98 spot urine samples (from 46 healthy volunteers and 52 CCA patients) recruited from Khon Kaen, northeast Thailand (the highest incidence of CCA globally). Results: Metabolites were differentially expressed in the urinary profiles from CCA patients. High urinary elimination of bile acids was affected by the presence of obstructive jaundice. The urine metabolome associated with non-jaundiced CCA patients showed a distinctive pattern, similar but not identical to published studies. A panel of 10 metabolites achieved a diagnostic accuracy of 93.4% and area under the curve value of 98.8% (CI = 96.3%–100%) for the presence of CCA. Conclusions: Global characterisation of the CCA urinary metabolome identified several metabolites of biological interest in this validation study. Analyses of the diagnostic utility of the discriminant metabolites showed excellent diagnostic potential. Further larger scale studies are required to confirm these findings internationally, particularly in comparison to sporadic CCA, not associated with liver fluke infestation.

Published

2023

57. Comprehensive Lipidomic Workflow for Multicohort Population Phenotyping Using Stable Isotope Dilution Targeted Liquid Chromatography-Mass Spectrometry

Author

Monique J. Ryan, Alanah Grant-St James, Nathan G. Lawler, Mark W. Fear, Edward Raby, Fiona M. Wood, Garth L. Maker, Julien Wist, Elaine Holmes, Jeremy K. Nicholson, Luke Whiley, and Nicola Gray

Subjects

General Chemistry, Biochemistry

Published

2023

58. Enhancing the accuracy of surgical wound excision following burns trauma via application of Rapid Evaporative IonisationMass Spectrometry (REIMS)

Author

Andrew Yau, Mark W Fear, Nicola Gray, Monique Ryan, Elaine Holmes, Jeremy K Nicholson, Luke Whiley, and Fiona M Wood

Subjects

Tissue Extracts, Spectrum Analysis, Surgical Wound, Lactosylceramides, Pilot Projects, General Medicine, Fatty Acids, Nonesterified, Critical Care and Intensive Care Medicine, Tandem Mass Spectrometry, Emergency Medicine, Humans, Monoglycerides, Surgery, Cholesterol Esters, Burns, Chromatography, Liquid

Abstract

Surgical wound excision is a necessary procedure for burn patients that require the removal of eschar. The extent of excision is currently guided by clinical judgement, with excessinto healthy tissue potentially leading to excessive scar, or inadequate debridement increasing risk of infection. Thus, an objective real-time measure to facilitate accurate excision could support clinical judgement and improve this surgical procedure. This study was designed to investigate the potential use of Rapid evaporative ionisation mass spectrometry (REIMS) as a tool to support data-driven objective tissue excision.Data were acquired using a multi-platform approach that consisted of both Rapid Evaporative Ionisation Mass Spectrometry (REIMS) performed on intact skin, and comprehensive liquid chromatography-mass spectrometry (LC-MS/MS) lipidomics performed on homogenised skin tissue extracts. Data were analysed using principal components analysis (PCA) and multivariate orthogonal projections to latent squares discriminant analysis (OPLS-DA) and logistic regression to determine the predictability of the models.PCA and OPLS-DA models of the REIMS and LC-MS/MS lipidomics data reported separation of excised and healthy tissue. Molecular fingerprints generated from REIMS analysis of healthy skin tissue revealed a high degree of heterogeneity, however, intra-individual variance was smaller than inter-individual variance. Both platforms indicated high levels of skin classification accuracy. In addition, OPLS-DA of the LC-MS/MS lipidomic data revealed significant differences in specific lipid classes between healthy control and excised skin samples; including lower free fatty acids (FFA), monoacylglycerols (MAG), lysophosphatidylglycerol (LPG) and lysophosphatidylethanolamines (LPE) in excised tissue and higher lactosylceramides (LCER) and cholesterol esters (CE) compared to healthy control tissue.Having established the heterogeneity in the biochemical composition of healthy skin using REIMS and LC-MS/MS, our data show that REIMS has the potential to distinguish between excied and healthy skin tissue samples. This pilot study suggests that REIMS may be an effective tool to support accurate tissue excision during burn surgery.

Published

2022

59. SARS-CoV-2 Infection Biomarkers Reveal an Extended RSAD2 Dependant Metabolic Pathway

Author

Samuele Sala, Philipp Nitschke, Reika Masuda, Nicola Gray, Nathan Lawler, James M. Wood, Georgy Berezhnoy, Alejandro Bolaños, Berin A. Boughton, Caterina Lonati, Titus Rössler, Yogesh Singh, Ian D. Wilson, Samantha Lodge, Aude-Claire Morillon, Ruey Leng Loo, Drew Hall, Luke Whiley, Gary B. Evans, Tyler L. Grove, Steven C. Almo, Lawrence D. Harris, Elaine Holmes, Uta Merle, Christoph Trautwein, Jeremy K. Nicholson, and Julien Wist

Abstract

We present compelling evidence for the existence of an evolutionary adaptive response to viral agents such as SARS-CoV-2, that results in the humanin vivobiosynthesis of a family of compounds with potential antiviral activity. Using nuclear magnetic resonance (NMR) spectroscopy, we detected a characteristic spin-system motif indicative of the presence of an extended panel of urinary and serum metabolites during the acute viral phase. The structure of eight of nucleoside analogues was elucidated (six of which have not previously been reported in human urine), and subsequently confirmed by total-synthesis and matrix spiking. The molecular structures of the nucleoside analogues and their correlation with an array of serum cytokines, including IFN-α2, IFN-γ and IL-10, suggest an association with the viperin enzyme contributing to an endogenous innate immune defense mechanism against viral infection.

Published

2023

60. Metabolic consequences of non-severe burn injury are associated with increased plasma markers of inflammation and cardiovascular disease risk

Author

Monique J. Ryan, Edward Raby, Reika Masuda, Samantha Lodge, Philipp Nitschke, Garth L. Maker, Julien Wist, Elaine Holmes, Luke Whiley, Fiona M. Wood, Jeremy K. Nicholson, Mark W. Fear, and Nicola Gray

Abstract

To understand the metabolic consequences following non-severe burns, longitudinal plasma was collected from adults with non-severe burn injuries (n=35) within 48 hours of admission to hospital and at 6 weeks post-surgery, as well as non-burn controls (n=14). Samples were analysed by1H nuclear magnetic resonance spectroscopy and liquid chromatography-tandem mass spectrometry to quantify 112 lipoprotein, supramolecular phospholipid composite (SPC), GlycB arising from the glycoprotein acetyl residues and 852 lipid species across 20 chemical subclasses. Alterations in lipoprotein and lipid metabolism were evident in samples taken within 48 hours of admission and found to be sustained at the 6-week timepoint, with increases in GlycB (p-value < 0.0001) and the multivariate importance of the apolipoprotein B100/apolipoprotein A1 (ABA1) ratio, as well as decreases in anti-inflammatory phosphatidylcholines, phosphatidylglycerols, phosphatidylinositols and phosphatidylserines. Low circulating high density lipoproteins, and increases in pro-atherogenic low density lipoproteins and monoacylglyceride (20:4) (p-value < 0.0001) are potentially indicative of an increased risk of cardiovascular disease after non-severe burns which requires further investigation.

Published

2023

61. Anti-Cholestatic Therapy with Obeticholic Acid Improves Short-Term Memory in Bile Duct-Ligated Mice

Author

Lucy M.V. Gee, Ben Barron-Millar, Jack Leslie, Claire Richardson, Marco Y.W. Zaki, Saimir Luli, Rachel A. Burgoyne, Rainie I.T. Cameron, Graham R. Smith, John G. Brain, Barbara Innes, Laura Jopson, Jessica K. Dyson, Katherine R.C. McKay, Alexandros Pechlivanis, Elaine Holmes, Rolando Berlinguer-Palmini, Stella Victorelli, George F. Mells, Richard N. Sandford, Jeremy Palmer, John A. Kirby, Christos Kiourtis, Joao Mokochinski, Zoe Hall, Thomas G. Bird, Lee A. Borthwick, Christopher M. Morris, Peter S. Hanson, Diana Jurk, Elizabeth A. Stoll, Fiona E.N. LeBeau, David E.J. Jones, Fiona Oakley, Sandford, Richard [0000-0002-7437-0560], and Apollo - University of Cambridge Repository

Subjects

cognition, therapy, senescence, Cholestasis, Chenodeoxycholic Acid, Pathology and Forensic Medicine, Mice, Memory, Short-Term, Liver, Humans, Animals, Bile Ducts, cholestasis, Ligation

Abstract

Patients with cholestatic liver disease, including those with primary biliary cholangitis, can experience symptoms of impaired cognition or brain fog. This phenomenon remains unexplained and is currently untreatable. Bile duct ligation (BDL) is an established rodent model of cholestasis. In addition to liver changes, BDL animals develop cognitive symptoms early in the disease process (before development of cirrhosis and/or liver failure). The cellular mechanisms underpinning these cognitive symptoms are poorly understood. Herein, the study explored the neurocognitive symptom manifestations, and tested potential therapies, in BDL mice, and used human neuronal cell cultures to explore translatability to humans. BDL animals exhibited short-term memory loss and showed reduced astrocyte coverage of the blood-brain barrier, destabilized hippocampal network activity, and neuronal senescence. Ursodeoxycholic acid (first-line therapy for most human cholestatic diseases) did not reverse symptomatic or mechanistic aspects. In contrast, obeticholic acid (OCA), a farnesoid X receptor agonist and second-line anti-cholestatic agent, normalized memory function, suppressed blood-brain barrier changes, prevented hippocampal network deficits, and reversed neuronal senescence. Co-culture of human neuronal cells with either BDL or human cholestatic patient serum induced cellular senescence and increased mitochondrial respiration, changes that were limited again by OCA. These findings provide new insights into the mechanism of cognitive symptoms in BDL animals, suggesting that OCA therapy or farnesoid X receptor agonism could be used to limit cholestasis-induced neuronal senescence.

Published

2023

62. Exploration of Human Serum Lipoprotein Supramolecular Phospholipids Using Statistical Heterospectroscopy in n-Dimensions (SHY-n): Identification of Potential Cardiovascular Risk Biomarkers Related to SARS-CoV-2 Infection

Author

Reika Masuda, Samantha Lodge, Luke Whiley, Nicola Gray, Nathan Lawler, Philipp Nitschke, Sze-How Bong, Torben Kimhofer, Ruey Leng Loo, Berin Boughton, Annie X. Zeng, Drew Hall, Hartmut Schaefer, Manfred Spraul, Girish Dwivedi, Bu B. Yeap, Tammo Diercks, Ganeko Bernardo-Seisdedos, José M. Mato, John C. Lindon, Elaine Holmes, Oscar Millet, Julien Wist, and Jeremy K. Nicholson

Subjects

Analytical Chemistry

Published

2022

63. The impact of bariatric surgery on serum tryptophan–kynurenine pathway metabolites

Author

Nicholas Penney, Elaine Holmes, Luke Whiley, Kai Tai Derek Yeung, Matthew R. Lewis, Ara Darzi, Sanjay Purkayastha, Hutan Ashrafian, and National Institute of Health Research

Subjects

Adult, Male, Xanthurenates, Time Factors, Kynurenine pathway, Science, Gastric Bypass, Metabolic disorders, Pharmacology, Article, Body Mass Index, Text mining, Gastrectomy, Humans, Metabolomics, Medicine, Longitudinal Studies, Obesity, Prospective Studies, Kynurenine, Glycated Hemoglobin, Multidisciplinary, business.industry, Tryptophan, Endocrine system and metabolic diseases, nutritional and metabolic diseases, Middle Aged, Treatment Outcome, Diabetes Mellitus, Type 2, Female, business, Biomarkers

Abstract

Objectives This study aims to explore the immediate effects of bariatric surgery on serum tryptophan – kynurenine pathway metabolites in individuals with type 2 diabetes and BMI > 30. With the goal of providing insight into the link between tryptophan pathway metabolites, type 2 diabetes, and chronic obesity-induced inflammation.Methods This longitudinal study included 20 participants. Half were diagnosed with type 2 diabetes. 11 and 9 underwent RYGB and SG respectively. Blood samples were obtained at pre-operative and three months post-operative timepoints. Tryptophan and downstream metabolites of the kynurenine pathway were quantified with an ultrahigh-performance liquid chromatography tandem mass spectrometry with electrospray ionisation method.Results At 3 months post-operation, RYGB led to significant reductions in tryptophan, kynurenic acid and xanthurenic acid levels when compared to baseline. Significant reductions of the same metabolites after surgery were also observed in individuals with T2D irrespective of surgical procedure. These metabolites were significantly correlated with serum HbA1c levels.Conclusions Bariatric surgery, in particular RYGB reduces serum levels of tryptophan and its downstream kynurenine metabolites. These metabolites are associated with T2D and thought to be potentially mechanistic in systemic processes leading to insulin resistance. Its reduction after surgery is associated with an improvement in glycaemic control (HbA1c).

Published

2022

64. Direct low field J-edited diffusional proton NMR spectroscopic measurement of COVID-19 inflammatory biomarkers in human serum

Author

Philipp Nitschke, Samantha Lodge, Drew Hall, Hartmut Schaefer, Manfred Spraul, Nieves Embade, Oscar Millet, Elaine Holmes, Julien Wist, and Jeremy K. Nicholson

Subjects

BLOOD, Biochemistry, Analytical Chemistry, INFECTION, 0399 Other Chemical Sciences, Electrochemistry, URINE, SPECTRA, Humans, Environmental Chemistry, NUCLEAR-MAGNETIC-RESONANCE, Phospholipids, Spectroscopy, Science & Technology, IDENTIFICATION, SARS-CoV-2, Chemistry, Analytical, COVID-19, PLASMA-LIPOPROTEINS, GLYCOPROTEINS, Chemistry, GLYCA, Physical Sciences, H-1-NMR SPECTROSCOPY, Protons, 0301 Analytical Chemistry, Biomarkers

Abstract

A JEDI NMR pulse experiment incorporating relaxational, diffusional and J-modulation peak editing has been implemented for a low field (80 MHz proton resonance frequency) spectrometer system to measure quantitatively two recently discovered plasma markers of SARS-CoV-2 infection and general inflammation. JEDI spectra capture a unique signature of two biomarker signals from acetylated glycoproteins (Glyc) and the supramolecular phospholipid composite (SPC) signals that are relatively enhanced by the combination of relaxation, diffusion and J-editing properties of the JEDI experiment that strongly attenuate contributions from the other molecular species in plasma. The SPC/Glyc ratio data were essentially identical in the 600 MHz and 80 MHz spectra obtained (R2 = 0.97) and showed significantly different ratios for control (n = 28) versus SARS-CoV-2 positive patients (n = 29) (p = 5.2 × 10-8 and 3.7 × 10-8 respectively). Simplification of the sample preparation allows for data acquisition in a similar time frame to high field machines (∼4 min) and a high-throughput version with 1 min experiment time could be feasible. These data show that these newly discovered inflammatory biomarkers can be measured effectively on low field NMR instruments that do not not require housing in a complex laboratory environment, thus lowering the barrier to clinical translation of this diagnostic technology.

Published

2022

65. Comparison of the relative impacts of acute consumption of an inulin-enriched diet, milk kefir or a commercial probiotic product on the human gut microbiome and metabolome

Author

Paul Cotter, Liam Walsh, Aaron Walsh, Isabel Garcia Perez, Fiona Crispie, Adele Costabile, Richard Ellis, Jim Finlayson, Laura Finneganan, Marcus Claesson, and Elaine Holmes

Abstract

It has been established that the human gut microbiota is central to health, and, consequently, there has been a growing desire to positively modulate its composition and/or function through, for example, the use of fermented foods, prebiotics or probiotics. Here, we compare the relative impact of the daily consumption of an inulin-enriched diet, a commercial probiotic-containing fermented milk product (FMP), or a traditional kefir FMP over a 28-day period on the gut microbiome and urine metabolome of healthy human adults. None of the treatments resulted in significant changes to clinical parameters or biomarkers tested. However, shotgun metagenomic analysis revealed that kefir consumption resulted in a significant change in taxonomy, in the form of an increased abundance of the sub-dominant FMP-associated species Lactococcus raffinolactis, which further corresponded to shifts in the urine metabolome. Overall, our results indicated that daily consumption of a single portion of kefir alone resulted in detectable changes to the gut microbiota and metabolome of consumers.

Published

2023

66. Microbe-derived indole tunes organ-function and links microbe metabolites to biological ageing

Author

Peter Yuli Xing, Anusha Jayaraman, George Wei Zhang, Katherine Ann Martin, Llanto Elma Faylon, Staffan Kjelleberg, Scott A. Rice, Yulan Wang, Adesola T. Bello, Elaine Holmes, Jeremy K Nicholson, Luke Whiley, and Sven Pettersson

Abstract

To investigate the underlying molecular mechanisms on how the gut microbe metabolite, indoles, regulate host organ growth and function, germ-free male mice were mono-colonized with indole-producing wildtypeEscherichia colior tryptophanase-encodingtnaAknockout mutant indole-non-producingE. coli. The indole mutantE. colirecipient mice exhibited significant multiorgan decline and growth retardation combined with catabolism and energy deficiency despite increased food intake compared to control mice. In addition, indole mutant mice displayed malfunctional intestine, enlarged caecum, reduced numbers of colonic enterochromaffin cells and reduced circulating serotonin levels, resulting in reduced gut motility, diminished digestion, and lower energy harvest. Furthermore, indole mutant mice also displayed decreased expression ofKcnj12gene, suggesting reduced excitability of enteric neurons thus adding to intestinal dysfunctional phenotype. In conclusion, indoles are necessary to maintain adult metabolic homeostasis across multiple organs in vivo. Impairment of indole levels results in multiorgan functional decline suggesting a mechanism whereby gut microbe metabolites may regulate biological ageing and thus increase the risk for disease.Graphical summary

Published

2023

67. Metabolome-wide association study on

Author

Abbas, Dehghan, Rui Climaco, Pinto, Ibrahim, Karaman, Jian, Huang, Brenan R, Durainayagam, Mohsen, Ghanbari, Areesha, Nazeer, Qi, Zhong, Sonia, Liggi, Luke, Whiley, Rima, Mustafa, Miia, Kivipelto, Alina, Solomon, Tiia, Ngandu, Takahisa, Kanekiyo, Tomonori, Aikawa, Carola I, Radulescu, Samuel J, Barnes, Gonçalo, Graça, Elena, Chekmeneva, Stephane, Camuzeaux, Matthew R, Lewis, Manuja R, Kaluarachchi, M Arfan, Ikram, Elaine, Holmes, Ioanna, Tzoulaki, Paul M, Matthews, Julian L, Griffin, and Paul, Elliott

Subjects

Mice, Knockout, Mice, Alzheimer Disease, Tandem Mass Spectrometry, Lactosylceramides, Metabolome, Animals, ATP-Binding Cassette Transporters, Ceramides, Chromatography, Liquid, Genome-Wide Association Study, Sphingomyelins

Abstract

Genome-wide association studies (GWASs) have identified genetic loci associated with the risk of Alzheimer's disease (AD), but the molecular mechanisms by which they confer risk are largely unknown. We conducted a metabolome-wide association study (MWAS) of AD-associated loci from GWASs using untargeted metabolic profiling (metabolomics) by ultraperformance liquid chromatography-mass spectrometry (UPLC-MS). We identified an association of lactosylceramides (LacCer) with AD-related single-nucleotide polymorphisms (SNPs) in

Published

2022

68. Overview of the Nomenclature and Network of Contributors to the Development of Bioreactors for Human Gut Simulation Using Bibliometric Tools: A Fragmented Landscape

Author

Janeth Sanabria, Siobhon Egan, Reika Masuda, Alex J. Lee, Glenn R. Gibson, Jeremy K. Nicholson, Julien Wist, and Elaine Holmes

Subjects

Gastrointestinal Tract, Bioreactors, Bibliometrics, Microbiota, Humans, General Chemistry, General Agricultural and Biological Sciences, Gastrointestinal Microbiome

Abstract

The evolution of complex in vitro models of the human gastrointestinal system to interrogate the biochemical functionality of the gut microbiome has augmented our understanding of its role in human physiology and pathology. With 5718 authors from 52 countries, gut bioreactor research reflects the growing awareness of our need to understand the contribution of the gut microbiome to human health. Although a large body of knowledge has been generated from in vitro models, it is scattered and defined by application-specific terminologies. To better grasp the capacity of bioreactors and further our knowledge of the human gastrointestinal system, we have conducted a cross-field bibliometric search and mapped the evolution of human gastrointestinal in vitro research. We present reference material with the aim of identifying key authors and bioreactor types to enable researchers to make decisions regarding the choice of method for simulating the human gut in the context of microbiome functionality.

Published

2022

69. Targeted lipidomics coupled with machine learning for authenticating the provenance of chicken eggs

Author

Sung-Tong Chin, Gerhard Hoerlendsberger, Kok Wai Wong, Sirui Li, Sze How Bong, Luke Whiley, Julien Wist, Reika Masuda, Johan Greeff, Elaine Holmes, Jeremy K. Nicholson, and Ruey Leng Loo

Subjects

General Medicine, Food Science, Analytical Chemistry

Published

2023

70. Statistical analysis in metabolic phenotyping

Author

Elaine Holmes, Johan Trygg, Timothy M. D. Ebbels, Matthew R. Lewis, Jeremy K. Nicholson, Caroline Sands, Benjamin J. Blaise, Izabella Surowiec, Jake T M Pearce, Gonçalo D S Correia, and Gordon A Haggart

Subjects

Normalization (statistics), Protocol (science), 0303 health sciences, Computer science, 010401 analytical chemistry, Statistical model, computer.software_genre, 01 natural sciences, General Biochemistry, Genetics and Molecular Biology, Statistical power, 3. Good health, 0104 chemical sciences, 03 medical and health sciences, ComputingMethodologies_PATTERNRECOGNITION, Multiple comparisons problem, Data analysis, Preprocessor, Anomaly detection, Data mining, computer, 030304 developmental biology

Abstract

Metabolic phenotyping is an important tool in translational biomedical research. The advanced analytical technologies commonly used for phenotyping, including mass spectrometry (MS) and nuclear magnetic resonance (NMR) spectroscopy, generate complex data requiring tailored statistical analysis methods. Detailed protocols have been published for data acquisition by liquid NMR, solid-state NMR, ultra-performance liquid chromatography (LC-)MS and gas chromatography (GC-)MS on biofluids or tissues and their preprocessing. Here we propose an efficient protocol (guidelines and software) for statistical analysis of metabolic data generated by these methods. Code for all steps is provided, and no prior coding skill is necessary. We offer efficient solutions for the different steps required within the complete phenotyping data analytics workflow: scaling, normalization, outlier detection, multivariate analysis to explore and model study-related effects, selection of candidate biomarkers, validation, multiple testing correction and performance evaluation of statistical models. We also provide a statistical power calculation algorithm and safeguards to ensure robust and meaningful experimental designs that deliver reliable results. We exemplify the protocol with a two-group classification study and data from an epidemiological cohort; however, the protocol can be easily modified to cover a wider range of experimental designs or incorporate different modeling approaches. This protocol describes a minimal set of analyses needed to rigorously investigate typical datasets encountered in metabolic phenotyping.

Published

2021

71. Integrative Modeling of Plasma Metabolic and Lipoprotein Biomarkers of SARS-CoV-2 Infection in Spanish and Australian COVID-19 Patient Cohorts

Author

Sze-How Bong, Hartmut Schaefer, Torben Kimhofer, Rubén Gil-Redondo, Maider Bizkarguenaga, Oscar Millet, Philipp Nitschke, Jeremy K. Nicholson, Chiara Bruzzone, Julien Wist, José M. Mato, Reika Masuda, Elaine Holmes, Nieves Embade, Drew Hall, Manfred Spraul, Samantha Lodge, and Ruey Leng Loo

Subjects

Plasma lipoprotein, Coronavirus disease 2019 (COVID-19), SARS-CoV-2, business.industry, Lipoproteins, medicine.medical_treatment, Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), Metabolite, Australia, COVID-19, Physiology, General Chemistry, Biochemistry, In vitro diagnostic, chemistry.chemical_compound, chemistry, Fibrinolysis, Cohort, Humans, Medicine, business, Biomarkers, Lipoprotein

Abstract

Quantitative plasma lipoprotein and metabolite profiles were measured on an autonomous community of the Basque Country (Spain) cohort consisting of hospitalized COVID-19 patients (n = 72) and a matched control group (n = 75) and a Western Australian (WA) cohort consisting of (n = 17) SARS-CoV-2 positives and (n = 20) healthy controls using 600 MHz 1H nuclear magnetic resonance (NMR) spectroscopy. Spanish samples were measured in two laboratories using one-dimensional (1D) solvent-suppressed and T2-filtered methods with in vitro diagnostic quantification of lipoproteins and metabolites. SARS-CoV-2 positive patients and healthy controls from both populations were modeled and cross-projected to estimate the biological similarities and validate biomarkers. Using the top 15 most discriminatory variables enabled construction of a cross-predictive model with 100% sensitivity and specificity (within populations) and 100% sensitivity and 82% specificity (between populations). Minor differences were observed between the control metabolic variables in the two cohorts, but the lipoproteins were virtually indistinguishable. We observed highly significant infection-related reductions in high-density lipoprotein (HDL) subfraction 4 phospholipids, apolipoproteins A1 and A2,that have previously been associated with negative regulation of blood coagulation and fibrinolysis. The Spanish and Australian diagnostic SARS-CoV-2 biomarkers were mathematically and biologically equivalent, demonstrating that NMR-based technologies are suitable for the study of the comparative pathology of COVID-19 via plasma phenotyping.

Published

2021

72. Understanding the role of the gut in undernutrition: what can technology tell us?

Author

Gary Frost, Claire D. Bourke, Elaine Holmes, Alexander J. Thompson, Christine A. Edwards, Paul Kelly, Douglas J. Morrison, Ruairi C. Robertson, Tom Preston, Nirupama Shivakumar, Medical Research Council (MRC), and National Institute of Health Research

Subjects

0301 basic medicine, 030231 tropical medicine, Severe Acute Malnutrition, malnutrition, Biology, Bioinformatics, digestive system, 03 medical and health sciences, 0302 clinical medicine, Recent Advances in Clinical Practice, medicine, Barrier integrity, gastrointestinal function, chemistry.chemical_classification, Environmental enteropathy, Gastroenterology & Hepatology, Gut barrier, digestive, oral, and skin physiology, Gastroenterology, 1103 Clinical Sciences, medicine.disease, Malnutrition, 030104 developmental biology, chemistry, 1114 Paediatrics and Reproductive Medicine, HUNGer Consortium, Gastrointestinal function, Linear growth, Essential nutrient

Abstract

Gut function remains largely underinvestigated in undernutrition, despite its critical role in essential nutrient digestion, absorption and assimilation. In areas of high enteropathogen burden, alterations in gut barrier function and subsequent inflammatory effects are observable but remain poorly characterised. Environmental enteropathy (EE)—a condition that affects both gut morphology and function and is characterised by blunted villi, inflammation and increased permeability—is thought to play a role in impaired linear growth (stunting) and severe acute malnutrition. However, the lack of tools to quantitatively characterise gut functional capacity has hampered both our understanding of gut pathogenesis in undernutrition and evaluation of gut-targeted therapies to accelerate nutritional recovery. Here we survey the technology landscape for potential solutions to improve assessment of gut function, focussing on devices that could be deployed at point-of-care in low-income and middle-income countries (LMICs). We assess the potential for technological innovation to assess gut morphology, function, barrier integrity and immune response in undernutrition, and highlight the approaches that are currently most suitable for deployment and development. This article focuses on EE and undernutrition in LMICs, but many of these technologies may also become useful in monitoring of other gut pathologies.

Published

2021

73. Metabolome-wide association study on ABCA7 indicates a role of ceramide metabolism in Alzheimer's disease

Author

Abbas Dehghan, Rui Climaco Pinto, Ibrahim Karaman, Jian Huang, Brenan R. Durainayagam, Mohsen Ghanbari, Areesha Nazeer, Qi Zhong, Sonia Liggi, Luke Whiley, Rima Mustafa, Miia Kivipelto, Alina Solomon, Tiia Ngandu, Takahisa Kanekiyo, Tomonori Aikawa, Carola I. Radulescu, Samuel J. Barnes, Gonçalo Graça, Elena Chekmeneva, Stephane Camuzeaux, Matthew R. Lewis, Manuja R. Kaluarachchi, M. Arfan Ikram, Elaine Holmes, Ioanna Tzoulaki, Paul M. Matthews, Julian L. Griffin, Paul Elliott, UK DRI Ltd, National Institutes of Health, and Epidemiology

Subjects

Mice, Knockout, Multidisciplinary, genome-wide association study, Lactosylceramides, Ceramides, metabolomics, ABCA7, Sphingomyelins, Mice, Alzheimer Disease, Tandem Mass Spectrometry, Metabolome, Animals, ATP-Binding Cassette Transporters, ceramide, Alzheimer’s disease, Chromatography, Liquid

Abstract

Genome-wide association studies (GWASs) have identified genetic loci associated with the risk of Alzheimer’s disease (AD), but the molecular mechanisms by which they confer risk are largely unknown. We conducted a metabolome-wide association study (MWAS) of AD-associated loci from GWASs using untargeted metabolic profiling (metabolomics) by ultraperformance liquid chromatography–mass spectrometry (UPLC-MS). We identified an association of lactosylceramides (LacCer) with AD-related single-nucleotide polymorphisms (SNPs) in ABCA7 ( P = 5.0 × 10 −5 to 1.3 × 10 −44 ). We showed that plasma LacCer concentrations are associated with cognitive performance and genetically modified levels of LacCer are associated with AD risk. We then showed that concentrations of sphingomyelins, ceramides, and hexosylceramides were altered in brain tissue from Abca7 knockout mice, compared with wild type (WT) ( P = 0.049–1.4 × 10 −5 ), but not in a mouse model of amyloidosis. Furthermore, activation of microglia increases intracellular concentrations of hexosylceramides in part through induction in the expression of sphingosine kinase, an enzyme with a high control coefficient for sphingolipid and ceramide synthesis. Our work suggests that the risk for AD arising from functional variations in ABCA7 is mediated at least in part through ceramides. Modulation of their metabolism or downstream signaling may offer new therapeutic opportunities for AD.

Published

2022

74. Incomplete Systemic Recovery and Metabolic Phenoreversion in Post-Acute-Phase Nonhospitalized COVID-19 Patients: Implications for Assessment of Post-Acute COVID-19 Syndrome

Author

Sven Pettersson, Ruey Leng Loo, Monique Ryan, Manfred Spraul, Sze-How Bong, Dale W. Edgar, Philipp Nitschke, Rongchang Yang, Sofina Begum, Samantha Lodge, Torben Kimhofer, Sung Tong Chin, Nathan G. Lawler, Toby Richards, Reika Masuda, Julien Wist, John C. Lindon, Luke Whiley, Drew Hall, Hartmut Schaefer, Berin A. Boughton, Aude-Claire Morillon, Bu B. Yeap, Elaine Holmes, Nicola Gray, and Jeremy K. Nicholson

Subjects

0301 basic medicine, myalgia, Magnetic Resonance Spectroscopy, multiorgan disease, Biochemistry, Gastroenterology, TOXICITY, SERUM, TAURINE, chemistry.chemical_compound, phenoconversion, Respiratory system, Neopterin, PROTON NMR-SPECTROSCOPY, Pathophysiology, Biomarker (medicine), medicine.symptom, 03 Chemical Sciences, Life Sciences & Biomedicine, Biochemistry & Molecular Biology, medicine.medical_specialty, Lipoproteins, Anosmia, SARS-COV-2 INFECTION, Asymptomatic, Biochemical Research Methods, Article, 03 medical and health sciences, Internal medicine, REVEALS, medicine, Humans, plasma, long-COVID syndrome, amino acids, Science & Technology, 030102 biochemistry & molecular biology, SARS-CoV-2, business.industry, COVID-19, biomarkers, General Chemistry, NEOPTERIN, 06 Biological Sciences, post-acute COVID-19 syndrome, phenoreversion, MODEL, 030104 developmental biology, chemistry, business, Kynurenine

Abstract

We present a multivariate metabotyping approach to assess the functional recovery of nonhospitalized COVID-19 patients and the possible biochemical sequelae of "Post-Acute COVID-19 Syndrome", colloquially known as long-COVID. Blood samples were taken from patients ca. 3 months after acute COVID-19 infection with further assessment of symptoms at 6 months. Some 57% of the patients had one or more persistent symptoms including respiratory-related symptoms like cough, dyspnea, and rhinorrhea or other nonrespiratory symptoms including chronic fatigue, anosmia, myalgia, or joint pain. Plasma samples were quantitatively analyzed for lipoproteins, glycoproteins, amino acids, biogenic amines, and tryptophan pathway intermediates using Nuclear Magnetic Resonance (NMR) spectroscopy and mass spectrometry. Metabolic data for the follow-up patients (n = 27) were compared with controls (n = 41) and hospitalized severe acute respiratory syndrome SARS-CoV-2 positive patients (n = 18, with multiple time-points). Univariate and multivariate statistics revealed variable patterns of functional recovery with many patients exhibiting residual COVID-19 biomarker signatures. Several parameters were persistently perturbed, e.g., elevated taurine (p = 3.6 × 10-3 versus controls) and reduced glutamine/glutamate ratio (p = 6.95 × 10-8 versus controls), indicative of possible liver and muscle damage and a high energy demand linked to more generalized tissue repair or immune function. Some parameters showed near-complete normalization, e.g., the plasma apolipoprotein B100/A1 ratio was similar to that of healthy controls but significantly lower (p = 4.2 × 10-3) than post-acute COVID-19 patients, reflecting partial reversion of the metabolic phenotype (phenoreversion) toward the healthy metabolic state. Plasma neopterin was normalized in all follow-up patients, indicative of a reduction in the adaptive immune activity that has been previously detected in active SARS-CoV-2 infection. Other systemic inflammatory biomarkers such as GlycA and the kynurenine/tryptophan ratio remained elevated in some, but not all, patients. Correlation analysis, principal component analysis (PCA), and orthogonal-partial least-squares discriminant analysis (O-PLS-DA) showed that the follow-up patients were, as a group, metabolically distinct from controls and partially comapped with the acute-phase patients. Significant systematic metabolic differences between asymptomatic and symptomatic follow-up patients were also observed for multiple metabolites. The overall metabolic variance of the symptomatic patients was significantly greater than that of nonsymptomatic patients for multiple parameters (χ2 p = 0.014). Thus, asymptomatic follow-up patients including those with post-acute COVID-19 Syndrome displayed a spectrum of multiple persistent biochemical pathophysiology, suggesting that the metabolic phenotyping approach may be deployed for multisystem functional assessment of individual post-acute COVID-19 patients.

Published

2021

75. Ethnicity Associated Microbial and Metabonomic Profiling in Newly Diagnosed Ulcerative Colitis

Author

Ravi Misra, Magali Sarafian, Alexandros Pechlivanis, Nik Ding, Jesus Miguens-Blanco, Julie McDonald, Elaine Holmes, Julian Marchesi, and Naila Arebi

Subjects

Clinical and Experimental Gastroenterology, Gastroenterology

Abstract

Ravi Misra,1 Magali Sarafian,2 Alexandros Pechlivanis,3 Nik Ding,4 Jesus Miguens-Blanco,2 Julie McDonald,5 Elaine Holmes,2,6 Julian Marchesi,2,5,7 Naila Arebi1 1Gastroenterology, St Mark’s Academic Institute, London, UK; 2Division of Integrative Systems Medicine and Digestive Disease, Department of Surgery and Cancer, Imperial College, London, UK; 3Analytical Chemistry, Aristotle University of Thessaloniki, Thessaloniki, Greece; 4St Vincent’s Hospital, Inflammatory Bowel Disease Unit, Melbourne, Australia; 5School of Biosciences, Cardiff University, Cardiff, UK; 6Health Futures Institute, Murdoch and Edith Cowan Universities, Murdoch, Australia; 7Centre for Gut Health, Imperial College, London, UKCorrespondence: Ravi Misra, St. Mark’s Academic Institute, Imperial College, St. Mark’s Hospital, Watford Road, London, United Kingdom, Tel +44 0208 235 4124, Email r.misra15@imperial.ac.ukIntroduction: Ulcerative colitis (UC) differs across geography and ethnic groups. Gut microbial diversity plays a pivotal role in disease pathogenesis and differs across ethnic groups. The functional diversity in microbial-driven metabolites may have a pathophysiologic role and offer new therapeutic avenues.Methods: Demographics and clinical data were recorded from newly diagnosed UC patients. Blood, urine and faecal samples were collected at three time points over one year. Bacterial content was analysed by 16S rRNA sequencing. Bile acid profiles and polar molecules in three biofluids were measured using liquid-chromatography mass spectrometry (HILIC) and nuclear magnetic resonance spectroscopy.Results: We studied 42 patients with a new diagnosis of UC (27 South Asians; 15 Caucasians) with 261 biosamples. There were significant differences in relative abundance of bacteria at the phylum, genus and species level. Relative concentrations of urinary metabolites in South Asians were significantly lower for hippurate (positive correlation for Ruminococcus) and 4-cresol sulfate (Clostridia) (p< 0.001) with higher concentrations of lactate (negative correlation for Bifidobacteriaceae). Faecal conjugated and primary conjugated bile acids concentrations were significantly higher in South Asians (p=0.02 and p=0.03 respectively). Results were unaffected by diet, phenotype, disease severity and ongoing therapy. Comparison of time points at diagnosis and at 1 year did not reveal changes in microbial and metabolic profile.Conclusion: Ethnic-related microbial metabolite associations were observed in South Asians with UC. This suggests a predisposition to UC may be influenced by environmental factors reflected in a distinct gene-environment interaction. The variations may serve as markers to identify risk factors for UC and modified to enhance therapeutic response.Keywords: ulcerative colitis, microbiome, metabonomics

Published

2022

76. Urinary Metabolic Profiling of Liver Fluke-induced Cholangiocarcinoma – a Validation Study

Author

Munirah Alsaleh, Paiboon Sithithaworn, Narong Khuntikeo, Watcharin Loilome, Puangrat Yongvanit, Thomas Hughes, Thomas O’Connor, Ross H. Andrews, Christopher A. Wadsworth, Roger Williams, Larry Koomson, I. Jane Cox, Elaine Holmes, and Simon D. Taylor-Robinson

Abstract

Background Global liquid chromatography mass spectrometry (LC-MS) profiling in a Thai population identified a urinary metabolic signature in Opisthorchis viverrini-induced cholangiocarcinoma (CCA), primarily characterised by disturbance in acylcarnitine, bile acid, steroid and purine metabolism. However, the detection of thousands of analytes by LC-MS in a biological sample in a single experiment potentially introduces false discovery errors. To verify these observed metabolic perturbations, a second validation dataset from the same population was profiled in similar fashion. Methods Reverse-phase ultra-performance liquid-chomatography mass spectrometry (RP-UPLC-MS) was utilised to acquire the global spectral profile of 98 spot urine samples (from 46 healthy volunteers and 52 CCA patients) recruited from Khon Kaen, northeast Thailand (the highest incidence of CCA globally). Results Metabolites were differentially expressed in the urinary profiles from CCA patients. High urinary elimination of bile acids was affected by the presence of obstructive jaundice. The urine metabolome associated with non-jaundiced CCA patients showed a distinctive pattern, similar but not identical to published studies. A panel of 10 metabolites achieved a diagnostic accuracy of 93.4% and AUC value of 98.8% (CI = 96.3%-100%) for the presence of CCA. Conclusion Global characterisation of CCA urinary metabolome identified several metabolites of biological interest in this validation study. Analyses of the diagnostic utility of the discriminant metabolites showed excellent diagnostic potential. Further larger scale studies are required to confirm these findings internationally, particularly in comparison to sporadic CCA, not associated with liver fluke infestation.

Published

2022

77. Optimised systematic review tool: Application to candidate biomarkers for the diagnosis of hepatocellular carcinoma

Author

Mei Ran Abellona U, Eric Yi-Liang Shen, Caroline Cartlidge, Alzhraa Alkhatib, Mark R. Thursz, Imam Waked, Asmaa I. Gomaa, Elaine Holmes, Rohini Sharma, and Simon D. Taylor-Robinson

Subjects

Liver Cirrhosis, Carcinoma, Hepatocellular, Oncology, Epidemiology, Liver Neoplasms, Biomarkers, Tumor, Humans, Metabolomics, Biomarkers, 11 Medical and Health Sciences

Abstract

This review aims to develop an appropriate review tool for systematically collating metabolites that are dysregulated in disease and applies the method to identify novel diagnostic biomarkers for hepatocellular carcinoma (HCC). Studies that analyzed metabolites in blood or urine samples where HCC was compared with comparison groups (healthy, precirrhotic liver disease, cirrhosis) were eligible. Tumor tissue was included to help differentiate primary and secondary biomarkers. Searches were conducted on Medline and EMBASE. A bespoke “risk of bias” tool for metabolomic studies was developed adjusting for analytic quality. Discriminant metabolites for each sample type were ranked using a weighted score accounting for the direction and extent of change and the risk of bias of the reporting publication. A total of 84 eligible studies were included in the review (54 blood, 9 urine, and 15 tissue), with six studying multiple sample types. High-ranking metabolites, based on their weighted score, comprised energy metabolites, bile acids, acylcarnitines, and lysophosphocholines. This new review tool addresses an unmet need for incorporating quality of study design and analysis to overcome the gaps in standardization of reporting of metabolomic data. Validation studies, standardized study designs, and publications meeting minimal reporting standards are crucial for advancing the field beyond exploratory studies.

Published

2022

78. Integrative Modeling of Quantitative Plasma Lipoprotein, Metabolic, and Amino Acid Data Reveals a Multiorgan Pathological Signature of SARS-CoV-2 Infection

Author

Sofina Begum, Samantha Lodge, Chris Smith, Nicola Gray, Kenneth G. C. Smith, Toby Richards, Jeremy K. Nicholson, Ruey Leng Loo, Luke Whiley, Elaine Holmes, Philipp Nitschke, Bu B. Yeap, David Morrison, Nathan G. Lawler, Torben Kimhofer, Sze-How Bong, Kimhofer, Torben [0000-0001-7158-9930], Whiley, Luke [0000-0002-9088-4799], Gray, Nicola [0000-0002-0094-5245], Loo, Ruey Leng [0000-0001-5307-5709], Lawler, Nathan G [0000-0001-9649-425X], Holmes, Elaine [0000-0002-0556-8389], and Apollo - University of Cambridge Repository

Subjects

Blood Glucose, Male, 0301 basic medicine, Very low-density lipoprotein, Magnetic Resonance Spectroscopy, medicine.disease_cause, Biochemistry, mosaic disease, chemistry.chemical_compound, Medicine, mass spectrometry, Coronavirus, biology, multiorgan damage, Middle Aged, systems model, Metabolome, Female, Apolipoprotein A1, Coronavirus Infections, 03 Chemical Sciences, Biochemistry & Molecular Biology, medicine.medical_specialty, metabolic phenotyping, Multiple Organ Failure, Pneumonia, Viral, Models, Biological, Article, Betacoronavirus, 03 medical and health sciences, NMR spectroscopy, Diabetes mellitus, Internal medicine, Humans, Pandemics, Aged, amino acids, 030102 biochemistry & molecular biology, SARS-CoV-2, business.industry, COVID-19, biomarkers, General Chemistry, 06 Biological Sciences, medicine.disease, lipoproteins, Glutamine, 030104 developmental biology, Endocrinology, chemistry, biology.protein, business, Kynurenine, Dyslipidemia, Lipoprotein

Abstract

The metabolic effects of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) infection on human blood plasma were characterized using multi-platform metabolic phenotyping with Nuclear Magnetic Resonance (NMR) spectroscopy and liquid chromatography-mass spectrometry (LC-MS). Quantitative measurements of lipoprotein sub-fractions, alpha-1-acid glycoprotein, glucose and biogenic amines were made on samples from symptomatic coronavirus disease 19 (COVID-19) patients who had tested positive for the SARS-CoV-2 virus (n = 17) and from age and gender-matched controls (n = 25). Data were analyzed using an orthogonal-projections to latent structures (O-PLS) method and used to construct an exceptionally strong (AUROC=1) hybrid NMR-MS model that enabled detailed metabolic discrimination between the groups and their biochemical relationships. Key discriminant metabolites included markers of inflammation including elevated alpha-1 acid glycoprotein and an increased kynurenine/tryptophan ratio. There was also an abnormal lipoprotein, glucose and amino acid signature consistent with diabetes and coronary artery disease (low total and HDL Apolipoprotein A1, low HDL triglycerides, high LDL and VLDL triglycerides). Plus, multiple highly significant amino acid markers of liver dysfunction (including the elevated glutamine/glutamate and Fischer’s ratios) that present themselves as part of a distinct SARS-CoV-2 infection pattern. A multivariate training-test set model was validated using independent samples from additional SARS-CoV-2 positive patients and controls. The predictive model showed a sensitivity of 100% for SARS-CoV-2 positivity. The breadth of the disturbed pathways indicates a systemic signature of SARS-CoV-2 positivity that includes elements of liver dysfunction, dyslipidaemia, diabetes, and coronary heart disease risk that are consistent with recent reports that COVID-19 is a systemic disease affecting multiple organs and systems. Metabolights study reference: MTBLS2014.

Published

2020

79. RETRACTED ARTICLE: Dietary metabotype modelling predicts individual responses to dietary interventions

Author

John C. Mathers, Isabel Garcia-Perez, Manfred Beckmann, Gary Frost, Jeremy K. Nicholson, Edward S. Chambers, Joram M. Posma, John Draper, and Elaine Holmes

Subjects

Metabolic energy, education.field_of_study, Population level, business.industry, Population, Healthy eating, Disease, Individual level, World health, Dietary interventions, Environmental health, Medicine, Animal Science and Zoology, business, education, Agronomy and Crop Science, Food Science

Abstract

Habitual consumption of poor quality diets is linked directly to risk factors for many non-communicable diseases. This has resulted in the vast majority of countries and the World Health Organization developing policies for healthy eating to reduce the prevalence of non-communicable diseases in the population. However, there is mounting evidence of variability in individual metabolic responses to any dietary intervention. We have developed a method for applying a pipeline for understanding interindividual differences in response to diet, based on coupling data from highly controlled dietary studies with deep metabolic phenotyping. In this feasibility study, we create an individual Dietary Metabotype Score (DMS) that embodies interindividual variability in dietary response and captures consequent dynamic changes in concentrations of urinary metabolites. We find an inverse relationship between the DMS and blood glucose concentration. There is also a relationship between the DMS and urinary metabolic energy loss. Furthermore, we use a metabolic entropy approach to visualize individual and collective responses to dietary interventions. Potentially, the DMS offers a method to target and to enhance dietary response at the individual level, thereby reducing the burden of non-communicable diseases at the population level. Variability in the individual response to dietary interventions has been reported. Here a Dietary Metabotype Score is developed to embody those interindividual responses by coupling data from highly controlled dietary studies with urinary metabolic phenotypes. This score may offer a method to target and to enhance dietary response at the individual level, thereby reducing the burden of diet-related disease at the population level.

Published

2020

80. Characterisation of the Serum Metabolic Signature of Cholangiocarcinoma in a United Kingdom Cohort

Author

Matthew E. Cramp, Mohamed I.F. Shariff, Munirah Alsaleh, Thomas A Barbera, Yi-Liang Shen, Puangrat Yongvanit, Simon D. Taylor-Robinson, Elaine Holmes, Shaun Greer, Mary M.E. Crossey, Larry K. Koomson, Stephen D. Ryder, Paiboon Sithithaworn, Watcharin Loilome, Abigail Zabron, Christopher A. Wadsworth, Kathryn Nash, Martin Prince, Zoe Leftley, Narong Khuntikeo, Helen L. Reeves, I. Jane Cox, Roger Williams, AMMF, Wellcome Trust, Imperial Health Charity, Imperial College Trust, and Royal College of Physicians

Subjects

HILIC, hydrophilic interaction liquid chromatography, Cirrhosis, VIP, variable importance in projection, MDR3, multidrug-resistant protein 3, Gastroenterology, PC, phosphatidylcholine, Liver disease, 0302 clinical medicine, Primary biliary cirrhosis, PHOSPHATIDYLCHOLINE, ABC, ATP-binding cassette, Hepatobiliary disease, HPO, hydrogen peroxide, MAGNETIC-RESONANCE-SPECTROSCOPY, LYSOPHOSPHATIDYLCHOLINE, metabolomics, LC-MS, liquid chromatography–mass spectroscopy, 3. Good health, 030220 oncology & carcinogenesis, CRP, C-reactive protein, Biomarker (medicine), Original Article, 030211 gastroenterology & hepatology, cholangiocarcinoma, Life Sciences & Biomedicine, medicine.medical_specialty, CCA, cholangiocarcinoma, PE, phosphatidylethanolamine, 03 medical and health sciences, Metabolomics, diagnostic biomarkers, Cholestasis, Internal medicine, medicine, Metabolome, NMR, nuclear magnetic resonance, UPLC, Ultraperformance liquid chromatography, metabolic finger print, PRIMARY BILIARY-CIRRHOSIS, PCA, principal component analysis, Science & Technology, Gastroenterology & Hepatology, MS, mass spectroscopy, Hepatology, MUTATIONS, business.industry, GC–MS, gas chromatography–mass spectroscopy, medicine.disease, OPLS, orthogonal projections to latent structures, PSC, primary sclerosing cholangitis, OPLS-DA, orthogonal projections to latent structures discriminant analysis, mass spectroscopy, DDA, data-dependent acquisition, BILE, ESI, electrospray ionisation, PBC, primary biliary cirrhosis, HCC, hepatocellular carcinoma, business

Abstract

Background A distinct serum metabonomic pattern has been previously revealed to be associated with various forms of liver disease. Here, we aimed to apply mass spectrometry to obtain serum metabolomic profiles from individuals with cholangiocarcinoma and benign hepatobiliary diseases to gain an insight into pathogenesis and search for potential early-disease biomarkers. Methods Serum samples were profiled using a hydrophilic interaction liquid chromatography platform, coupled to a mass spectrometer. A total of 47 serum specimens from 8 cholangiocarcinoma cases, 20 healthy controls, 8 benign disease controls (bile duct strictures) and 11 patients with hepatocellular carcinoma (as malignant disease controls) were included. Data analysis was performed using univariate and multivariate statistics. Results The serum metabolome disparities between the metabolite profiles from healthy controls and patients with hepatobiliary disease were predominantly related to changes in lipid and lipid-derived compounds (phospholipids, bile acids and steroids) and amino acid metabolites (phenylalanine). A metabolic pattern indicative of inflammatory response due to cirrhosis and cholestasis was associated with the disease groups. The abundance of phospholipid metabolites was altered in individuals with liver disease, particularly cholangiocarcinoma, but no significant difference was seen between profiles from patients with benign biliary strictures and cholangiocarcinoma. Conclusion The serum metabolome in cholangiocarcinoma exhibited changes in metabolites related to inflammation, altered energy production and phospholipid metabolism. This study serves to highlight future avenues for biomarker research in large-scale studies.

Published

2020

81. Exploring Metabolic Consequences of CPS1 and CAD Dysregulation in Hepatocellular Carcinoma by Network Reconstruction

Author

Simon D. Taylor-Robinson, Shahid A. Khan, Abellona Mr U, Elaine Holmes, and Ozbil E Dumenci

Subjects

Human Protein Atlas, CAD, Computational biology, Biology, Carbamoyl phosphate synthetase, 03 medical and health sciences, 0302 clinical medicine, Dihydroorotase, 030220 oncology & carcinogenesis, Pyrimidine metabolism, 030211 gastroenterology & hepatology, Human Metabolome Database, KEGG, Gene

Abstract

Purpose Hepatocellular carcinoma (HCC) is the fourth commonest cause of cancer-related mortality; it is associated with various genetic alterations, some involved in metabolic reprogramming. This study aimed to explore the potential metabolic impact of Carbamoyl Phosphate Synthase I (CPS1) and carbamoyl phosphate synthetase/aspartate transcarbamoylase/dihydroorotase (CAD) dysregulation through the reconstruction of a network that integrates information from the Kyoto Encyclopedia of Genes and Genomes (KEGG) database, Human Metabolome Database (HMDB) and Human Protein Atlas (HPA). Methods and results Existing literature was used to determine the roles of CPS1 and CAD in HCC. CPS1 downregulation is thought to play a role in hepatocarcinogenesis through an increased glutamine availability for de novo pyrimidine biosynthesis, which CAD catalyzes the first three steps for. KEGG, HMDB and HPA were used to reconstruct a network of relevant pathways, demonstrating the relationships between genes and metabolites using the MetaboSignal package in R. The network was filtered to exclude any duplicates, and those greater than three steps away from CPS1 or CAD. Consequently, a network of 18 metabolites, 28 metabolic genes and 1 signaling gene was obtained, which indicated expression profiles and prognostic information of each gene in the network. Conclusion Information from different databases was collated to form an informative network that integrated different "-omics" approaches, demonstrating the relationships between genetic and metabolic components of urea cycle and the de novo pyrimidine biosynthesis pathway. This study paves the way for further research by acting as a template to investigate the relationships between genes and metabolites, explore their potential roles in various diseases and aid the development of new screening and treatment methods through network reconstruction.

Published

2020

82. Balancing the equation: a natural history of trimethylamine and trimethylamine-N-oxide

Author

Ruey Leng Loo, Queenie Chan, Jeremy Kirk Nicholson, Elaine Holmes, and Imperial College Healthcare NHS Trust- BRC Funding

Subjects

Biochemistry & Molecular Biology, osmolyte, Bacteria, trimethylamine N-oxide, FMO3, metabolic profiling, Oxides, General Chemistry, 06 Biological Sciences, host−microbial cometabolism, Biochemistry, Methylamines, cardiovascular disease, trimethylamine, Animals, symbiotic, 03 Chemical Sciences

Abstract

Trimethylamine (TMA) and its N-oxide (TMAO) are ubiquitous in prokaryote and eukaryote organisms as well as in the environment, reflecting their fundamental importance in evolutionary biology, and their diverse biochemical functions. Both metabolites have multiple biological roles including cell-signaling. Much attention has focused on the significance of serum and urinary TMAO in cardiovascular disease risk, yet this is only one of the many facets of a deeper TMA-TMAO partnership that reflects the significance of these metabolites in multiple biological processes spanning animals, plants, bacteria, and fungi. We report on analytical methods for measuring TMA and TMAO and attempt to critically synthesize and map the global functions of TMA and TMAO in a systems biology framework.

Published

2022

83. Retraction Note: Dietary metabotype modelling predicts individual responses to dietary interventions

Author

Isabel Garcia-Perez, Joram M. Posma, Edward S. Chambers, John C. Mathers, John Draper, Manfred Beckmann, Jeremy K. Nicholson, Elaine Holmes, and Gary Frost

Subjects

Animal Science and Zoology, Agronomy and Crop Science, Food Science

Published

2023

84. Clinical and molecular evidence of accelerated ageing following very preterm birth

Author

Elaine Holmes, Robby J Emsley, Nicholas T. Longford, Neena Modi, Jane L Tarry Adkins, James R.C. Parkinson, Susan E. Ozanne, and British Heart Foundation

Subjects

medicine.medical_specialty, BLOOD-PRESSURE, Molecular evidence, Pediatrics, 1117 Public Health and Health Services, 03 medical and health sciences, 0302 clinical medicine, 030225 pediatrics, medicine, Very Preterm Birth, Young adult, GESTATIONAL-AGE, Abdominal obesity, METABOLIC SYNDROME, Science & Technology, PLASMA, business.industry, Obstetrics, MORTALITY, Gestational age, medicine.disease, Blood pressure, VISCERAL FAT, Ageing, ABDOMINAL OBESITY, Pediatrics, Perinatology and Child Health, GROWTH, 1114 Paediatrics and Reproductive Medicine, ADIPOSITY, medicine.symptom, Metabolic syndrome, business, Life Sciences & Biomedicine, CHILDREN BORN, 030217 neurology & neurosurgery

Abstract

BACKGROUND: The mechanisms responsible for the associations between very preterm birth and a higher risk of poor cardiovascular and metabolic health in adult life are unknown. METHODS: Here, we compare the clinical and molecular phenotypes of healthy, normal-weight young adults (18-27 years), born very preterm (

Published

2019

85. Longitudinal Multi-omic Phenotyping Reveals Host-microbe Responses to Bariatric Surgery, Glycaemic Control and Obesity

Author

Nicholas Penney, Derek Yeung, Isabel Garcia-Perez, Joram POSMA, Aleksandra Kopytek, Bethany Garratt, Hutan Ashrafian, Gary Frost, Julian Marchesi, Sanjay Purkayastha, Lesley Hoyles, Ara Darzi, and Elaine Holmes

Subjects

nutritional and metabolic diseases

Abstract

Resolution of type-2 diabetes (T2D) is common following bariatric surgery, particularly Roux-en-Y gastric bypass (RYGB). However, the underlying mechanisms have not been fully elucidated. To address this we compared the integrated serum, urine and faecal metabolic profiles of obese participants with and without T2D (n=81, T2D=42) with participants who underwent RYGB or sleeve gastrectomy (pre and 3-months post-surgery; n=27), taking diet into account. We co-modelled these data with shotgun metagenomic profiles of the gut microbiota to provide a comprehensive atlas of host-gut microbe responses to bariatric surgery, weight-loss and glycaemic control at the systems level. Bariatric surgery reversed a number of disrupted pathways characteristic of T2D. The differential metabolite set representative of bariatric surgery overlapped with both diabetes (19.3% commonality) and BMI (18.6% commonality). However, the percentage overlap between diabetes and BMI was minimal (4.0% commonality), consistent with weight-independent mechanisms of T2D resolution. The gut microbiota was more strongly correlated to BMI than T2D, although we identified some pathways such as amino acid metabolism that correlated with changes to the gut microbiota and which influence glycaemic control. Improved understanding of GM-host co-metabolism may lead to novel therapies for weight-loss or diabetes.

Published

2021

86. Untargeted lipidomics differentiate ACLF precipitated by severe alcoholic hepatitis

Author

Florent Artru, Stephen Atkinson, Ewan Forrest, Francesca Trovato, Nikhil Vergis, Vishal C Patel, Salma Mujib, Anna Cavazza, Alexandros Pechlivanis, Ellen Jerome, Marc Zentar, Evangelos Triantafyllou, Elaine Holmes, Mark J W McPhail, and Mark Thursz

Subjects

Hepatology

Published

2022

87. Profiling gut microbiota and bile acid metabolism in critically ill children

Author

Iain Robert Louis Kean, Joseph Wagner, Anisha Wijeyesekera, Marcus De Goffau, Sarah Thurston, John A. Clark, Deborah K. White, Jenna Ridout, Shruti Agrawal, Riaz Kayani, Roddy O’Donnell, Padmanabhan Ramnarayan, Mark J. Peters, Nigel Klein, Elaine Holmes, Julian Parkhill, Stephen Baker, Nazima Pathan, Kean, Iain [0000-0003-1066-8285], Baker, Stephen [0000-0003-1308-5755], Apollo - University of Cambridge Repository, Vascular Medicine, and ACS - Diabetes & metabolism

Subjects

CHOLIC-ACID, Clostridiales, Science & Technology, 7-ALPHA-DEHYDROXYLATION, Multidisciplinary, Critical Illness, DIVERSITY, GERM-FREE, humanities, Gastrointestinal Microbiome, Multidisciplinary Sciences, Bile Acids and Salts, DELIVERY, Feces, BUTYRATE, RNA, Ribosomal, 16S, BACTERIA, Science & Technology - Other Topics, Humans, Child

Abstract

Funder: Great Ormond Street Hospital Charity; doi: http://dx.doi.org/10.13039/501100001279, Funder: Imperial College London; doi: http://dx.doi.org/10.13039/501100000761, Funder: Evelyn Trust; doi: http://dx.doi.org/10.13039/501100004282, Funder: European Society of Intensive Care Medicine; doi: http://dx.doi.org/10.13039/501100013347, Broad-spectrum antimicrobial use during the treatment of critical illness influences gastrointestinal fermentation endpoints, host immune response and metabolic activity including the conversion of primary to secondary bile acids. We previously observed reduced fermentation capacity in the faecal microbiota of critically ill children upon hospital admission. Here, we further explore the timecourse of the relationship between the microbiome and bile acid profile in faecal samples collected from critically ill children. The microbiome was assayed by sequencing of the 16S rRNA gene, and faecal water bile acids were measured by liquid chromatography mass spectrometry. In comparison to admission faecal samples, members of the Lachnospiraceae recovered during the late-acute phase (days 8-10) of hospitalisation. Patients with infections had a lower proportion of Lachnospiraceae in their gut microbiota than controls and patients with primary admitting diagnoses. Keystone species linked to ecological recovery were observed to decline with the length of PICU admission. These species were further suppressed in patients with systemic infection, respiratory failure, and undergoing surgery. Bile acid composition recovers quickly after intervention for critical illness which may be aided by the compositional shift in Lachnospiraceae. Our findings suggest gut microbiota recovery can be readily assessed via measurement of faecal bile acids.

Published

2021

88. Lipidomics and body fat composition analysis characterises specific differences in cholesterol metabolism and steatosis between hepatitis C virus genotypes 1 and 3

Author

Simon H. Bridge, Isaac Thom Shawa, E. Louise Thomas, Margaret F. Bassendine, Simon D. Taylor-Robinson, David Sheridan, Elaine Holmes, Jeremy F. L. Cobbold, Dermot Neely, and Daniel J. Felmlee

Subjects

medicine.medical_specialty, Fat composition, Hepatitis C virus, virus diseases, Biology, medicine.disease, medicine.disease_cause, digestive system diseases, Endocrinology, Internal medicine, Genotype, Lipidomics, medicine, Cholesterol metabolism, Steatosis

Abstract

Background Lipids play essential roles in the hepatitis C virus (HCV) life cycle and patients with chronic HCV infection display disordered lipid metabolism which resolves following successful anti-viral therapy. It has been proposed that HCV genotype 3 (HCV-G3) infection is an independent risk factor for hepatocellular carcinoma and evidence suggests lipogenic proteins are involved in hepatocarcinogenesis. Aims We aimed to characterise variation in host lipid metabolism between participants chronically infected with HCV genotype 1 (HCV-G1) and HCV-G3 to identify likely genotype-specific differences in lipid metabolism. Methods We combined several lipidomic approaches: analysis was performed between participants infected with HCV-G1 and HCV-G3, both in the fasting and non-fasting states, and after sustained virological response (SVR) to treatment. Sera were obtained from 112 fasting patients (25% with cirrhosis). Serum lipids were measured using standard enzymatic methods. Lathosterol and desmosterol were measured by gas-chromatography mass spectrometry (MS). For further metabolic insight on lipid metabolism, ultra-performance liquid chromatography MS was performed on all samples. A subgroup of 13 participants had whole body fat distribution determined using in vivo magnetic resonance imaging and spectroscopy. A second cohort of (non-fasting) sera were obtained from HCV Research UK for comparative analyses: 150 treatment naïve patients and 100 non-viraemic patients post-SVR. Results HCV-G3 patients had significantly decreased serum apoB, non-HDL cholesterol concentrations, and more hepatic steatosis than those with HCV-G1. HCV-G3 patients also had significantly decreased serum levels of lathosterol, without significant reductions in desmosterol. Lipidomic analysis showed lipid species associated with reverse cholesterol transport pathway in HCV-G3. Conclusions We demonstrated that compared to HCV-G1, HCV-G3 infection is characterised by low LDL cholesterol levels, with preferential suppression of cholesterol synthesis via lathosterol, associated with increasing hepatic steatosis. The genotype-specific lipid disturbances may shed light on genotypic variations in liver disease progression and promotion of hepatocellular cancer in HCV-G3.

Published

2021

89. Systemic long-term metabolic effects of acute non-severe paediatric burn injury

Author

Sofina Begum, Blair Z. Johnson, Aude-Claire Morillon, Rongchang Yang, Sze How Bong, Luke Whiley, Nicola Gray, Vanessa S. Fear, Leila Cuttle, Andrew J. A. Holland, Jeremy K. Nicholson, Fiona M. Wood, Mark W. Fear, and Elaine Holmes

Subjects

Multidisciplinary, Cytokines, Humans, Burns, Child

Abstract

A growing body of evidence supports the concept of a systemic response to non-severe thermal trauma. This provokes an immunosuppressed state that predisposes paediatric patients to poor recovery and increased risk of secondary morbidity. In this study, to understand the long-term systemic effects of non-severe burns in children, targeted mass spectrometry assays for biogenic amines and tryptophan metabolites were performed on plasma collected from child burn patients at least three years post injury and compared to age and sex matched non-burn (healthy) controls. A panel of 12 metabolites, including urea cycle intermediates, aromatic amino acids and quinolinic acid were present in significantly higher concentrations in children with previous burn injury. Correlation analysis of metabolite levels to previously measured cytokine levels indicated the presence of multiple cytokine-metabolite associations in the burn injury participants that were absent from the healthy controls. These data suggest that there is a sustained immunometabolic imprint of non-severe burn trauma, potentially linked to long-term immune changes that may contribute to the poor long-term health outcomes observed in children after burn injury.

Published

2021

90. Mapping of Population Disparities in the Cholangiocarcinoma Urinary Metabolome

Author

Thomas Hughes, Ross H. Andrews, Christopher A. Wadsworth, Thomas O'Connor, Zoe Leftley, Shaun Greer, Stephen D. Ryder, Larry K. Koomson, Puangrat Yongvanit, Munirah Alsaleh, I. Jane Cox, Narong Khuntikeo, Paiboon Sithithaworn, Helen L. Reeves, Watcharin Loilome, Abigail Zabron, Martin Prince, Thomas A Barbera, Matthew E. Cramp, Roger Williams, Elaine Holmes, Simon D. Taylor-Robinson, Kathryn Nash, and Wellcome Trust

Subjects

Adult, Male, OPISTHORCHIS-VIVERRINI, Metabolite, Urinary system, Science, Population, Physiology, Diseases, Urine, Disease, Biology, PROFILE, digestive system, Mass Spectrometry, Article, Cholangiocarcinoma, chemistry.chemical_compound, Medical research, Metabolome, Humans, Metabolomics, education, Carcinogen, Aged, Aged, 80 and over, education.field_of_study, Multidisciplinary, Science & Technology, DIPEPTIDES, Gastroenterology, Middle Aged, Thailand, United Kingdom, Multidisciplinary Sciences, chemistry, Biological Variation, Population, Population Surveillance, Medicine, Science & Technology - Other Topics, Female, Drug metabolism, Biomarkers, Chromatography, Liquid

Abstract

Background Phenotypic diversity in urinary metabolomes of different geographical populations has been recognized recently. In this study, urinary metabolic signatures from Western (United Kingdom) and South-East Asian (Thai) cholangiocarcinoma patients were characterized to understand spectral variability due to host carcinogenic processes and/or exogenous differences (nutritional, environmental and pharmaceutical). Methods Urinary liquid chromatography mass spectroscopy (LC-MS) spectral profiles from Thai (healthy=20 and cholangiocarcinoma=14) and UK cohorts (healthy=22 and cholangiocarcinoma=10) were obtained and modelled using chemometric data analysis. Results Healthy metabolome disparities between the two distinct populations were primarily related to differences in dietary practices and body composition. Metabolites excreted due to drug treatment were dominant in urine specimens from cholangiocarcinoma patients, particularly in Western individuals. Urine from participants with sporadic (UK) cholangiocarcinoma contained greater levels of a nucleotide metabolite (uridine/pseudouridine). Higher relative concentrations of 7-methylguanine were observed in urine specimens from Thai cholangiocarcinoma patients. The urinary excretion of hippurate and methyladenine (gut microbial-host co-metabolites) showed a similar pattern of lower levels in patients with malignant biliary tumours from both countries. Conclusion Intrinsic (body weight and body composition) and extrinsic (xenobiotic metabolism) factors were the main causes of disparities between the two populations. Regardless of the underlying aetiology, biological perturbations associated with cholangiocarcinoma urine metabolome signatures appeared to be influenced by gut microbial community metabolism. Dysregulation in nucleotide metabolism was associated with sporadic cholangiocarcinoma, possibly indicating differences in mitochondrial energy production pathways between cholangiocarcinoma tumour subtypes. Mapping population-specific metabolic disparities may aid in interpretation of disease processes and identification of candidate biomarkers.

Published

2021

91. Tryptophan-metabolizing gut microbes regulate adult neurogenesis via the aryl hydrocarbon receptor

Author

Eng-King Tan, Paul M. Matthews, Janet Rossant, Sophia Hejndorf, Luke Whiley, Elaine Holmes, Katherine A. Martin, Jeremy Zhi Yan Low, Jeremy K. Nicholson, Thomas K. Wood, Peter Yuli Xing, Ruchi Agrawal, George Zhang Wei, Robert Nechanitzky, Sven Pettersson, and Yong Zhi Ng

Subjects

Male, Aging, Indoles, Neurogenesis, chemistry.chemical_compound, Neural Stem Cells, microbiota, Animals, tryptophan metabolism, Indole test, Mice, Knockout, Multidisciplinary, biology, aryl hydrocarbon receptor, Dentate gyrus, Systems Biology, Tryptophan, Biological Sciences, Aryl hydrocarbon receptor, Neural stem cell, Cell biology, Gastrointestinal Microbiome, Mice, Inbred C57BL, chemistry, Receptors, Aryl Hydrocarbon, indole, Mutation, biology.protein, Signal transduction, Postsynaptic density, Kynurenine

Abstract

Significance While the effects of gut microbes on brain development and function have been described, the mechanisms remain largely unknown. Here, we report that tryptophan-metabolizing gut microbes secrete indoles that regulate neurogenesis in the adult hippocampus. This stimulatory effect on adult neurogenesis is mediated by the metabolic- and immune-linked aryl hydrocarbon receptor (AhR). Another AhR ligand, the tryptophan metabolite kynurenine, failed to induce neurogenesis, suggesting ligand specificity of AhR-mediated regulation of adult neurogenesis. The indole-AhR signaling pathway elevates transcription factors and signaling proteins that promote adult neurogenesis, as well as key markers of synaptic maturation. Our data demonstrate a symbiotic gut–brain coregulatory axis that connects the metabolic status of gut microbes to the control of neurogenesis in the adult hippocampus., While modulatory effects of gut microbes on neurological phenotypes have been reported, the mechanisms remain largely unknown. Here, we demonstrate that indole, a tryptophan metabolite produced by tryptophanase-expressing gut microbes, elicits neurogenic effects in the adult mouse hippocampus. Neurogenesis is reduced in germ-free (GF) mice and in GF mice monocolonized with a single-gene tnaA knockout (KO) mutant Escherichia coli unable to produce indole. External administration of systemic indole increases adult neurogenesis in the dentate gyrus in these mouse models and in specific pathogen-free (SPF) control mice. Indole-treated mice display elevated synaptic markers postsynaptic density protein 95 and synaptophysin, suggesting synaptic maturation effects in vivo. By contrast, neurogenesis is not induced by indole in aryl hydrocarbon receptor KO (AhR−/−) mice or in ex vivo neurospheres derived from them. Neural progenitor cells exposed to indole exit the cell cycle, terminally differentiate, and mature into neurons that display longer and more branched neurites. These effects are not observed with kynurenine, another AhR ligand. The indole-AhR–mediated signaling pathway elevated the expression of β-catenin, Neurog2, and VEGF-α genes, thus identifying a molecular pathway connecting gut microbiota composition and their metabolic function to neurogenesis in the adult hippocampus. Our data have implications for the understanding of mechanisms of brain aging and for potential next-generation therapeutic opportunities.

Published

2021

92. Temporal Fluctuations of Gut Microbiota and Bile Acid Metabolism in Critically Ill Children

Author

Jenna Ridout, Padmanabhan Ramnarayan, Stephen Baker, Nazima Pathan, Roddy O’Donnell, Anisha Wijeyesekera, Riaz Kayani, Nigel Klein, Sarah Thurston, Shruti Agrawal, Iain Kean, Julian Parkhill, John A. Clark, Josef Wagner, Mark J. Peters, Elaine Holmes, Marcus C. de Goffau, and Deborah K. White

Subjects

biology, Critically ill, Physiology, Bile acid metabolism, Gut flora, biology.organism_classification, digestive system

Abstract

Background: Critical illness frequently requires the use of broad-spectrum antimicrobials to treat life-threatening infection. The resulting impact on microbiome diversity is profound, influencing gastrointestinal fermentation endpoints, host immune response and metabolic activity including the conversion of primary bile acids to secondary bile acids. We previously observed reduced fermentation capacity in the gut microbiota of critically ill children upon hospital admission, but the functional recovery trajectory of the paediatric gut microbiome during critical illness has not been well defined. Here, we longitudinally studied the intestinal microbiome and faecal bile acid profile of critically ill children during hospitalisation in a paediatric intensive care unit (PICU). The composition of the microbiome was determined by sequencing of the 16s rRNA gene, and bile acids were measured from faecal water by liquid chromatography hyphenated to mass spectrometry. Results: In comparison to admission faecal samples, members of Clostridium cluster XIVa and Lachnospiraceae recovered during the late-acute phase (days 8-10) of hospitalisation. Patients with infections had a lower proportion of Lachnospiraceae in their gut microbiota than control microbiota and patients with admitting diagnoses. The proportion of Recovery Associated Bacteria (RAB) was observed to decline with the length of PICU admission. Additionally, the proportions of RAB were reduced in those with systemic infection, respiratory failure, and undergoing surgery. Notably, Clostridioides were positively associated with the secondary bile acid deoxycholic acid, which we hypothesised to driven by secondary bile acid induced sporulation; the ratio of primary to secondary bile acids demonstrated recovery during critical illness. Conclusion: The recovery of secondary bile acids occurs quickly after intervention for critical illness. Bile acid recovery may be induced by the Lachnospiraceae , the composition of which shifts during critical illness. Our data suggest that gut health and early gut microbiota recovery can be assessed by readily quantifiable faecal bile acid profiles.

Published

2021

93. The rationale and design of a Mediterranean diet accompanied by time restricted feeding to optimise the management of type 2 diabetes: The MedDietFast randomised controlled trial

Author

Elaine Holmes, Catherine Itsiopoulos, Demosthenes B. Panagiotakos, Polychronis Koutsakis, Dimitra Papamichou, Ruey Leng Loo, and Hariklia Katsoulotos

Subjects

Adult, medicine.medical_specialty, Mediterranean diet, Endocrinology, Diabetes and Metabolism, Medicine (miscellaneous), Type 2 diabetes, Diet, Mediterranean, law.invention, Young Adult, Insulin resistance, Randomized controlled trial, Diabetes management, Weight loss, law, Internal medicine, Intermittent fasting, Medicine, Humans, Aged, Nutrition and Dietetics, business.industry, Australia, Fasting, Middle Aged, medicine.disease, Clinical trial, Diabetes Mellitus, Type 2, medicine.symptom, Insulin Resistance, Cardiology and Cardiovascular Medicine, business

Abstract

Background and Aims Substantial scientific evidence supports the effectiveness of a Mediterranean diet (MedDiet) in managing type 2 diabetes mellitus (T2DM). Potential benefits of time restricted feeding (TRF) in T2DM are unknown. The MedDietFast trial aims to investigate the efficacy of a MedDiet with or without TRF compared to standard care diet in managing T2DM. Methods and Results 120 adults aged 20 -75 with a body mass index (BMI) of 20-35 kg/m2 and T2DM will be randomised in a 3-arm parallel design to follow an ad libitum MedDiet with or without 12-hours TRF or the standard Australian Dietary Guidelines (ADG) for 24 weeks. All groups will receive dietary counselling fortnightly for 12 weeks and monthly thereafter. The primary outcome is changes in HbA1c from baseline to 12 and 24 weeks. Secondary outcomes include fasting blood glucose, insulin, blood lipids, weight loss, insulin resistance index (HOMA), Glucagon-like peptide 1 (GLP-1) and high-sensitivity C- reactive protein (hs-CRP). Data on medical history, anthropometry, wellbeing, MedDiet adherence and satiety will be measured at a private clinic via self-report questionnaires at baseline, 6, 12 and 24 weeks. Additionally, specimens (blood, urine and stool) will be collected at all time points for future omics analysis. Conclusion The MedDietFast trial will examine the feasibility and effectiveness of a MedDiet with/without TRF in T2DM patients. Potential synergistic effects of a MedDiet with TRF will be evaluated. Future studies will generate microbiomic and metabolomic data for translation of findings into simple and effective management plans for T2DM patients. Trial registration Australia and New Zealand Clinical Trials Register, ACTRN12619000246189

Published

2021

94. Characterization of diet-dependent temporal changes in circulating short-chain fatty acid concentrations: a randomized crossover dietary trial

Author

Jerusa Brignardello, Sofia Fountana, Joram Matthias Posma, Edward S Chambers, Jeremy K Nicholson, Julien Wist, Gary Frost, Isabel Garcia-Perez, Elaine Holmes, and Imperial College Healthcare NHS Trust- BRC Funding

Subjects

Nutrition and Dietetics, Science & Technology, FERMENTATION, Nutrition & Dietetics, HUMAN-COLON, NITROGEN-METABOLISM ROLE, short-chain fatty acids, metabolite, GUT MICROBIOTA, Medicine (miscellaneous), APPETITE REGULATION, INSULIN, 09 Engineering, GLUCOSE, LIPID-METABOLISM, HUMAN LARGE-INTESTINE, ACETATE, GC-MS, diet, Life Sciences & Biomedicine, branched-chain fatty acid, 11 Medical and Health Sciences, fiber

Abstract

Production of SCFAs from food is a complex and dynamic saccharolytic fermentation process mediated by both human and gut microbial factors. Knowledge of SCFA production and of the relation between SCFA profiles and dietary patterns is lacking.Temporal changes in SCFA concentrations in response to 2 contrasting diets were investigated using a novel GC-MS method.Samples were obtained from a randomized, controlled, crossover trial designed to characterize the metabolic response to 4 diets. Participants (n = 19) undertook these diets during an inpatient stay (of 72 h). Serum samples were collected 2 h after breakfast (AB), after lunch (AL), and after dinner (AD) on day 3, and a fasting sample (FA) was obtained on day 4. The 24-h urine samples were collected on day 3. In this substudy, samples from the 2 extreme diets representing a diet with high adherence to WHO healthy eating recommendations and a typical Western diet were analyzed using a bespoke GC-MS method developed to detect and quantify 10 SCFAs and precursors in serum and urine samples.Considerable interindividual variation in serum SCFA concentrations was observed across all time points, and temporal fluctuations were observed for both diets. Although the sample collection timing exerted a greater magnitude of effect on circulating SCFA concentrations, the unhealthy diet was associated with a lower concentration of acetic acid (FA: coefficient: -17.0; SE: 5.8; P-trend = 0.00615), 2-methylbutyric acid (AL: coefficient: -0.1; SE: 0.028; P-trend = 4.13 × 10-4 and AD: coefficient: -0.1; SE: 0.028; P-trend = 2.28 × 10-3), and 2-hydroxybutyric acid (FA: coefficient: -15.8; SE: 5.11; P-trend: 4.09 × 10-3). In contrast, lactic acid was significantly higher in the unhealthy diet (AL: coefficient: 750.2; SE: 315.2; P-trend = 0.024 and AD: coefficient: 1219.3; SE: 322.6; P-trend: 8.28 × 10-4).The GC-MS method allowed robust mapping of diurnal patterns in SCFA concentrations, which were affected by diet, and highlighted the importance of standardizing the timing of SCFA measurements in dietary studies. This trial was registered on the NIHR UK clinical trial gateway and with ISRCTN as ISRCTN43087333.

Published

2021

95. Mass Spectrometry: A Guide for the Clinician

Author

Puangrat Yongvanit, IJ Cox, Simon D. Taylor-Robinson, Thomas A Barbera, Richard R. A. Syms, Narong Khuntikeo, Munirah Alsaleh, Watcharin Loilome, Elaine Holmes, Ross H. Andrews, and Paiboon Sithithaworn

Subjects

Science & Technology, Gastroenterology & Hepatology, Hepatology, targeted profiling, business.industry, DC - Direct current, mass-charge ratio, metabolic profiling, Review Article, Computational biology, METABOLOMICS, Mass spectrometry, NMR - Nuclear magnetic resonance, 03 medical and health sciences, 0302 clinical medicine, Metabolomics, 030220 oncology & carcinogenesis, Sample classification, mass spectroscopy, URINE, Medicine, 030211 gastroenterology & hepatology, Biomarker discovery, business, Life Sciences & Biomedicine

Abstract

Metabolic profiling, metabonomics and metabolomics are terms coined in the late 1990s as they emerged as the newest ‘omics’ technology at the time. This line of research enquiry uses spectroscopic analytical platforms, which are mainly nuclear magnetic resonance spectroscopy and mass spectrometry (MS), to acquire a snapshot of metabolites, the end products of a complex biological system. Metabolic profiling enables the detection, quantification and characterisation of metabolites in biofluids, cells and tissues. The source of these compounds can be of endogenous, microbial or exogenous origin, such as dietary or xenobiotic. This results in generating extensive, multivariate spectroscopic data that require specific statistical manipulation, typically performed using chemometric and pattern recognition techniques to reduce its dimensions, facilitate its biological interpretation and allow sample classification and biomarker discovery. Consequently, it is possible to study the dynamic metabolic changes in response to disease, intervention or environmental conditions. In this review, we describe the fundamentals of MS so that clinicians can be literate in the field and are able to interrogate the right scientific questions.

Published

2019

96. Enhanced Microbial Bile Acid Deconjugation and Impaired Ileal Uptake in Pregnancy Repress Intestinal Regulation of Bile Acid Synthesis

Author

Hanns-Ulrich Marschall, Ann Smith, Fouzia Sadiq, Julian R. Marchesi, Caroline Ovadia, Konstantina Spagou, Alice Mitchell, Elena Bellafante, Natalie Santa‐Pinter, Magali Sarafian, Alvaro Perdones-Montero, Shadi Abu-Hayyeh, Peter H. Dixon, Catherine Williamson, Annika Wahlström, María Gómez-Romero, Louise C. D. Clarke, Vanya Nikolova, Julian R.F. Walters, Elaine Holmes, and Imperial College Trust

Subjects

0301 basic medicine, medicine.medical_specialty, medicine.drug_class, BETA, METABOLISM, Gut flora, digestive system, MECHANISMS, 03 medical and health sciences, 0302 clinical medicine, Cholestasis, Internal medicine, Bile acid conjugation, medicine, Intestinal Reabsorption, INTRAHEPATIC CHOLESTASIS, Science & Technology, Gastroenterology & Hepatology, Hepatology, biology, Bile acid, Chemistry, GUT MICROBIOTA, TRANSPORTER, 1103 Clinical Sciences, FGF19, Metabolism, Original Articles, medicine.disease, biology.organism_classification, 3. Good health, MICE, 030104 developmental biology, Endocrinology, Autoimmune, Cholestatic and Biliary Disease, FXR, 1101 Medical Biochemistry and Metabolomics, Nuclear receptor, Metabolome, GROWTH, HORMONES, 030211 gastroenterology & hepatology, Farnesoid X receptor, Original Article, Microbiome, Life Sciences & Biomedicine, Gestation

Abstract

Pregnancy is associated with progressive hypercholanemia, hypercholesterolemia and hypertriglyceridemia, which can result in metabolic disease in susceptible women. Gut signals modify hepatic homeostatic pathways, linking intestinal content to metabolic activity. We sought to identify whether enteric endocrine signals contribute to raised serum bile acids observed in human and murine pregnancies, by measuring fibroblast growth factor (FGF)19/15 protein and mRNA levels, and 7α-hydroxy-4-cholesten-3-one. Terminal ileal farnesoid X receptor(FXR)-mediated gene expression and apical sodium bile acid transporter (ASBT) protein concentration were measured by qPCR and western blotting. Shotgun whole genome sequencing and UPLC-MS were used to determine the cecal microbiome and metabonome. Targeted and untargeted pathway analyses were performed to predict the systemic effects of the altered metagenome and metabolite profiles. Dietary cholic acid supplementation was used to determine whether the observed alterations could be overcome by intestinal bile acids functioning as FXR agonists. Human and murine pregnancy were associated with reduced intestinal FXR signaling, with lower FGF19/15 and resultant increased hepatic bile acid synthesis. Terminal ileal ASBT protein was reduced in murine pregnancy. Cecal bile acid conjugation was reduced in pregnancy due to elevated bile salt hydrolase-producing Bacteroidetes. Cholic acid supplementation induced intestinal FXR signaling, which was not abrogated by pregnancy, with strikingly similar changes to the microbiota and metabonome as identified in pregnancy. Conclusion the altered intestinal microbiota of pregnancy enhance bile acid deconjugation, reducing ileal bile acid uptake and lowering FXR induction in enterocytes. This exacerbates the effects mediated by reduced bile acid uptake transporters in pregnancy. Thus, in pregnant women and mice, there is reduced FGF19/15-mediated hepatic repression of hepatic bile acid synthesis, resulting in hypercholanemia. This article is protected by copyright. All rights reserved.

Published

2019

97. Dietary supplementation with inulin-propionate ester or inulin improves insulin sensitivity in adults with overweight and obesity with distinct effects on the gut microbiota, plasma metabolome and systemic inflammatory responses: a randomised cross-over trial

Author

Douglas J. Morrison, Jose Ivan Serrano-Contreras, Jordie F Roberts, Daniel M. Altmann, Tom Preston, Natalie E. Riddell, Kevin G Murphy, Elaine Holmes, Julian R. Marchesi, Gary Frost, Claire S Byrne, Isabel Garcia-Perez, Gareth A. Wallis, Rosemary J. Boyton, Edward S. Chambers, Arne N. Akbar, Julie A. K. McDonald, Catherine J. Reynolds, Catriona Tedford, Sofia Fountana, Biotechnology and Biological Sciences Research Council (BBSRC), Welton Foundation, Imperial College Healthcare NHS Trust- BRC Funding, Versus Arthritis, and Imperial Health Charity

Subjects

Male, 0301 basic medicine, medicine.medical_treatment, PROTEIN, Gut flora, BIFIDOBACTERIA, DISEASE, GLUCOSE, Body Mass Index, Feces, chemistry.chemical_compound, Insulin, Glucose homeostasis, colonic microflora, RISK, 2. Zero hunger, chemistry.chemical_classification, Cross-Over Studies, biology, Inulin, Gastroenterology, Middle Aged, 3. Good health, CHAIN FATTY-ACIDS, BODY-WEIGHT, Treatment Outcome, Metabolome, Homeostatic model assessment, Female, Life Sciences & Biomedicine, Adult, medicine.medical_specialty, glucose metabolism, short-chain fatty acids, FIBER, 03 medical and health sciences, Insulin resistance, Double-Blind Method, Internal medicine, medicine, Humans, Obesity, Inflammation, Science & Technology, 030109 nutrition & dietetics, Gastroenterology & Hepatology, business.industry, 1103 Clinical Sciences, Overweight, medicine.disease, biology.organism_classification, Gastrointestinal Microbiome, TARGETED DELIVERY, 030104 developmental biology, Endocrinology, chemistry, Dietary Supplements, Propionate, 1114 Paediatrics and Reproductive Medicine, Insulin Resistance, Propionates, business, RESISTANCE

Abstract

ObjectiveTo investigate the underlying mechanisms behind changes in glucose homeostasis with delivery of propionate to the human colon by comprehensive and coordinated analysis of gut bacterial composition, plasma metabolome and immune responses.DesignTwelve non-diabetic adults with overweight and obesity received 20 g/day of inulin-propionate ester (IPE), designed to selectively deliver propionate to the colon, a high-fermentable fibre control (inulin) and a low-fermentable fibre control (cellulose) in a randomised, double-blind, placebo-controlled, cross-over design. Outcome measurements of metabolic responses, inflammatory markers and gut bacterial composition were analysed at the end of each 42-day supplementation period.ResultsBoth IPE and inulin supplementation improved insulin resistance compared with cellulose supplementation, measured by homeostatic model assessment 2 (mean±SEM 1.23±0.17 IPE vs 1.59±0.17 cellulose, p=0.001; 1.17±0.15 inulin vs 1.59±0.17 cellulose, p=0.009), with no differences between IPE and inulin (p=0.272). Fasting insulin was only associated positively with plasma tyrosine and negatively with plasma glycine following inulin supplementation. IPE supplementation decreased proinflammatory interleukin-8 levels compared with cellulose, while inulin had no impact on the systemic inflammatory markers studied. Inulin promoted changes in gut bacterial populations at the class level (increased Actinobacteria and decreased Clostridia) and order level (decreased Clostridiales) compared with cellulose, with small differences at the species level observed between IPE and cellulose.ConclusionThese data demonstrate a distinctive physiological impact of raising colonic propionate delivery in humans, as improvements in insulin sensitivity promoted by IPE and inulin were accompanied with different effects on the plasma metabolome, gut bacterial populations and markers of systemic inflammation.

Published

2019

98. Untargeted lipidomics unveils a specific plasma signature of severe alcoholic hepatitis

Author

Florent Artru, Stephen Atkinson, Francesca Trovato, Nikhil Vergis, Vishal C Patel, Salma Mujib, Anna Cavazza, Alexandros Pechlivanis, Ellen Jerome, Marc Zentar, Evangelos Triantafyllou, Elaine Holmes, Mark J W McPhail, and Mark Thursz

Subjects

Hepatology

Published

2022

99. Roux-en-Y gastric bypass-induced bacterial perturbation contributes to altered host-bacterial co-metabolic phenotype

Author

Edward Lin, Stephen L. Atkin, Julian Marchesi, Ara Darzi, Matthew R. Lewis, Magali Sarafian, Paula Momo Cabrera, Elaine Holmes, Daniel Homola, Nigel J. Gooderham, Jia V. Li, Thanos Athanasiou, Nana Gletsu-Miller, Jeremy K. Nicholson, Laura Rushton, Hutan Ashrafian, Grace F. Barker, and Thozhukat Sathyapalan

Subjects

Microbiology (medical), medicine.medical_specialty, Sleeve gastrectomy, medicine.medical_treatment, Gastric Bypass, Gut flora, Microbiology, Microbial ecology, Excretion, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Weight loss, 1108 Medical Microbiology, RNA, Ribosomal, 16S, Internal medicine, medicine, Animals, Humans, Microbiome, 030304 developmental biology, 2. Zero hunger, Bariatric surgery, 0303 health sciences, Bacteria, biology, 0602 Ecology, Research, QR100-130, Metabolism, biology.organism_classification, Bile acids, Host-microbial metabolism, Metabolic profiling, Obesity, Morbid, 3. Good health, Phenotype, Phenylacetylglutamine, Endocrinology, Phenylacetate, chemistry, 030220 oncology & carcinogenesis, medicine.symptom, 0605 Microbiology

Abstract

Background Bariatric surgery, used to achieve effective weight loss in individuals with severe obesity, modifies the gut microbiota and systemic metabolism in both humans and animal models. The aim of the current study was to understand better the metabolic functions of the altered gut microbiome by conducting deep phenotyping of bariatric surgery patients and bacterial culturing to investigate causality of the metabolic observations. Methods Three bariatric cohorts (n = 84, n = 14 and n = 9) with patients who had undergone Roux-en-Y gastric bypass (RYGB), sleeve gastrectomy (SG) or laparoscopic gastric banding (LGB), respectively, were enrolled. Metabolic and 16S rRNA bacterial profiles were compared between pre- and post-surgery. Faeces from RYGB patients and bacterial isolates were cultured to experimentally associate the observed metabolic changes in biofluids with the altered gut microbiome. Results Compared to SG and LGB, RYGB induced the greatest weight loss and most profound metabolic and bacterial changes. RYGB patients showed increased aromatic amino acids-based host-bacterial co-metabolism, resulting in increased urinary excretion of 4-hydroxyphenylacetate, phenylacetylglutamine, 4-cresyl sulphate and indoxyl sulphate, and increased faecal excretion of tyramine and phenylacetate. Bacterial degradation of choline was increased as evidenced by altered urinary trimethylamine-N-oxide and dimethylamine excretion and faecal concentrations of dimethylamine. RYGB patients’ bacteria had a greater capacity to produce tyramine from tyrosine, phenylalanine to phenylacetate and tryptophan to indole and tryptamine, compared to the microbiota from non-surgery, normal weight individuals. 3-Hydroxydicarboxylic acid metabolism and urinary excretion of primary bile acids, serum BCAAs and dimethyl sulfone were also perturbed following bariatric surgery. Conclusion Altered bacterial composition and metabolism contribute to metabolic observations in biofluids of patients following RYGB surgery. The impact of these changes on the functional clinical outcomes requires further investigation.

Published

2021

100. Metabolic profiling reveals changes in serum predictive of venous ulcer healing

Author

Elaine Holmes, Sarah Onida, Marielle Bouschbacher, Manjit S. Gohel, Konstantina Spagou, Serge Bohbot, Joseph Shalhoub, Alun H. Davies, Rahul Velineni, and Richmond T. Bergner

Subjects

Ulcer healing, medicine.medical_specialty, business.industry, Internal medicine, Medicine, Profiling (information science), Surgery, business, Gastroenterology

Abstract

Objective: The aim of this study was to identify potential biomarkers predictive of healing or failure to heal in a population with venous leg ulceration. Summary Background Data: Venous leg ulceration presents important physical, psychological, social and financial burdens. Compression therapy is the main treatment, but it can be painful and time-consuming, with significant recurrence rates. The identification of a reliable biochemical signature with the ability to identify nonhealing ulcers has important translational applications for disease prognostication, personalized health care and the development of novel therapies. Methods: Twenty-eight patients were assessed at baseline and at 20 weeks. Untargeted metabolic profiling was performed on urine, serum, and ulcer fluid, using mass spectrometry and nuclear magnetic resonance spectroscopy. Results: A differential metabolic phenotype was identified in healing (n = 15) compared to nonhealing (n = 13) venous leg ulcer patients. Analysis of the assigned metabolites found ceramide and carnitine metabolism to be relevant pathways. In this pilot study, only serum biofluids could differentiate between healing and nonhealing patients. The ratio of carnitine to ceramide was able to differentiate between healing phenotypes with 100% sensitivity, 79% specificity, and 91% accuracy. Conclusions: This study reports a metabolic signature predictive of healing in venous leg ulceration and presents potential translational applications for disease prognostication and development of targeted therapies.

Published

2021