Your search keyword '"Albert, Koulman"' showing total 235 results

1. A co-ordinated transcriptional programme in the maternal liver supplies long chain polyunsaturated fatty acids to the conceptus using phospholipids

Author

Risha Amarsi, Samuel Furse, Mary A. M. Cleaton, Sarah Maurel, Alice L. Mitchell, Anne C. Ferguson-Smith, Nicolas Cenac, Catherine Williamson, Albert Koulman, and Marika Charalambous

Subjects

Science

Abstract

Abstract The long and very long chain polyunsaturated fatty acids (LC-PUFAs) are preferentially transported by the mother to the fetus. Failure to supply LC-PUFAs is strongly linked with stillbirth, fetal growth restriction, and impaired neurodevelopmental outcomes. However, dietary supplementation during pregnancy is unable to simply reverse these outcomes, suggesting imperfectly understood interactions between dietary fatty acid intake and the molecular mechanisms of maternal supply. Here we employ a comprehensive approach combining untargeted and targeted lipidomics with transcriptional profiling of maternal and fetal tissues in mouse pregnancy. Comparison of wild-type mice with genetic models of impaired lipid metabolism allows us to describe maternal hepatic adaptations required to provide LC-PUFAs to the developing fetus. A late pregnancy-specific, selective activation of the Liver X Receptor signalling pathway dramatically increases maternal supply of LC-PUFAs within circulating phospholipids. Crucially, genetic ablation of this pathway in the mother reduces LC-PUFA accumulation by the fetus, specifically of docosahexaenoic acid (DHA), a critical nutrient for brain development.

Published

2024

2. Standardised and Objective Dietary Intake Assessment Tool (SODIAT): Protocol of a dual-site dietary intervention study to integrate dietary assessment methods [version 1; peer review: awaiting peer review]

Author

Eka Bobokhidze, Michelle Weech, Katerina Petropoulou, Thomas Wilson, Jennifer Pugh, Rosalind Fallaize, Isabel Garcia-Perez, Frank P.-W. Lo, Adrian R Solis, Juliet Vickar, Stamatia Giannarou, George Mylonas, Benny Lo, Amanda J Lloyd, Albert Koulman, Manfred Beckmann, John Draper, Gary Frost, and Julie A Lovegrove

Subjects

Study Protocol, Articles, Nutrition, Health, Research, Dietary reporting, Underreporting, Misreporting, Biomarkers

Abstract

Introduction Current dietary assessment methods face challenges in accurately capturing individuals’ dietary habits, undermining the efficacy of public health strategies. The ‘Standardised and Objective Dietary Intake Assessment Tool’ (SODIAT)-1 study aims to assess the effectiveness of three emerging technologies (urine and capillary blood biomarkers, and wearable camera technology) and two online self-reporting dietary assessment tools to monitor dietary intake. Methods This randomised controlled crossover trial will recruit 30 participants (aged 18-70 years and BMI of 20-30 kg/m 2) from Imperial College London and the University of Reading. Exclusion criteria include recent weight change, food allergies/intolerances, following restrictive diets, certain health conditions and medication use. Interested volunteers will be directed to an online screening questionnaire via REDCap and eligible participants will attend a pre-study visit. Volunteers will consume, in a random order, two highly-controlled diets (compliant and non-compliant with UK guidelines) for four days each. Each study arm will be separated by at least one-week. During each test period, dietary intake will be monitored continuously using wearable cameras and self-recorded using eNutri (food frequency questionnaire) and Intake24 (24-hour dietary recall). Urine and capillary blood samples will be collected for biomarker analysis. Data analysis will assess the accuracy of dietary reporting across these methods using Lin’s concordance correlation coefficient. Discussion and ethical considerations This study introduces a novel approach to dietary assessment, addressing the limitations of traditional methods by reducing misreporting and enhancing inclusivity, particularly for underrepresented populations with literacy or language barriers. However, challenges persist, such as variability in biomarker data due to failure to adhere to sample storage requirements and the practicalities of continuously wearing cameras. To protect privacy, participants will be instructed to remove cameras at inappropriate times, and artificial intelligence will be used to blur all images captured apart from food.

Published

2024

3. A lipidomic dataset for epidemiological studies of acute myocardial infarction

Author

Cecilia Castro, Eric L. Harshfield, Adam S. Butterworth, Angela M. Wood, Albert Koulman, and Julian L. Griffin

Subjects

Lipidomics, Mass spectrometry, Direct infusion, Epidemiology, Coronary heart disease, Computer applications to medicine. Medical informatics, R858-859.7, Science (General), Q1-390

Abstract

Understanding the cause of coronary heart diseases relies on the analysis of data from a range of techniques on an epidemiological scale. Lipidomics, the identification and quantification of lipid species in a system, is an omic approach increasingly used in epidemiology. The altered concentration of lipids in plasma is one of the recognised risk factors for these diseases. An important first step in the analysis is to profile lipids in healthy volunteers at an epidemiological level to understand how the geneome influences risk factors; for this reason we made use of the control samples within a bigger case-control sample collection in Pakistan from patients with first acute myocardial infarctions. After extraction, the samples were infused into a Thermo Exactive Orbitrap, without any up-front chromatographic separation. The use of direct infusion allowed fast experiment, facilitating the analysis of large sets of samples. The raw data were processed and analysed using scripts within R, to extract all the meaningful information. The data set originated from this study is a valuable resource to both increase our knowledge in lipid metabolism associated with myocardial infarction, and test new methods and strategy in analysing big lipidomic data sets.

Published

2024

4. Assessment of Erythrocyte Transketolase, Whole Blood Thiamine Diphosphate, and Human Milk Thiamine Concentrations to Identify Infants and Young Children Responding Favorably to Therapeutic Thiamine Administration: Findings from the Lao Thiamine Study, a Prospective Cohort Study

Author

Sonja Y Hess, Taryn J Smith, Charles D Arnold, Kerry S Jones, Daniela Hampel, Laurent Hiffler, Indi Trehan, Philip R Fischer, Sarah R Meadows, Damon A Parkington, Kenneth H Brown, Dalaphone Sitthideth, Xiuping Tan, Albert Koulman, Lindsay H Allen, and Sengchanh Kounnavong

Subjects

erythrocyte transketolase, thiamine diphosphate, thiamine deficiency, thiamine deficiency disorders, thiamine responsive disorders, beriberi, Nutrition. Foods and food supply, TX341-641, Nutritional diseases. Deficiency diseases, RC620-627

Abstract

Background: There is limited information on relationships among biomarkers of thiamine status (whole blood thiamine diphosphate [ThDP], erythrocyte transketolase activity coefficient [ETKac], and human milk thiamine [MTh]) and clinical manifestations of thiamine deficiency. Objectives: This study aimed to explore correlations among these biomarkers and thiamine responsive disorders (TRDs), a diagnosis based on favorable clinical response to thiamine. Methods: Hospitalized infants and young children (aged 21 d to 1.25 were explored using area under the receiver operating characteristic curve framework. Results: Thiamine biomarkers were available for 287 hospitalized children and 228 community children (mean age 4.7 mo; 59.4% male). Median (interquartile range [IQR]) ThDP and ETKac were 66.9 nmol/L (IQR: 41.4, 96.9 nmol/L) and 1.25 nmol/L (IQR: 1.11, 1.48 nmol/L), respectively, among hospitalized children, and 64.1 nmol/L (IQR: 50.0, 85.3 nmol/L) and 1.22 nmol/L (IQR: 1.12, 1.37 nmol/L) among 228 community children (P > 0.05 for both). Forty-five percent of breastfeeding mothers of infants

Published

2024

5. A comparative analyses of lipid ratios representing desaturase enzyme activity between preterm and term infants within the first ten weeks of life

Author

Hanis Hidayu Kasim, Laurentya Olga, Stuart Snowden, Eliza Cropp, Albert Koulman, and Kathryn Beardsall

Subjects

Desaturase enzyme, Preterm infants, LCPUFAs, Metabolism, Nutritional diseases. Deficiency diseases, RC620-627

Abstract

Abstract Background Desaturase enzymes play a key role in several pathways including biosynthesis of poly- and mono- unsaturated fatty acids (PUFAs, MUFA). In preterm infants, desaturase enzyme activity (DA) may be a rate-limiting step in maintaining PUFAs levels during this critical developmental window and impact on long term metabolic health. The study tested the hypothesis that DA is altered in preterm infants compared to term infants in early life and may be a marker of risk or contribute to later alterations in metabolic health. Methods Lipidomic analyses were conducted using blood samples from two established UK-based cohorts, involving very preterm (n = 105) and term (n = 259) infants. Blood samples were taken from term infants at birth, two and six weeks and from preterm infants when established on enteral feeds and at term corrected age. DA of the 2 groups of infants were estimated indirectly from product/precursor lipids ratios of phosphatidylcholine (PC) and triglycerides (TG) species and reported according to their postmenstrual and postnatal ages. Results There were changes in lipid ratios representing desaturase enzyme activity in preterm infants in the first weeks of life with higher delta 6 desaturases (D6D) triglyceride (TG) indices but significantly lower delta 9 desaturase (D9D) and D6D(PC) indices. In comparison to term infants, preterm have lower delta 5 desaturase (D5D) but higher D6D indices at all postnatal ages. Although point levels of desaturase indices were different, trajectories of changes in these indices over time were similar in preterm and term infants. Conclusions This study findings suggest the patterns of desaturase indices in preterm infants differ from that of term infants but their trajectories of change in the first 10 weeks of life were similar. These differences of DA if they persist in later life could contribute to the mechanism of diseases in preterm adulthood and warrant further investigations.

Published

2023

6. A randomised study of nurse collected venous blood and self-collected dried blood spots for the assessment of cardiovascular risk factors in the Understanding Society Innovation Panel

Author

Meena Kumari, Alexandria Andrayas, Tarek Al Baghal, Jonathan Burton, Thomas F. Crossley, Kerry S. Jones, Damon A. Parkington, Albert Koulman, and Michaela Benzeval

Subjects

Medicine, Science

Abstract

Abstract Dried blood spot (DBS) sample collection has been suggested as a less invasive, cheaper and more convenient alternative to venepuncture, which requires trained personnel, making it a potentially viable approach for self-collection of blood on a large scale. We examine whether participants in a longitudinal survey were willing to provide a DBS sample in different interview settings, and how resulting cardiovascular risk biomarkers compared with those from venous blood to calculate clinical risk. Participants of the Understanding Society Innovation Panel, a representative sample of UK households, were randomly assigned to three modes of interview. Most participants (84%) were interviewed in their allocated mode. Participants (n = 2162) were interviewed by a nurse who collected both a blood sample by venepuncture and a DBS card (‘nurse collection’) or participants were seen by an interviewer or took part in the survey online to self-collect a DBS card (‘self-collection’). All DBS cards were returned in the post after the sample had dried. Lipids (total cholesterol, HDL-cholesterol, triglycerides), HbA1c and C-reactive protein were measured in venous and DBS samples and equivalence was calculated. The resultant values were used to confirm equivalent prevalence of risk of cardiovascular disease in each type of blood sample by mode of participation. Of participants interviewed by a nurse 69% consented to venous blood sample and 74% to a DBS sample, while in the self-collection modes, 35% consented to DBS collection. Demographic characteristics of participants in self-collection mode was not different to those in nurse collection mode. The percentage of participants with clinically raised biomarkers did not significantly differ between type of blood collection (for example, 62% had high cholesterol (> 5 mmol/l) measured by venepuncture and 67% had high cholesterol within the self-collected DBS sample (p = 0.13)). While self-collected DBS sampling had a lower response rate to DBS collected by a nurse, participation did not vary by key demographic characteristics. This study demonstrates that DBS collection is a feasible method of sample collection that can provide acceptable measures of clinically relevant biomarkers, enabling the calculation of population levels of cardiovascular disease risk.

Published

2023

7. Systemic analysis shows that cold exposure modulates triglyceride accumulation and phospholipid distribution in mice.

Author

Isabella James, Raghav Jain, Gina Wade, Philip C Stevenson, Albert Koulman, Judith Simcox, and Samuel Furse

Subjects

Medicine, Science

Abstract

Environmental exposure to cold is increasingly being associated with changes in metabolism. We developed and tested the hypothesis that exposure to cold drives systemic effects in lipid metabolism. Specifically, (i) that energy storage and provision adapts to the cold by altering triglyceride distribution and (ii) that membranes adapt to cold conditions by becoming more unsaturated. These hypotheses were designed to identify the underlying mechanisms that govern the response of mammalian systems to cold. To test these hypotheses, we used a metabolic network analysis. An established model of cold exposure was used, from which lipidomics data that represents the system was collected. The network analysis showed that triglyceride metabolism is altered on exposure to cold, with several smaller effects that are not straightforward, such as changes to the abundance and distribution of odd chain fatty acids. The range and profile of phosphatidylcholine and phosphatidylinositol were modified, but there was little change in phosphatidylethanolamine or sphingomyelin. These results support the hypothesis, and show that exposure to cold is a system-wide phenomenon that requires or drives changes across a range of metabolic pathways.

Published

2024

8. Protocol for a seamless phase 2A-phase 2B randomized double-blind placebo-controlled trial to evaluate the safety and efficacy of benfotiamine in patients with early Alzheimer's disease (BenfoTeam).

Author

Howard H Feldman, José A Luchsinger, Gabriel C Léger, Curtis Taylor, Diane M Jacobs, David P Salmon, Steven D Edland, Karen Messer, Carolyn Revta, Sarah A Flowers, Kerry S Jones, Albert Koulman, Kevin E Yarasheski, Philip B Verghese, Venky Venkatesh, Henrik Zetterberg, January Durant, Jody-Lynn Lupo, Gary E Gibson, and ADCS BenfoTeam Study Group

Subjects

Medicine, Science

Abstract

BackgroundBenfotiamine provides an important novel therapeutic direction in Alzheimer's disease (AD) with possible additive or synergistic effects to amyloid targeting therapeutic approaches.ObjectiveTo conduct a seamless phase 2A-2B proof of concept trial investigating tolerability, safety, and efficacy of benfotiamine, a prodrug of thiamine, as a first-in-class small molecule oral treatment for early AD.MethodsThis is the protocol for a randomized, double-blind, placebo-controlled 72-week clinical trial of benfotiamine in 406 participants with early AD. Phase 2A determines the highest safe and well-tolerated dose of benfotiamine to be carried forward to phase 2B. During phase 2A, real-time monitoring of pre-defined safety stopping criteria in the first approximately 150 enrollees will help determine which dose (600 mg or 1200 mg) will be carried forward into phase 2B. The phase 2A primary analysis will test whether the rate of tolerability events (TEs) is unacceptably high in the high-dose arm compared to placebo. The primary safety endpoint in phase 2A is the rate of TEs compared between active and placebo arms, at each dose. The completion of phase 2A will seamlessly transition to phase 2B without pausing or stopping the trial. Phase 2B will assess efficacy and longer-term safety of benfotiamine in a larger group of participants through 72 weeks of treatment, at the selected dose. The co-primary efficacy endpoints in phase 2B are CDR-Sum of Boxes and ADAS-Cog13. Secondary endpoints include safety and tolerability measures; pharmacokinetic measures of thiamine and its esters, erythrocyte transketolase activity as blood markers of efficacy of drug delivery; ADCS-ADL-MCI; and MoCA.ConclusionThe BenfoTeam trial utilizes an innovative seamless phase 2A-2B design to achieve proof of concept. It includes an adaptive dose decision rule, thus optimizing exposure to the highest and best-tolerated dose.Trial registrationClinicalTrials.gov identifier: NCT06223360, registered on January 25, 2024. https://classic.clinicaltrials.gov/ct2/show/NCT06223360.

Published

2024

9. Quantification and reporting of vitamin D concentrations measured in human milk by LC–MS/MS

Author

Kerry S. Jones, Sarah R. Meadows, and Albert Koulman

Subjects

infant feeding, vitamin D, 25-hydroxyvitamin D, breast milk, mass spectrometry, Nutrition. Foods and food supply, TX341-641

Abstract

Vitamin D is essential for optimal bone health, and vitamin D deficiency has been associated with an increased risk of adverse pregnancy, growth and developmental outcomes. In early life, and in the absence of endogenous vitamin D production from UVB light, infants are reliant on vitamin D stores established in utero and the vitamin D supply from human milk (HM). However, comprehensive data on vitamin D in HM is lacking. Thus, in this review we explore the application of liquid-chromatography tandem mass spectrometry (LC–MS/MS) to the assessment of vitamin D in HM. We discuss the challenges of extracting and measuring multiple vitamin D metabolites from HM including the frequent requirement for a large sample volume, and inappropriate poor sensitivity. Shortcomings in the reporting of experimental procedures and data analysis further hinder advances in the field. Data collated from all studies that have applied LC–MS/MS reveal that, in general, cholecalciferol concentration is greater and more variable than 25-hydroxyvitamin D concentration, and that the vitamin D content of HM is low and less than the currently recommended dietary requirement of infants, although maternal supplementation can increase the vitamin D content of HM. Improvements in analytical methods and their validation and larger, more representative studies are required to better characterize HM milk vitamin D metabolite concentrations and their relationship with maternal status. These data are essential to understand relationships with infant health and to inform public health policies around vitamin D fortification and supplementation.

Published

2023

10. The role of the tryptophan-NAD + pathway in a mouse model of severe malnutrition induced liver dysfunction

Author

Guanlan Hu, Catriona Ling, Lijun Chi, Mehakpreet K. Thind, Samuel Furse, Albert Koulman, Jonathan R. Swann, Dorothy Lee, Marjolein M. Calon, Celine Bourdon, Christian J. Versloot, Barbara M. Bakker, Gerard Bryan Gonzales, Peter K. Kim, and Robert H. J. Bandsma

Subjects

Science

Abstract

Impaired liver metabolic function is related to mortality in severely malnourished children. Here the authors report a role for the tryptophan-NAD + pathway in reduced hepatic mitochondrial function and liver steatosis in a mouse model of severe malnutrition.

Published

2022

11. Non-alcoholic fatty liver disease is characterised by a reduced polyunsaturated fatty acid transport via free fatty acids and high-density lipoproteins (HDL)

Author

Gabriele Mocciaro, Michael Allison, Benjamin Jenkins, Vian Azzu, Isabel Huang-Doran, Luis Vicente Herrera-Marcos, Zoe Hall, Antonio Murgia, Davies Susan, Mattia Frontini, Antonio Vidal-Puig, Albert Koulman, Julian L. Griffin, and Michele Vacca

Subjects

Non-alcoholic fatty liver disease (NAFLD), Obesity, Lipoprotein metabolism, Lipidomics, LC-MS, Internal medicine, RC31-1245

Abstract

Background and objectives: Non-alcoholic fatty liver disease (NAFLD) develops due to impaired hepatic lipid fluxes and is a risk factor for chronic liver disease and atherosclerosis. Lipidomic studies consistently reported characteristic hepatic/VLDL “lipid signatures” in NAFLD; whole plasma traits are more debated. Surprisingly, the HDL lipid composition by mass spectrometry has not been characterised across the NAFLD spectrum, despite HDL being a possible source of hepatic lipids delivered from peripheral tissues alongside free fatty acids (FFA). This study characterises the HDL lipidomic signature in NAFLD, and its correlation with metabolic and liver disease markers. Methods: We used liquid chromatography-mass spectrometry to determine the whole serum and HDL lipidomic profile in 89 biopsy-proven NAFLD patients and 20 sex and age-matched controls. Results: In the whole serum of NAFLD versus controls, we report a depletion in polyunsaturated (PUFA) phospholipids (PL) and FFA; with PUFA PL being also lower in HDL, and negatively correlated with BMI, insulin resistance, triglycerides, and hepatocyte ballooning. In the HDL of the NAFLD group we also describe higher saturated ceramides, which positively correlate with insulin resistance and transaminases. Conclusion: NAFLD features lower serum lipid species containing polyunsaturated fatty acids; the most affected lipid fractions are FFA and (HDL) phospholipids; our data suggest a possible defect in the transfer of PUFA from peripheral tissues to the liver in NAFLD. Mechanistic studies are required to explore the biological implications of our findings addressing if HDL composition can influence liver metabolism and damage, thus contributing to NAFLD pathophysiology.

Published

2023

12. Paternal low protein diet perturbs inter-generational metabolic homeostasis in a tissue-specific manner in mice

Author

Hannah L. Morgan, Samuel Furse, Irundika H. K. Dias, Kiran Shabir, Marcos Castellanos, Iqbal Khan, Sean T. May, Nadine Holmes, Matthew Carlile, Fei Sang, Victoria Wright, Albert Koulman, and Adam J. Watkins

Subjects

Biology (General), QH301-705.5

Abstract

Poor paternal diet leads to changes in offspring tissue lipid abundance that is still evident in a second generation.

Published

2022

13. Variants in mitochondrial amidoxime reducing component 1 and hydroxysteroid 17‐beta dehydrogenase 13 reduce severity of nonalcoholic fatty liver disease in children and suppress fibrotic pathways through distinct mechanisms

Author

Christian A. Hudert, Leon A. Adams, Anna Alisi, Quentin M. Anstee, Annalisa Crudele, Laura G. Draijer, EU‐PNAFLD investigators, Samuel Furse, Jan G. Hengstler, Benjamin Jenkins, Kylie Karnebeek, Deirdre A. Kelly, Bart G. Koot, Albert Koulman, David Meierhofer, Phillip E. Melton, Trevor A. Mori, Stuart G. Snowden, Indra vanMourik, Anita Vreugdenhil, Susanna Wiegand, and Jake P. Mann

Subjects

Diseases of the digestive system. Gastroenterology, RC799-869

Abstract

Abstract Genome‐wide association studies in adults have identified variants in hydroxysteroid 17‐beta dehydrogenase 13 (HSD17B13) and mitochondrial amidoxime reducing component 1 (MTARC1) as protective against nonalcoholic fatty liver disease (NAFLD). We aimed to test their association with pediatric NAFLD liver histology and investigate their function using metabolomics. A total of 1450 children (729 with NAFLD, 399 with liver histology) were genotyped for rs72613567T>TA in HSD17B13, rs2642438G>A in MTARC1, and rs738409C>G in patatin‐like phospholipase domain‐containing protein 3 (PNPLA3). Genotype–histology associations were tested using ordinal regression. Untargeted hepatic proteomics and plasma lipidomics were performed in a subset of children. We found rs72613567T>TA in HSD17B13 to be associated with lower odds of NAFLD diagnosis (odds ratio, 0.7; 95% confidence interval, 0.6–0.9) and a lower grade of portal inflammation (p A in MTARC1 was associated with a lower grade of hepatic steatosis (p = 0.02). Proteomics found reduced expression of HSD17B13 in carriers of the protective ‐TA allele. MTARC1 levels were unaffected by genotype. Both variants were associated with down‐regulation of fibrogenic pathways. HSD17B13 perturbs plasma phosphatidylcholines and triglycerides. In silico modeling suggested p.Ala165Thr disrupts the stability and metal binding of MTARC1. Conclusion: Both HSD17B13 and MTARC1 variants are associated with less severe pediatric NAFLD. These results provide further evidence for shared genetic mechanisms between pediatric and adult NAFLD.

Published

2022

14. Association between circulating 25-hydroxyvitamin D and cardiometabolic risk factors in adults in rural and urban settings

Author

Camille M. Mba, Albert Koulman, Nita G. Forouhi, Stephen J. Sharp, Fumiaki Imamura, Kerry Jones, Sarah R. Meadows, Felix Assah, Jean Claude Mbanya, and Nick J. Wareham

Subjects

Nutritional diseases. Deficiency diseases, RC620-627

Abstract

Abstract Background An inverse association between vitamin D status and cardiometabolic risk has been reported but this relationship may have been affected by residual confounding from adiposity and physical activity due to imprecise measures of these variables. We aimed to investigate the relationship between serum 25-hydroxyvitamin D (25(OH)D) and cardiometabolic risk factors, with adjustment for objectively-measured physical activity and adiposity. Methods This was a population-based cross-sectional study in 586 adults in Cameroon (63.5% women). We assessed markers of glucose homoeostasis (fasting blood glucose (BG), 2 h post glucose load BG, HOMA-IR)) and computed a metabolic syndrome score by summing the sex‐specific z‐scores of five risk components measuring central adiposity, blood pressure, glucose, HDL cholesterol and triglycerides. Results Mean±SD age was 38.3 ± 8.6 years, and serum 25(OH)D was 51.7 ± 12.5 nmol/L. Mean 25(OH)D was higher in rural (53.4 ± 12.8 nmol/L) than urban residents (50.2 ± 12.1 nmol/L), p = 0.002. The prevalence of vitamin D insufficiency (

Published

2022

15. A nutritional biomarker score of the Mediterranean diet and incident type 2 diabetes: Integrated analysis of data from the MedLey randomised controlled trial and the EPIC-InterAct case-cohort study.

Author

Jakub G Sobiecki, Fumiaki Imamura, Courtney R Davis, Stephen J Sharp, Albert Koulman, Jonathan M Hodgson, Marcela Guevara, Matthias B Schulze, Ju-Sheng Zheng, Claudia Agnoli, Catalina Bonet, Sandra M Colorado-Yohar, Guy Fagherazzi, Paul W Franks, Thomas E Gundersen, Franziska Jannasch, Rudolf Kaaks, Verena Katzke, Esther Molina-Montes, Peter M Nilsson, Domenico Palli, Salvatore Panico, Keren Papier, Olov Rolandsson, Carlotta Sacerdote, Anne Tjønneland, Tammy Y N Tong, Yvonne T van der Schouw, John Danesh, Adam S Butterworth, Elio Riboli, Karen J Murphy, Nicholas J Wareham, and Nita G Forouhi

Subjects

Medicine

Abstract

BackgroundSelf-reported adherence to the Mediterranean diet has been modestly inversely associated with incidence of type 2 diabetes (T2D) in cohort studies. There is uncertainty about the validity and magnitude of this association due to subjective reporting of diet. The association has not been evaluated using an objectively measured biomarker of the Mediterranean diet.Methods and findingsWe derived a biomarker score based on 5 circulating carotenoids and 24 fatty acids that discriminated between the Mediterranean or habitual diet arms of a parallel design, 6-month partial-feeding randomised controlled trial (RCT) conducted between 2013 and 2014, the MedLey trial (128 participants out of 166 randomised). We applied this biomarker score in an observational study, the European Prospective Investigation into Cancer and Nutrition (EPIC)-InterAct case-cohort study, to assess the association of the score with T2D incidence over an average of 9.7 years of follow-up since the baseline (1991 to 1998). We included 22,202 participants, of whom 9,453 were T2D cases, with relevant biomarkers from an original case-cohort of 27,779 participants sampled from a cohort of 340,234 people. As a secondary measure of the Mediterranean diet, we used a score estimated from dietary-self report. Within the trial, the biomarker score discriminated well between the 2 arms; the cross-validated C-statistic was 0.88 (95% confidence interval (CI) 0.82 to 0.94). The score was inversely associated with incident T2D in EPIC-InterAct: the hazard ratio (HR) per standard deviation of the score was 0.71 (95% CI: 0.65 to 0.77) following adjustment for sociodemographic, lifestyle and medical factors, and adiposity. In comparison, the HR per standard deviation of the self-reported Mediterranean diet was 0.90 (95% CI: 0.86 to 0.95). Assuming the score was causally associated with T2D, higher adherence to the Mediterranean diet in Western European adults by 10 percentiles of the score was estimated to reduce the incidence of T2D by 11% (95% CI: 7% to 14%). The study limitations included potential measurement error in nutritional biomarkers, unclear specificity of the biomarker score to the Mediterranean diet, and possible residual confounding.ConclusionsThese findings suggest that objectively assessed adherence to the Mediterranean diet is associated with lower risk of T2D and that even modestly higher adherence may have the potential to reduce the population burden of T2D meaningfully.Trial registrationAustralian New Zealand Clinical Trials Registry (ANZCTR) ACTRN12613000602729 https://www.anzctr.org.au/Trial/Registration/TrialReview.aspx?id=363860.

Published

2023

16. Placental sex-dependent spermine synthesis regulates trophoblast gene expression through acetyl-coA metabolism and histone acetylation

Author

Irving L. M. H. Aye, Sungsam Gong, Giulia Avellino, Roberta Barbagallo, Francesca Gaccioli, Benjamin J. Jenkins, Albert Koulman, Andrew J. Murray, D. Stephen Charnock-Jones, and Gordon C. S. Smith

Subjects

Biology (General), QH301-705.5

Abstract

Sex-dependent metabolism of spermine alter trophoblast gene expression through acetyl-coA biosynthesis and histone acetylation, indicating that escape of spermine synthase from X-linked inactivation partially contributes to placental sex differences.

Published

2022

17. A mouse model of gestational diabetes shows dysregulated lipid metabolism post-weaning, after return to euglycaemia

Author

Samuel Furse, Denise S. Fernandez-Twinn, Jessica H. Beeson, Davide Chiarugi, Susan E. Ozanne, and Albert Koulman

Subjects

Nutritional diseases. Deficiency diseases, RC620-627

Abstract

Abstract Background Gestational diabetes is associated with increased risk of type 2 diabetes mellitus and cardiovascular disease for the mother in the decade after delivery. However, the molecular mechanisms that drive these effects are unknown. Recent studies in humans have shown that lipid metabolism is dysregulated before diagnosis of and during gestational diabetes and we have shown previously that lipid metabolism is also altered in obese female mice before, during and after pregnancy. These observations led us to the hypothesis that this persistent dysregulation reflects an altered control of lipid distribution throughout the organism. Methods We tested this in post-weaning (PW) dams using our established mouse model of obese GDM (high fat, high sugar, obesogenic diet) and an updated purpose-built computational tool for plotting the distribution of lipid variables throughout the maternal system (Lipid Traffic Analysis v2.3). Results This network analysis showed that unlike hyperglycaemia, lipid distribution and traffic do not return to normal after pregnancy in obese mouse dams. A greater range of phosphatidylcholines was found throughout the lean compared to obese post-weaning dams. A range of triglycerides that were found in the hearts of lean post-weaning dams were only found in the livers of obese post-weaning dams and the abundance of odd-chain FA-containing lipids differed locally in the two groups. We have therefore shown that the control of lipid distribution changed for several metabolic pathways, with evidence for changes to the regulation of phospholipid biosynthesis and FA distribution, in a number of tissues. Conclusions We conclude that the control of lipid metabolism is altered following an obese pregnancy. These results support the hypothesis that obese dams that developed GDM maintain dysregulated lipid metabolism after pregnancy even when glycaemia returned to normal, and that these alterations could contribute to the increased risk of later type 2 diabetes and cardiovascular disease.

Published

2022

18. Faster rehabilitation weight gain during childhood is associated with risk of non-communicable disease in adult survivors of severe acute malnutrition.

Author

Debbie S Thompson, Kimberley McKenzie, Charles Opondo, Michael S Boyne, Natasha Lelijveld, Jonathan C Wells, Tim J Cole, Kenneth Anujuo, Mubarek Abera, Melkamu Berhane, Albert Koulman, Stephen A Wootton, Marko Kerac, Asha Badaloo, and CHANGE Study Collaborators Group

Subjects

Public aspects of medicine, RA1-1270

Abstract

Nutritional rehabilitation during severe acute malnutrition (SAM) aims to quickly restore body size and minimize poor short-term outcomes. We hypothesized that faster weight gain during treatment is associated with greater cardiometabolic risk in adult life. Anthropometry, body composition (DEXA), blood pressure, blood glucose, insulin and lipids were measured in a cohort of adults who were hospitalized as children for SAM between 1963 and 1993. Weight and height measured during hospitalization and at one year post-recovery were abstracted from hospital records. Childhood weight gain during nutritional rehabilitation and weight and height gain one year post-recovery were analysed as continuous variables, quintiles and latent classes in age, sex and minimum weight-for-age z-scores-adjusted regression models against adult measurements. Data for 278 adult SAM survivors who had childhood admission records were analysed. Of these adults, 85 also had data collected 1 year post-hospitalisation. Sixty percent of participants were male, mean (SD) age was 28.2 (7.7) years, mean (SD) BMI was 23.6 (5.2) kg/m2. Mean admission age for SAM was 10.9 months (range 0.3-36.3 months), 77% were wasted (weight-for-height z-scores 12.9 g/kg/day was associated with higher adult BMI (difference = 0.5 kg/m2, 95% CI: 0.1-0.9, p = 0.02), waist circumference (difference = 1.4 cm, 95% CI: 0.4-2.4, p = 0.005), fat mass (difference = 1.1 kg, 95% CI: 0.2-2, p = 0.02), fat mass index (difference = 0.32kg/m2, 95% CI: -0.0001-0.6, p = 0.05), and android fat mass (difference = 0.09 kg, 95% CI: 0.01-0.2, p = 0.03). Post-recovery weight gain (g/kg/month) was associated with lean mass (difference = 1.3 kg, 95% CI: 0.3-2.4, p = 0.015) and inversely associated with android-gynoid fat ratio (difference = -0.03, 95% CI: -0.07to-0.001 p = 0.045). Rehabilitation weight gain exceeding 13g/kg/day was associated with adult adiposity in young, normal-weight adult SAM survivors. This challenges existing guidelines for treating malnutrition and warrants further studies aiming at optimising these targets.

Published

2023

19. Lipid profiling analyses from mouse models and human infants

Author

Laurentya Olga, Ivana Bobeldijk-Pastorova, Richard C. Bas, Florine Seidel, Stuart G. Snowden, Samuel Furse, Ken K. Ong, Robert Kleemann, and Albert Koulman

Subjects

Health sciences, Clinical protocol, Metabolism, Metabolomics, Mass spectrometry, Systems biology, Science (General), Q1-390

Abstract

Summary: This protocol outlines a translational lipidomic approach to discover lipid biomarkers that could predict morphometric body and histological organ measurements (e.g., weight and adiposity gains) during specific stages of life (e.g., early life). We describe procedures ranging from animal experimentation and histological analyses to downstream analytical steps through lipid profiling, both in mice and humans. This protocol represents a reliable and versatile approach to translate and validate candidate lipid biomarkers from animal models to a human cohort.For complete details on the use and execution of this protocol, please refer to Olga et al. (2021). : Publisher’s note: Undertaking any experimental protocol requires adherence to local institutional guidelines for laboratory safety and ethics.

Published

2022

20. The Childhood Acute Illness and Nutrition (CHAIN) network nested case-cohort study protocol: a multi-omics approach to understanding mortality among children in sub-Saharan Africa and South Asia [version 2; peer review: 2 approved]

Author

Albert Koulman, Kelsey Jones, James Berkley, Judd Walson, Eric Houpt, David S. Wishart, Christina L. Lancioni, Moses Ngari, Lei Xia, James M. Njunge, Abdoulaye Hama Diallo, Kirkby Tickell, Md. Amran Gazi, Abu Sadat Mohammad Sayeem Bin Shahid, Zaubina Kazi, Ali Saleem, Caroline Tigoi, Syed Ali, Emily Yoshioka, Ezekiel Mupere, Moses Mburu, Mohammod Jobayer Chisti, Bonface Gichuki, Narshion Ngao, Wilson Gumbi, Elisha Omer, Robert Bandsma, Benson Singa, Wieger Voskuijl, Tahmeed Ahmed, Alex Macharia, Thomas N. Williams, Anna Mitchel, Johnstone Makale, Joe Gogain, Jessica Williams, Rupasri Mandal, Nebojsa Janjic, Michael Routledge, Hang Wu, Camilo Espinosa, Yun Yun Gong, Jie Liu, Nima Aghaeepour, Hilary Browne, Trevor D. Lawley, Doreen Rwigi, Yan Shao, Timothy Kaburu, Kevin Kariuki, Lisa Gartner, and Holm H. Uhlig

Subjects

Case-Cohort, Mortality, Children, LMIC, Omics, Systems Biology, eng, Medicine

Abstract

Introduction: Many acutely ill children in low- and middle-income settings have a high risk of mortality both during and after hospitalisation despite guideline-based care. Understanding the biological mechanisms underpinning mortality may suggest optimal pathways to target for interventions to further reduce mortality. The Childhood Acute Illness and Nutrition (CHAIN) Network (www.chainnnetwork.org) Nested Case-Cohort Study (CNCC) aims to investigate biological mechanisms leading to inpatient and post-discharge mortality through an integrated multi-omic approach. Methods and analysis; The CNCC comprises a subset of participants from the CHAIN cohort (1278/3101 hospitalised participants, including 350 children who died and 658 survivors, and 270/1140 well community children of similar age and household location) from nine sites in six countries across sub-Saharan Africa and South Asia. Systemic proteome, metabolome, lipidome, lipopolysaccharides, haemoglobin variants, toxins, pathogens, intestinal microbiome and biomarkers of enteropathy will be determined. Computational systems biology analysis will include machine learning and multivariate predictive modelling with stacked generalization approaches accounting for the different characteristics of each biological modality. This systems approach is anticipated to yield mechanistic insights, show interactions and behaviours of the components of biological entities, and help develop interventions to reduce mortality among acutely ill children. Ethics and dissemination. The CHAIN Network cohort and CNCC was approved by institutional review boards of all partner sites. Results will be published in open access, peer reviewed scientific journals and presented to academic and policy stakeholders. Data will be made publicly available, including uploading to recognised omics databases. Trial registration NCT03208725.

Published

2022

21. Genome-wide analysis of blood lipid metabolites in over 5000 South Asians reveals biological insights at cardiometabolic disease loci

Author

Eric L. Harshfield, Eric B. Fauman, David Stacey, Dirk S. Paul, Daniel Ziemek, Rachel M. Y. Ong, John Danesh, Adam S. Butterworth, Asif Rasheed, Taniya Sattar, Zameer-ul-Asar, Imran Saleem, Zoubia Hina, Unzila Ishtiaq, Nadeem Qamar, Nadeem Hayat Mallick, Zia Yaqub, Tahir Saghir, Syed Nadeem Hasan Rizvi, Anis Memon, Mohammad Ishaq, Syed Zahed Rasheed, Fazal-ur-Rehman Memon, Anjum Jalal, Shahid Abbas, Philippe Frossard, Danish Saleheen, Angela M. Wood, Julian L. Griffin, and Albert Koulman

Subjects

Lipidomics, Genetics, Gaussian Graphical Modelling, Network analysis, South Asian, Medicine

Abstract

Abstract Background Genetic, lifestyle, and environmental factors can lead to perturbations in circulating lipid levels and increase the risk of cardiovascular and metabolic diseases. However, how changes in individual lipid species contribute to disease risk is often unclear. Moreover, little is known about the role of lipids on cardiovascular disease in Pakistan, a population historically underrepresented in cardiovascular studies. Methods We characterised the genetic architecture of the human blood lipidome in 5662 hospital controls from the Pakistan Risk of Myocardial Infarction Study (PROMIS) and 13,814 healthy British blood donors from the INTERVAL study. We applied a candidate causal gene prioritisation tool to link the genetic variants associated with each lipid to the most likely causal genes, and Gaussian Graphical Modelling network analysis to identify and illustrate relationships between lipids and genetic loci. Results We identified 253 genetic associations with 181 lipids measured using direct infusion high-resolution mass spectrometry in PROMIS, and 502 genetic associations with 244 lipids in INTERVAL. Our analyses revealed new biological insights at genetic loci associated with cardiometabolic diseases, including novel lipid associations at the LPL, MBOAT7, LIPC, APOE-C1-C2-C4, SGPP1, and SPTLC3 loci. Conclusions Our findings, generated using a distinctive lipidomics platform in an understudied South Asian population, strengthen and expand the knowledge base of the genetic determinants of lipids and their association with cardiometabolic disease-related loci.

Published

2021

22. Lipid Traffic Analysis reveals the impact of high paternal carbohydrate intake on offsprings’ lipid metabolism

Author

Samuel Furse, Adam J. Watkins, Nima Hojat, James Smith, Huw E. L. Williams, Davide Chiarugi, and Albert Koulman

Subjects

Biology (General), QH301-705.5

Abstract

Furse et al. use a purpose-built computational tool called Lipid Traffic Analysis to determine the spatial distribution of lipids throughout an organism. They use it to show that high paternal carbohydrate intake influences lipid metabolism in offspring two generations hence.

Published

2021

23. Inhibition of mitochondrial function by metformin increases glucose uptake, glycolysis and GDF-15 release from intestinal cells

Author

Ming Yang, Tamana Darwish, Pierre Larraufie, Debra Rimmington, Irene Cimino, Deborah A. Goldspink, Benjamin Jenkins, Albert Koulman, Cheryl A. Brighton, Marcella Ma, Brian Y. H. Lam, Anthony P. Coll, Stephen O’Rahilly, Frank Reimann, and Fiona M. Gribble

Subjects

Medicine, Science

Abstract

Abstract Even though metformin is widely used to treat type2 diabetes, reducing glycaemia and body weight, the mechanisms of action are still elusive. Recent studies have identified the gastrointestinal tract as an important site of action. Here we used intestinal organoids to explore the effects of metformin on intestinal cell physiology. Bulk RNA-sequencing analysis identified changes in hexose metabolism pathways, particularly glycolytic genes. Metformin increased expression of Slc2a1 (GLUT1), decreased expression of Slc2a2 (GLUT2) and Slc5a1 (SGLT1) whilst increasing GLUT-dependent glucose uptake and glycolytic rate as observed by live cell imaging of genetically encoded metabolite sensors and measurement of oxygen consumption and extracellular acidification rates. Metformin caused mitochondrial dysfunction and metformin’s effects on 2D-cultures were phenocopied by treatment with rotenone and antimycin-A, including upregulation of GDF15 expression, previously linked to metformin dependent weight loss. Gene expression changes elicited by metformin were replicated in 3D apical-out organoids and distal small intestines of metformin treated mice. We conclude that metformin affects glucose uptake, glycolysis and GDF-15 secretion, likely downstream of the observed mitochondrial dysfunction. This may explain the effects of metformin on intestinal glucose utilisation and food balance.

Published

2021

24. Dietary PUFAs drive diverse system-level changes in lipid metabolism

Author

Samuel Furse, Samuel Virtue, Stuart G. Snowden, Antonio Vidal-Puig, Philip C. Stevenson, Davide Chiarugi, and Albert Koulman

Subjects

Lipid metabolism, PUFA supplementation, Traffic analysis, Metabolic network, Internal medicine, RC31-1245

Abstract

Objective: Polyunsaturated fatty acid (PUFA) supplements have been trialled as a treatment for a number of conditions and produced a variety of results. This variety is ascribed to the supplements, that often comprise a mixture of fatty acids, and to different effects in different organs. In this study, we tested the hypothesis that the supplementation of individual PUFAs has system-level effects that are dependent on the molecular structure of the PUFA. Methods: We undertook a network analysis using Lipid Traffic Analysis to identify both local and system-level changes in lipid metabolism using publicly available lipidomics data from a mouse model of supplementation with FA(20:4n-6), FA(20:5n-3), and FA(22:6n-3); arachidonic acid, eicosapentaenoic acid, and docosahexaenoic acid, respectively. Lipid Traffic Analysis is a new computational/bioinformatics tool that uses the spatial distribution of lipids to pinpoint changes or differences in control of metabolism, thereby suggesting mechanistic reasons for differences in observed lipid metabolism. Results: There was strong evidence for changes to lipid metabolism driven by and dependent on the structure of the supplemented PUFA. Phosphatidylcholine and triglycerides showed a change in the variety more than the total number of variables, whereas phosphatidylethanolamine and phosphatidylinositol showed considerable change in both which variables and the number of them, in a highly PUFA-dependent manner. There was also evidence for changes to the endogenous biosynthesis of fatty acids and to both the elongation and desaturation of fatty acids. Conclusions: These results show that the full biological impact of PUFA supplementation is far wider than any single-organ effect and implies that supplementation and dosing with PUFAs require a system-level assessment.

Published

2022

25. Cysteine synthases CYSL-1 and CYSL-2 mediate C. elegans heritable adaptation to P. vranovensis infection

Author

Nicholas O. Burton, Cristian Riccio, Alexandra Dallaire, Jonathan Price, Benjamin Jenkins, Albert Koulman, and Eric A. Miska

Subjects

Science

Abstract

Caenorhabditis elegans exhibits multigenerational adaptation to bacterial infection but the mechanisms remain unclear. Here, the authors show that C. elegans parental exposure to Pseudomonas vranovensis promotes offspring resistance to infection, a process mediated by the cysteine synthases CYSL-1 and CYSL-2.

Published

2020

26. Maternal diet-induced obesity during pregnancy alters lipid supply to mouse E18.5 fetuses and changes the cardiac tissue lipidome in a sex-dependent manner

Author

Lucas C Pantaleão, Isabella Inzani, Samuel Furse, Elena Loche, Antonia Hufnagel, Thomas Ashmore, Heather L Blackmore, Benjamin Jenkins, Asha A M Carpenter, Ania Wilczynska, Martin Bushell, Albert Koulman, Denise S Fernandez-Twinn, and Susan E Ozanne

Subjects

maternal obesity, fetal heart, heart metabolism, lipidomics, transcriptomics, Medicine, Science, Biology (General), QH301-705.5

Abstract

Maternal obesity during pregnancy has immediate and long-term detrimental effects on the offspring heart. In this study, we characterized the cardiac and circulatory lipid profiles in late gestation E18.5 fetuses of diet-induced obese pregnant mice and established the changes in lipid abundance and fetal cardiac transcriptomics. We used untargeted and targeted lipidomics and transcriptomics to define changes in the serum and cardiac lipid composition and fatty acid metabolism in male and female fetuses. From these analyses we observed: (1) maternal obesity affects the maternal and fetal serum lipidome distinctly; (2) female fetal heart lipidomes are more sensitive to maternal obesity than males; (3) changes in lipid supply might contribute to early expression of lipolytic genes in mouse hearts exposed to maternal obesity. These results highlight the existence of sexually dimorphic responses of the fetal heart to the same in utero obesogenic environment and identify lipids species that might mediate programming of cardiovascular health.

Published

2022

27. Mitochondrial and Endoplasmic Reticulum Stress Trigger Triglyceride Accumulation in Models of Parkinson’s Disease Independent of Mutations in MAPT

Author

Hugo J. R. Fernandes, Josh P. Kent, Michaela Bruntraeger, Andrew R. Bassett, Albert Koulman, Emmanouil Metzakopian, and Stuart G. Snowden

Subjects

metabolomics, Parkinson’s disease, triglyceride, LC-MS, mitochondrial stress, endoplasmic reticulum stress, Microbiology, QR1-502

Abstract

The metabolic basis of Parkinson’s disease pathology is poorly understood. However, the involvement of mitochondrial and endoplasmic reticulum stress in dopamine neurons in disease aetiology is well established. We looked at the effect of rotenone- and tunicamycin-induced mitochondrial and ER stress on the metabolism of wild type and microtubule-associated protein tau mutant dopamine neurons. Dopamine neurons derived from human isolated iPSCs were subjected to mitochondrial and ER stress using RT and TM, respectively. Comprehensive metabolite profiles were generated using a split phase extraction analysed by reversed phase lipidomics whilst the aqueous phase was measured using HILIC metabolomics. Mitochondrial and ER stress were both shown to cause significant dysregulation of metabolism with RT-induced stress producing a larger shift in the metabolic profile of both wild type and MAPT neurons. Detailed analysis showed that accumulation of triglycerides was a significant driver of metabolic dysregulation in response to both stresses in both genotypes. Whilst the consequence is similar, the mechanisms by which triglyceride accumulation occurs in dopamine neurons in response to mitochondrial and ER stress are very different. Thus, improving our understanding of how these mechanisms drive the observed triglyceride accumulation can potentially open up new therapeutic avenues.

Published

2023

28. Dietary Fatty Acids, Macronutrient Substitutions, Food Sources and Incidence of Coronary Heart Disease: Findings From the EPIC‐CVD Case‐Cohort Study Across Nine European Countries

Author

Marinka Steur, Laura Johnson, Stephen J. Sharp, Fumiaki Imamura, Ivonne Sluijs, Timothy J. Key, Angela Wood, Rajiv Chowdhury, Marcela Guevara, Marianne U. Jakobsen, Ingegerd Johansson, Albert Koulman, Kim Overvad, Maria‐José Sánchez, Yvonne T. van der Schouw, Antonia Trichopoulou, Elisabete Weiderpass, Maria Wennberg, Ju‐Sheng Zheng, Heiner Boeing, Jolanda M. A. Boer, Marie‐Christine Boutron‐Ruault, Ulrika Ericson, Alicia K. Heath, Inge Huybrechts, Liher Imaz, Rudolf Kaaks, Vittorio Krogh, Tilman Kühn, Cecilie Kyrø, Giovanna Masala, Olle Melander, Conchi Moreno‐Iribas, Salvatore Panico, José R. Quirós, Miguel Rodríguez‐Barranco, Carlotta Sacerdote, Carmen Santiuste, Guri Skeie, Anne Tjønneland, Rosario Tumino, W. M. Monique Verschuren, Raul Zamora‐Ros, Christina C. Dahm, Aurora Perez‐Cornago, Matthias B. Schulze, Tammy Y. N. Tong, Elio Riboli, Nicholas J. Wareham, John Danesh, Adam S. Butterworth, and Nita G. Forouhi

Subjects

coronary heart disease, dietary guidelines, nutritional epidemiology, primary prevention, saturated fat, Diseases of the circulatory (Cardiovascular) system, RC666-701

Abstract

Background There is controversy about associations between total dietary fatty acids, their classes (saturated fatty acids [SFAs], monounsaturated fatty acids, and polyunsaturated fatty acids), and risk of coronary heart disease (CHD). Specifically, the relevance of food sources of SFAs to CHD associations is uncertain. Methods and Results We conducted a case‐cohort study involving 10 529 incident CHD cases and a random subcohort of 16 730 adults selected from a cohort of 385 747 participants in 9 countries of the EPIC (European Prospective Investigation into Cancer and Nutrition) study. We estimated multivariable adjusted country‐specific hazard ratios (HRs) and 95% CIs per 5% of energy intake from dietary fatty acids, with and without isocaloric macronutrient substitutions, using Prentice‐weighted Cox regression models and pooled results using random‐effects meta‐analysis. We found no evidence for associations of the consumption of total or fatty acid classes with CHD, regardless of macronutrient substitutions. In analyses considering food sources, CHD incidence was lower per 1% higher energy intake of SFAs from yogurt (HR, 0.93 [95% CI, 0.88–0.99]), cheese (HR, 0.98 [95% CI, 0.96–1.00]), and fish (HR, 0.87 [95% CI, 0.75–1.00]), but higher for SFAs from red meat (HR, 1.07 [95% CI, 1.02–1.12]) and butter (HR, 1.02 [95% CI, 1.00–1.04]). Conclusions This observational study found no strong associations of total fatty acids, SFAs, monounsaturated fatty acids, and polyunsaturated fatty acids, with incident CHD. By contrast, we found associations of SFAs with CHD in opposite directions dependent on the food source. These findings should be further confirmed, but support public health recommendations to consider food sources alongside the macronutrients they contain, and suggest the importance of the overall food matrix.

Published

2021

29. Evidence from 3-month-old infants shows that a combination of postnatal feeding and exposures in utero shape lipid metabolism

Author

Samuel Furse, Stuart G. Snowden, Laurentya Olga, Philippa Prentice, Ken K. Ong, Ieuan A. Hughes, Carlo L. Acerini, David B. Dunger, and Albert Koulman

Subjects

Medicine, Science

Abstract

Abstract We tested the hypothesis that both postnatal feeding and conditions in utero affect lipid metabolism in infants. Infants who experienced restrictive growth conditions in utero and others exposed to maternal hyperglycaemia were compared to a control group with respect to feeding mode. Dried blood spots were collected from a pilot subset of infant participants of the Cambridge Baby Growth Study at 3mo. Groups: (a) a normal gestation (control, n = 40), (b) small for gestational age (SGA, n = 34) and (c) whose mothers developed hyperglycaemia (n = 59). These groups were further stratified by feeding mode; breastfed, formula-fed or received a mixed intake. Their phospholipid, glyceride and sterol fractions were profiled using direct infusion mass spectrometry. Statistical tests were used to identify molecular species that indicated differences in lipid metabolism. The abundance of several phospholipids identified by multivariate analysis, PC(34:1), PC(34:2) and PC-O(34:1), was 30–100% higher across all experimental groups. SM(39:1) was around half as abundant in in utero groups among breastfed infants only. The evidence from this pilot study shows that phospholipid metabolism is modulated by both conditions in utero and postnatal feeding in a cohort of 133 Caucasian infants, three months post partum.

Published

2019

30. Assessing the causal association of glycine with risk of cardio-metabolic diseases

Author

Laura B. L. Wittemans, Luca A. Lotta, Clare Oliver-Williams, Isobel D. Stewart, Praveen Surendran, Savita Karthikeyan, Felix R. Day, Albert Koulman, Fumiaki Imamura, Lingyao Zeng, Jeanette Erdmann, Heribert Schunkert, Kay-Tee Khaw, Julian L. Griffin, Nita G. Forouhi, Robert A. Scott, Angela M. Wood, Stephen Burgess, Joanna M. M. Howson, John Danesh, Nicholas J. Wareham, Adam S. Butterworth, and Claudia Langenberg

Subjects

Science

Abstract

Epidemiological studies have associated circulating levels of the amino acid glycine with cardiometabolic outcomes. Here, in a genome-wide meta-analysis of 80,003 individuals, Wittemans et al. identify 22 novel genetic loci for glycine and find a causal relationship with coronary heart disease using MR.

Published

2019

31. Development and Application of High-Throughput Single Cell Lipid Profiling: A Study of SNCA-A53T Human Dopamine Neurons

Author

Stuart G. Snowden, Hugo J.R. Fernandes, Josh Kent, Stefanie Foskolou, Peri Tate, Sarah F. Field, Emmanouil Metzakopian, and Albert Koulman

Subjects

Molecular Neuroscience, Cellular Neuroscience, Lipidomics, Metabolomics, Science

Abstract

Summary: Advances in single cell genomics and transcriptomics have shown that at tissue level there is complex cellular heterogeneity. To understand the effect of this inter-cell heterogeneity on metabolism it is essential to develop a single cell lipid profiling approach that allows the measurement of lipids in large numbers of single cells from a population. This will provide a functional readout of cell activity and membrane structure. Using liquid extraction surface analysis coupled with high-resolution mass spectrometry we have developed a high-throughput method for untargeted single cell lipid profiling. This technological advance highlighted the importance of cellular heterogeneity in the functional metabolism of individual human dopamine neurons, suggesting that A53T alpha-synuclein (SNCA) mutant neurons have impaired membrane function. These results demonstrate that this single cell lipid profiling platform can provide robust data that will expand the frontiers in biomedical research.

Published

2020

32. Fatty acids in the de novo lipogenesis pathway and incidence of type 2 diabetes: A pooled analysis of prospective cohort studies.

Author

Fumiaki Imamura, Amanda M Fretts, Matti Marklund, Andres V Ardisson Korat, Wei-Sin Yang, Maria Lankinen, Waqas Qureshi, Catherine Helmer, Tzu-An Chen, Jyrki K Virtanen, Kerry Wong, Julie K Bassett, Rachel Murphy, Nathan Tintle, Chaoyu Ian Yu, Ingeborg A Brouwer, Kuo-Liong Chien, Yun-Yu Chen, Alexis C Wood, Liana C Del Gobbo, Luc Djousse, Johanna M Geleijnse, Graham G Giles, Janette de Goede, Vilmundur Gudnason, William S Harris, Allison Hodge, Frank Hu, InterAct Consortium, Albert Koulman, Markku Laakso, Lars Lind, Hung-Ju Lin, Barbara McKnight, Kalina Rajaobelina, Ulf Riserus, Jennifer G Robinson, Cecilia Samieri, Mackenzie Senn, David S Siscovick, Sabita S Soedamah-Muthu, Nona Sotoodehnia, Qi Sun, Michael Y Tsai, Tomi-Pekka Tuomainen, Matti Uusitupa, Lynne E Wagenknecht, Nick J Wareham, Jason H Y Wu, Renata Micha, Rozenn N Lemaitre, Dariush Mozaffarian, and Nita G Forouhi

Subjects

Medicine

Abstract

BackgroundDe novo lipogenesis (DNL) is the primary metabolic pathway synthesizing fatty acids from carbohydrates, protein, or alcohol. Our aim was to examine associations of in vivo levels of selected fatty acids (16:0, 16:1n7, 18:0, 18:1n9) in DNL with incidence of type 2 diabetes (T2D).Methods and findingsSeventeen cohorts from 12 countries (7 from Europe, 7 from the United States, 1 from Australia, 1 from Taiwan; baseline years = 1970-1973 to 2006-2010) conducted harmonized individual-level analyses of associations of DNL-related fatty acids with incident T2D. In total, we evaluated 65,225 participants (mean ages = 52.3-75.5 years; % women = 20.4%-62.3% in 12 cohorts recruiting both sexes) and 15,383 incident cases of T2D over the 9-year follow-up on average. Cohort-specific association of each of 16:0, 16:1n7, 18:0, and 18:1n9 with incident T2D was estimated, adjusted for demographic factors, socioeconomic characteristics, alcohol, smoking, physical activity, dyslipidemia, hypertension, menopausal status, and adiposity. Cohort-specific associations were meta-analyzed with an inverse-variance-weighted approach. Each of the 4 fatty acids positively related to incident T2D. Relative risks (RRs) per cohort-specific range between midpoints of the top and bottom quintiles of fatty acid concentrations were 1.53 (1.41-1.66; p < 0.001) for 16:0, 1.40 (1.33-1.48; p < 0.001) for 16:1n-7, 1.14 (1.05-1.22; p = 0.001) for 18:0, and 1.16 (1.07-1.25; p < 0.001) for 18:1n9. Heterogeneity was seen across cohorts (I2 = 51.1%-73.1% for each fatty acid) but not explained by lipid fractions and global geographical regions. Further adjusted for triglycerides (and 16:0 when appropriate) to evaluate associations independent of overall DNL, the associations remained significant for 16:0, 16:1n7, and 18:0 but were attenuated for 18:1n9 (RR = 1.03, 95% confidence interval (CI) = 0.94-1.13). These findings had limitations in potential reverse causation and residual confounding by imprecisely measured or unmeasured factors.ConclusionsConcentrations of fatty acids in the DNL were positively associated with T2D incidence. Our findings support further work to investigate a possible role of DNL and individual fatty acids in the development of T2D.

Published

2020

33. Associations between the maternal circulating lipid profile in pregnancy and fetal imprinted gene alleles: a cohort study

Author

Clive J. Petry, Albert Koulman, Liangjian Lu, Benjamin Jenkins, Samuel Furse, Philippa Prentice, Lee Matthews, Ieuan A. Hughes, Carlo L. Acerini, Ken K. Ong, and David B. Dunger

Subjects

Lipidomics, Lipid profiling, Triglycerides, Gestational diabetes, Development, Parent-of-origin, Gynecology and obstetrics, RG1-991, Reproduction, QH471-489

Abstract

Abstract Background Imprinted genes, which are expressed in a parent of origin-specific manner, are thought to mediate the genetic priorities of each parent in pregnancy. Recently we reported that some fetal imprinted gene variants are associated with maternal glucose concentrations and blood pressures in pregnancy. We suggest that the conflict between the effects of paternal and maternal transmitted genes starts at conception and may already be evident in measures of maternal metabolism in early pregnancy, before gestational diabetes is manifest. Methods Lipid fractions in maternal non-fasting serum collected around week 15 of pregnancy were profiled using direct infusion mass spectrometry in a subset Discovery Cohort (n = 200) of women from the Cambridge Baby Growth Study using direct infusion mass spectrometry. Associations between 151 haplotype-tag fetal polymorphisms in 16 imprinted genes and lipids were determined using partial least squares discriminant analysis. Variable importance in projection scores were used to identify those lipid species that contribute most to the underlying variation in the lipid profile and the concentrations of these species tested for associations with fetal imprinted gene alleles using linear regression. In an internal Validation Cohort (n = 567 women from the same cohort) the lipid fraction was profiled using liquid chromatography-mass spectrometry and tested for associations with the same fetal imprinted gene variants as above, followed by meta-analysis of associations from the Discovery and Validation Cohorts. Results The most significant associations were between a monounsaturated triglyceride (44:1) and both paternally-transmitted fetal H19 rs7950932 (R = 0.14, p = 2.9 × 10− 3, n = 386) and maternally-transmitted fetal FAM99A rs7131362 (R = 0.18, p = 6.2 × 10− 3, n = 351; association with maternal-untransmitted allele R = 0.08, p = 0.07, n = 328). This same triglyceride isoform was also associated with subsequent week 28 fasting glucose concentrations (R = 0.09, p = 9.9 × 10− 3, n = 673) and homeostasis model assessment of insulin resistance (R = 0.09, p = 0.01, n = 664). Conclusions Fetal imprinted genes may influence maternal circulating clinically relevant triglyceride concentrations early in pregnancy.

Published

2018

34. Hepatic steatosis risk is partly driven by increased de novo lipogenesis following carbohydrate consumption

Author

Francis W. B. Sanders, Animesh Acharjee, Celia Walker, Luke Marney, Lee D. Roberts, Fumiaki Imamura, Benjamin Jenkins, Jack Case, Sumantra Ray, Samuel Virtue, Antonio Vidal-Puig, Diana Kuh, Rebecca Hardy, Michael Allison, Nita Forouhi, Andrew J. Murray, Nick Wareham, Michele Vacca, Albert Koulman, and Julian L. Griffin

Subjects

Non-alcoholic fatty liver disease, Direct infusion mass spectrometry, De novo lipogenesis, Triacylglycerols, Triglycerides, Biology (General), QH301-705.5, Genetics, QH426-470

Abstract

Abstract Background Diet is a major contributor to metabolic disease risk, but there is controversy as to whether increased incidences of diseases such as non-alcoholic fatty liver disease arise from consumption of saturated fats or free sugars. Here, we investigate whether a sub-set of triacylglycerols (TAGs) were associated with hepatic steatosis and whether they arise from de novo lipogenesis (DNL) from the consumption of carbohydrates. Results We conduct direct infusion mass spectrometry of lipids in plasma to study the association between specific TAGs and hepatic steatosis assessed by ultrasound and fatty liver index in volunteers from the UK-based Fenland Study and evaluate clustering of TAGs in the National Survey of Health and Development UK cohort. We find that TAGs containing saturated and monounsaturated fatty acids with 16–18 carbons are specifically associated with hepatic steatosis. These TAGs are additionally associated with higher consumption of carbohydrate and saturated fat, hepatic steatosis, and variations in the gene for protein phosphatase 1, regulatory subunit 3b (PPP1R3B), which in part regulates glycogen synthesis. DNL is measured in hyperphagic ob/ob mice, mice on a western diet (high in fat and free sugar) and in healthy humans using stable isotope techniques following high carbohydrate meals, demonstrating the rate of DNL correlates with increased synthesis of this cluster of TAGs. Furthermore, these TAGs are increased in plasma from patients with biopsy-confirmed steatosis. Conclusion A subset of TAGs is associated with hepatic steatosis, even when correcting for common confounding factors. We suggest that hepatic steatosis risk in western populations is in part driven by increased DNL following carbohydrate rich meals in addition to the consumption of saturated fat.

Published

2018

35. Association between plasma phospholipid saturated fatty acids and metabolic markers of lipid, hepatic, inflammation and glycaemic pathways in eight European countries: a cross-sectional analysis in the EPIC-InterAct study

Author

Ju-Sheng Zheng, Stephen J. Sharp, Fumiaki Imamura, Albert Koulman, Matthias B. Schulze, Zheng Ye, Jules Griffin, Marcela Guevara, José María Huerta, Janine Kröger, Ivonne Sluijs, Antonio Agudo, Aurelio Barricarte, Heiner Boeing, Sandra Colorado-Yohar, Courtney Dow, Miren Dorronsoro, Pia T. Dinesen, Guy Fagherazzi, Paul W. Franks, Edith J. M. Feskens, Tilman Kühn, Verena Andrea Katzke, Timothy J. Key, Kay-Tee Khaw, Maria Santucci de Magistris, Francesca Romana Mancini, Elena Molina-Portillo, Peter M. Nilsson, Anja Olsen, Kim Overvad, Domenico Palli, Jose Ramón Quirós, Olov Rolandsson, Fulvio Ricceri, Annemieke M. W. Spijkerman, Nadia Slimani, Giovanna Tagliabue, Anne Tjonneland, Rosario Tumino, Yvonne T. van der Schouw, Claudia Langenberg, Elio Riboli, Nita G. Forouhi, and Nicholas J. Wareham

Subjects

Saturated fatty acids, Odd-chain, Even-chain, Very-long-chain, Metabolic markers, Lipids, Medicine

Abstract

Abstract Background Accumulating evidence suggests that individual circulating saturated fatty acids (SFAs) are heterogeneous in their associations with cardio-metabolic diseases, but evidence about associations of SFAs with metabolic markers of different pathogenic pathways is limited. We aimed to examine the associations between plasma phospholipid SFAs and the metabolic markers of lipid, hepatic, glycaemic and inflammation pathways. Methods We measured nine individual plasma phospholipid SFAs and derived three SFA groups (odd-chain: C15:0 + C17:0, even-chain: C14:0 + C16:0 + C18:0, and very-long-chain: C20:0 + C22:0 + C23:0 + C24:0) in individuals from the subcohort of the European Prospective Investigation into Cancer and Nutrition (EPIC)-InterAct case-cohort study across eight European countries. Using linear regression in 15,919 subcohort members, adjusted for potential confounders and corrected for multiple testing, we examined cross-sectional associations of SFAs with 13 metabolic markers. Multiplicative interactions of the three SFA groups with pre-specified factors, including body mass index (BMI) and alcohol consumption, were tested. Results Higher levels of odd-chain SFA group were associated with lower levels of major lipids (total cholesterol (TC), triglycerides, apolipoprotein A-1 (ApoA1), apolipoprotein B (ApoB)) and hepatic markers (alanine transaminase (ALT), aspartate transaminase (AST), gamma-glutamyl transferase (GGT)). Higher even-chain SFA group levels were associated with higher levels of low-density lipoprotein cholesterol (LDL-C), TC/high-density lipoprotein cholesterol (HDL-C) ratio, triglycerides, ApoB, ApoB/A1 ratio, ALT, AST, GGT and CRP, and lower levels of HDL-C and ApoA1. Very-long-chain SFA group levels showed inverse associations with triglycerides, ApoA1 and GGT, and positive associations with TC, LDL-C, TC/HDL-C, ApoB and ApoB/A1. Associations were generally stronger at higher levels of BMI or alcohol consumption. Conclusions Subtypes of SFAs are associated in a differential way with metabolic markers of lipid metabolism, liver function and chronic inflammation, suggesting that odd-chain SFAs are associated with lower metabolic risk and even-chain SFAs with adverse metabolic risk, whereas mixed findings were obtained for very-long-chain SFAs. The clinical and biochemical implications of these findings may vary by adiposity and alcohol intake.

Published

2017

36. Plasma phospholipid fatty acid profile confirms compliance to a novel saturated fat-reduced, monounsaturated fat-enriched dairy product intervention in adults at moderate cardiovascular risk: a randomized controlled trial

Author

Oonagh Markey, Dafni Vasilopoulou, Kirsty E. Kliem, Albert Koulman, Colette C. Fagan, Keith Summerhill, Laura Y. Wang, Alistair S. Grandison, David J. Humphries, Susan Todd, Kim G. Jackson, David I. Givens, and Julie A. Lovegrove

Subjects

Cardiovascular disease, Dairy products, Dietary fat composition, Food-exchange model, Fatty acids, Monounsaturated fatty acids, Nutrition. Foods and food supply, TX341-641, Nutritional diseases. Deficiency diseases, RC620-627

Abstract

Abstract Background Dairy products are a major contributor to dietary SFA. Partial replacement of milk SFA with unsaturated fatty acids (FAs) is possible through oleic-acid rich supplementation of the dairy cow diet. To assess adherence to the intervention of SFA-reduced, MUFA-enriched dairy product consumption in the RESET (REplacement of SaturatEd fat in dairy on Total cholesterol) study using 4-d weighed dietary records, in addition to plasma phospholipid FA (PL-FA) status. Methods In a randomised, controlled, crossover design, free-living UK participants identified as moderate risk for CVD (n = 54) were required to replace habitually consumed dairy foods (milk, cheese and butter), with study products with a FA profile typical of retail products (control) or SFA-reduced, MUFA-enriched profile (modified), for two 12-week periods, separated by an 8-week washout period. A flexible food-exchange model was used to implement each isoenergetic high-fat, high-dairy diet (38% of total energy intake (%TE) total fat): control (dietary target: 19%TE SFA; 11%TE MUFA) and modified (16%TE SFA; 14%TE MUFA). Results Following the modified diet, there was a smaller increase in SFA (17.2%TE vs. 19.1%TE; p

Published

2017

37. Accelerated phosphatidylcholine turnover in macrophages promotes adipose tissue inflammation in obesity

Author

Kasparas Petkevicius, Sam Virtue, Guillaume Bidault, Benjamin Jenkins, Cankut Çubuk, Cecilia Morgantini, Myriam Aouadi, Joaquin Dopazo, Mireille J Serlie, Albert Koulman, and Antonio Vidal-Puig

Subjects

immunometabolism, macrophage, membrane lipid, ER stress, fatty acid, adipose tissue, Medicine, Science, Biology (General), QH301-705.5

Abstract

White adipose tissue (WAT) inflammation contributes to the development of insulin resistance in obesity. While the role of adipose tissue macrophage (ATM) pro-inflammatory signalling in the development of insulin resistance has been established, it is less clear how WAT inflammation is initiated. Here, we show that ATMs isolated from obese mice and humans exhibit markers of increased rate of de novo phosphatidylcholine (PC) biosynthesis. Macrophage-specific knockout of phosphocholine cytidylyltransferase A (CCTα), the rate-limiting enzyme of de novo PC biosynthesis pathway, alleviated obesity-induced WAT inflammation and insulin resistance. Mechanistically, CCTα-deficient macrophages showed reduced ER stress and inflammation in response to palmitate. Surprisingly, this was not due to lower exogenous palmitate incorporation into cellular PCs. Instead, CCTα-null macrophages had lower membrane PC turnover, leading to elevated membrane polyunsaturated fatty acid levels that negated the pro-inflammatory effects of palmitate. Our results reveal a causal link between obesity-associated increase in de novo PC synthesis, accelerated PC turnover and pro-inflammatory activation of ATMs.

Published

2019

38. Sphingolipid dysregulation due to lack of functional KDSR impairs proplatelet formation causing thrombocytopenia

Author

Tadbir K. Bariana, Veerle Labarque, Jessica Heremans, Chantal Thys, Mara De Reys, Daniel Greene, Benjamin Jenkins, Luigi Grassi, Denis Seyres, Frances Burden, Deborah Whitehorn, Olga Shamardina, Sofia Papadia, Keith Gomez, NIHR BioResource, Chris Van Geet, Albert Koulman, Willem H. Ouwehand, Cedric Ghevaert, Mattia Frontini, Ernest Turro, and Kathleen Freson

Subjects

Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

Sphingolipids are fundamental to membrane trafficking, apoptosis, and cell differentiation and proliferation. KDSR or 3-keto-dihydrosphingosine reductase is an essential enzyme for de novo sphingolipid synthesis, and pathogenic mutations in KDSR result in the severe skin disorder erythrokeratodermia variabilis et progressiva-4. Four of the eight reported cases also had thrombocytopenia but the underlying mechanism has remained unexplored. Here we expand upon the phenotypic spectrum of KDSR deficiency with studies in two siblings with novel compound heterozygous variants associated with thrombocytopenia, anemia, and minimal skin involvement. We report a novel phenotype of progressive juvenile myelofibrosis in the propositus, with spontaneous recovery of anemia and thrombocytopenia in the first decade of life. Examination of bone marrow biopsies showed megakaryocyte hyperproliferation and dysplasia. Megakaryocytes obtained by culture of CD34+ stem cells confirmed hyperproliferation and showed reduced proplatelet formation. The effect of KDSR insufficiency on the sphingolipid profile was unknown, and was explored in vivo and in vitro by a broad metabolomics screen that indicated activation of an in vivo compensatory pathway that leads to normalization of downstream metabolites such as ceramide. Differentiation of propositus-derived induced pluripotent stem cells to megakaryocytes followed by expression of functional KDSR showed correction of the aberrant cellular and biochemical phenotypes, corroborating the critical role of KDSR in proplatelet formation. Finally, Kdsr depletion in zebrafish recapitulated the thrombocytopenia and showed biochemical changes similar to those observed in the affected siblings. These studies support an important role for sphingolipids as regulators of cytoskeletal organization during megakaryopoiesis and proplatelet formation.

Published

2019

39. Comparison of the Lipidomic Signature of Fatty Liver in Children and Adults

Author

Jake P. Mann, Benjamin Jenkins, Samuel Furse, Stuart G. Snowden, Anna Alisi, Laura G. Draijer, Kylie Karnebeek, Deirdre A. Kelly, Bart G. Koot, Antonella Mosca, Camilla Salvestrini, Indra van Mourik, Anita Vreugdenhil, Matthias Zilbauer, Albert Koulman, Graduate School, Amsterdam Gastroenterology Endocrinology Metabolism, Amsterdam Reproduction & Development (AR&D), Paediatric Gastroenterology, Pediatrics, Nutrition and Movement Sciences, Kindergeneeskunde, MUMC+: MA Medische Staf Kindergeneeskunde (9), and RS: NUTRIM - R1 - Obesity, diabetes and cardiovascular health

Subjects

Adult, OUTCOMES, diabetes, NONALCOHOLIC STEATOHEPATITIS, hepatic steatosis, BIOMARKERS, fibrosis, Gastroenterology, ACIDS, DISEASE, Cross-Sectional Studies, Liver, MARKERS, Cardiovascular Diseases, Non-alcoholic Fatty Liver Disease, NAFLD, Pediatrics, Perinatology and Child Health, Lipidomics, ADOLESCENTS, YOUNG, Humans, biomarker, Child, Triglycerides

Abstract

OBJECTIVE: Non-alcoholic fatty liver disease (NAFLD) is an increasingly common condition in children characterized by insulin resistance and altered lipid metabolism. Affected patients are at increased risk of cardiovascular disease (CVD) and children with NAFLD are likely to be at risk of premature cardiac events. Evaluation of the plasma lipid profile of children with NAFLD offers the opportunity to investigate these perturbations and understand how closely they mimic the changes seen in adults with cardiometabolic disease.METHODS: We performed untargeted liquid chromatography mass spectrometry (LC-MS) plasma lipidomics on 287 children: 19 lean controls, 146 from an obese cohort, and 122 NAFLD cases who had undergone liver biopsy. Associations between lipid species and liver histology were assessed using regression adjusted for age and sex. Results were then replicated using data from 9,500 adults with metabolic phenotyping.RESULTS: More severe paediatric NAFLD was associated with lower levels of long chain, polyunsaturated phosphatidylcholines (PC) and triglycerides (TG). Similar trends in PC and TG chain length and saturation were seen in adults with hepatic steatosis. However, many of the specific lipids associated with NAFLD differed between children and adults. Five lipids replicated in adults (including PC(36:4)) have been directly linked to death and cardiometabolic disease, as well as indirectly via genetic variants.CONCLUSION: These findings suggest that, whilst similar pathways of lipid metabolism are perturbed in paediatric NAFLD as in cardiometabolic disease in adults, the specific lipid signature in children is different.

Published

2022

40. Figure S2 from Myc Expression Drives Aberrant Lipid Metabolism in Lung Cancer

Author

Julian L. Griffin, Gerard I. Evan, Trevor Littlewood, Albert Koulman, Tom Ashmore, Deborah L. Burkhart, Catherine H. Wilson, Zsuzsanna Ament, and Zoe Hall

Abstract

Relative abundances of free fatty acids, phosphatidylglycerols and phosphatidylinositols in tumour compared to normal lung tissue.

Published

2023

41. Supplemental Figure Legends from Myc Expression Drives Aberrant Lipid Metabolism in Lung Cancer

Author

Julian L. Griffin, Gerard I. Evan, Trevor Littlewood, Albert Koulman, Tom Ashmore, Deborah L. Burkhart, Catherine H. Wilson, Zsuzsanna Ament, and Zoe Hall

Abstract

Figure legends for supplemental Figures S1-S6.

Published

2023

42. Data from Myc Expression Drives Aberrant Lipid Metabolism in Lung Cancer

Author

Julian L. Griffin, Gerard I. Evan, Trevor Littlewood, Albert Koulman, Tom Ashmore, Deborah L. Burkhart, Catherine H. Wilson, Zsuzsanna Ament, and Zoe Hall

Abstract

MYC-mediated pathogenesis in lung cancer continues to attract interest for new therapeutic strategies. In this study, we describe a transgenic mouse model of KRAS-driven lung adenocarcinoma that affords reversible activation of MYC, used here as a tool for lipidomic profiling of MYC-dependent lung tumors formed in this model. Advanced mass spectrometric imaging and surface analysis techniques were used to characterize the spatial and temporal changes in lipid composition in lung tissue. We found that normal lung tissue was characterized predominantly by saturated phosphatidylcholines and phosphatidylglycerols, which are major lipid components of pulmonary surfactant. In contrast, tumor tissues displayed an increase in phosphatidylinositols and arachidonate-containing phospholipids that can serve as signaling precursors. Deactivating MYC resulted in a rapid and dramatic decrease in arachidonic acid and its eicosanoid metabolites. In tumors with high levels of MYC, we found an increase in cytosolic phospholipase A2 (cPLA2) activity with a preferential release of membrane-bound arachidonic acid, stimulating the lipoxygenase (LOX) and COX pathways also amplified by MYC at the level of gene expression. Deactivating MYC lowered cPLA2 activity along with COX2 and 5-LOX mRNA levels. Notably, inhibiting the COX/5-LOX pathways in vivo reduced tumor burden in a manner associated with reduced cell proliferation. Taken together, our results show how MYC drives the production of specific eicosanoids critical for lung cancer cell survival and proliferation, with possible implications for the use of COX and LOX pathway inhibitors for lung cancer therapy. Cancer Res; 76(16); 4608–18. ©2016 AACR.

Published

2023

43. Supplementary Tables from Myc Expression Drives Aberrant Lipid Metabolism in Lung Cancer

Author

Julian L. Griffin, Gerard I. Evan, Trevor Littlewood, Albert Koulman, Tom Ashmore, Deborah L. Burkhart, Catherine H. Wilson, Zsuzsanna Ament, and Zoe Hall

Abstract

LC-MS/MS method details for eicosanoid analysis (Tables S1 and S2); Lipid ID by accurate mass and tandem MS (Tables S3 and S4); Fold change for eicosanoid-related species with MYC activated (Table S5).

Published

2023

44. Nurse- and self-collected dried blood spots for the assessment of cardiovascular risk factors: A randomised study of the Understanding Society Innovation Panel

Author

Meena Kumari, Alexandria Andrayas, Tarek Al Baghal, Jonathon Burton, Thomas F. Crossley, Kerry S. Jones, Damon A. Parkington, Albert Koulman, and Michaela Benzeval

Abstract

Background Dried blood spot (DBS) sample collection has been suggested as a less invasive, cheaper and more convenient alternative to venepuncture, which requires trained personnel, making it a potentially viable approach for self-collection of blood on a large scale. We examine whether participants in a longitudinal survey were willing to provide a DBS sample in different interview settings, and how resulting cardiovascular risk biomarkers compared with those from venous blood to calculate clinical risk. Methods Participants of the Understanding Society Innovation Panel, a representative sample of UK households, were randomly assigned to three modes of interview. Most participants (84%) were interviewed in their allocated mode. Participants (n = 2162) were interviewed by a nurse who collected both a blood sample by venepuncture and a DBS card (‘nurse collection’) or participants were seen by an interviewer or took part in the survey online to self-collect a DBS card (‘self-collection’). All DBS cards were returned in the post after the sample had dried. Lipids (total cholesterol, HDL-cholesterol, triglycerides), HbA1c and C-reactive protein were measured in venous and DBS samples and equivalence calculated. The resultant values were used to confirm equivalent prevalence of risk of cardiovascular disease in each type of blood sample by mode of participation. Results Of participants interviewed by a nurse 69% consented to venous blood sample and 74% to a DBS sample, while in the self-collection modes, 35% consented to DBS collection. Demographic characteristics of participants in self-collection mode was not different to those in nurse collection mode. The percentage of participants with clinically raised biomarkers did not significantly differ between type of blood collection (for example, 62% had high cholesterol (> 5 mmol/l) measured by venepuncture and 67% had high cholesterol within the self-collected DBS sample (p = 0.13)). Conclusion While self-collected DBS sampling had a lower response rate to DBS collected by a nurse, participation did not vary by key demographic characteristics. This study demonstrates that DBS collection is a feasible method of sample collection that can provide acceptable measures of clinically relevant biomarkers, enabling the calculation of population levels of cardiovascular disease risk.

Published

2023

45. Protocol and application of basal erythrocyte transketolase activity to improve assessment of thiamine status

Author

Kerry S. Jones, Damon A. Parkington, Megan W. Bourassa, Carla Cerami, Albert Koulman, Jones, Kerry S [0000-0002-7380-9797], and Apollo - University of Cambridge Repository

Subjects

vitamin B1, Erythrocytes, General Neuroscience, Thiamine Deficiency, women of reproductive age, beriberi, General Biochemistry, Genetics and Molecular Biology, Hemoglobins, History and Philosophy of Science, micronutrient deficiency, Humans, Female, Thiamine, Transketolase, ORIGINAL ARTICLES, Biomarkers, ORIGINAL ARTICLE

Abstract

Thiamine (vitamin B1) is an essential micronutrient required as a cofactor in many metabolic processes. Clinical symptoms of thiamine deficiency are poorly defined, hence biomarkers of thiamine status are important. The erythrocyte transketolase activity coefficient (ETKac) is a sensitive measure of thiamine status, but its interpretation may be confounded where the availability of the transketolase enzyme is limited. Basal ETK activity per gram of hemoglobin provides a complementary biomarker of thiamine status; however, its measurement and calculation are poorly described. Here, we describe in detail the assessment of basal ETK activity, including the calculation of path length in microplates and the molar absorption coefficient of NADH specific to the assay, and the measurement of hemoglobin in sample hemolysates. To illustrate the application of the methods, we present ETKac and basal ETK activity from women in The Gambia and UK. In conclusion, we present a clear protocol for the measurement of basal ETK activity that will permit the harmonization of methods to improve replication between laboratories., This work was funded by the NIHR Cambridge Biomedical Research Centre (IS-BRC-1215-20014). The views expressed are those of the authors and not necessarily those of the NHS, the NIHR or the Department of Health and Social Care.

Published

2023

46. LC–MS Lipidomics: Exploiting a Simple High-Throughput Method for the Comprehensive Extraction of Lipids in a Ruminant Fat Dose-Response Study

Author

Benjamin Jenkins, Martin Ronis, and Albert Koulman

Subjects

odd chain lipids, lipid profiling, Folch, protein precipitation, sample preparation, relative lipid composition (Mol%), Microbiology, QR1-502

Abstract

Typical lipidomics methods incorporate a liquid–liquid extraction with LC–MS quantitation; however, the classic sample extraction methods are not high-throughput and do not perform well at extracting the full range of lipids especially, the relatively polar species (e.g., acyl-carnitines and glycosphingolipids). In this manuscript, we present a novel sample extraction protocol, which produces a single phase supernatant suitable for high-throughput applications that offers greater performance in extracting lipids across the full spectrum of species. We applied this lipidomics pipeline to a ruminant fat dose–response study to initially compare and validate the different extraction protocols but also to investigate complex lipid biomarkers of ruminant fat intake (adjoining onto simple odd chain fatty acid correlations). We have found 100 lipids species with a strong correlation with ruminant fat intake. This novel sample extraction along with the LC–MS pipeline have shown to be sensitive, robust and hugely informative (>450 lipids species semi-quantified): with a sample preparation throughput of over 100 tissue samples per day and an estimated ~1000 biological fluid samples per day. Thus, this work facilitating both the epidemiological involvement of ruminant fat, research into odd chain lipids and also streamlining the field of lipidomics (both by sample preparation methods and data presentation).

Published

2020

47. Extraction of Lipids from Liquid Biological Samples for High-Throughput Lipidomics

Author

Samuel Furse, Adam J. Watkins, and Albert Koulman

Subjects

lipidomics, lipid extraction, lipid metabolism, Organic chemistry, QD241-441

Abstract

Extraction of the lipid fraction is a key part of acquiring lipidomics data. High-throughput lipidomics, the extraction of samples in 96w plates that are then run on 96 or 384w plates, has particular requirements that mean special development work is needed to fully optimise an extraction method. Several methods have been published as suitable for it. Here, we test those methods using four liquid matrices: milk, human serum, homogenised mouse liver and homogenised mouse heart. In order to determine the difference in performance of the methods as objectively as possible, we used the number of lipid variables identified, the total signal strength and the coefficient of variance to quantify the performance of the methods. This showed that extraction methods with an aqueous component were generally better than those without for these matrices. However, methods without an aqueous fraction in the extraction were efficient for milk samples. Furthermore, a mixture containing a chlorinated solvent (dichloromethane) appears to be better than an ethereal solvent (tert-butyl methyl ether) for extracting lipids. This study suggests that a 3:1:0.005 mixture of dichloromethane, methanol and triethylammonium chloride, with an aqueous wash, is the most efficient of the currently reported methods for high-throughput lipid extraction and analysis. Further work is required to develop non-aqueous extraction methods that are both convenient and applicable to a broad range of sample types.

Published

2020

48. Fatty acid biomarkers of dairy fat consumption and incidence of type 2 diabetes: A pooled analysis of prospective cohort studies.

Author

Fumiaki Imamura, Amanda Fretts, Matti Marklund, Andres V Ardisson Korat, Wei-Sin Yang, Maria Lankinen, Waqas Qureshi, Catherine Helmer, Tzu-An Chen, Kerry Wong, Julie K Bassett, Rachel Murphy, Nathan Tintle, Chaoyu Ian Yu, Ingeborg A Brouwer, Kuo-Liong Chien, Alexis C Frazier-Wood, Liana C Del Gobbo, Luc Djoussé, Johanna M Geleijnse, Graham G Giles, Janette de Goede, Vilmundur Gudnason, William S Harris, Allison Hodge, Frank Hu, InterAct Consortium, Albert Koulman, Markku Laakso, Lars Lind, Hung-Ju Lin, Barbara McKnight, Kalina Rajaobelina, Ulf Risérus, Jennifer G Robinson, Cécilia Samieri, David S Siscovick, Sabita S Soedamah-Muthu, Nona Sotoodehnia, Qi Sun, Michael Y Tsai, Matti Uusitupa, Lynne E Wagenknecht, Nick J Wareham, Jason Hy Wu, Renata Micha, Nita G Forouhi, Rozenn N Lemaitre, Dariush Mozaffarian, and Fatty Acids and Outcomes Research Consortium (FORCE)

Subjects

Medicine

Abstract

BackgroundWe aimed to investigate prospective associations of circulating or adipose tissue odd-chain fatty acids 15:0 and 17:0 and trans-palmitoleic acid, t16:1n-7, as potential biomarkers of dairy fat intake, with incident type 2 diabetes (T2D).Methods and findingsSixteen prospective cohorts from 12 countries (7 from the United States, 7 from Europe, 1 from Australia, 1 from Taiwan) performed new harmonised individual-level analysis for the prospective associations according to a standardised plan. In total, 63,682 participants with a broad range of baseline ages and BMIs and 15,180 incident cases of T2D over the average of 9 years of follow-up were evaluated. Study-specific results were pooled using inverse-variance-weighted meta-analysis. Prespecified interactions by age, sex, BMI, and race/ethnicity were explored in each cohort and were meta-analysed. Potential heterogeneity by cohort-specific characteristics (regions, lipid compartments used for fatty acid assays) was assessed with metaregression. After adjustment for potential confounders, including measures of adiposity (BMI, waist circumference) and lipogenesis (levels of palmitate, triglycerides), higher levels of 15:0, 17:0, and t16:1n-7 were associated with lower incidence of T2D. In the most adjusted model, the hazard ratio (95% CI) for incident T2D per cohort-specific 10th to 90th percentile range of 15:0 was 0.80 (0.73-0.87); of 17:0, 0.65 (0.59-0.72); of t16:1n7, 0.82 (0.70-0.96); and of their sum, 0.71 (0.63-0.79). In exploratory analyses, similar associations for 15:0, 17:0, and the sum of all three fatty acids were present in both genders but stronger in women than in men (pinteraction < 0.001). Whereas studying associations with biomarkers has several advantages, as limitations, the biomarkers do not distinguish between different food sources of dairy fat (e.g., cheese, yogurt, milk), and residual confounding by unmeasured or imprecisely measured confounders may exist.ConclusionsIn a large meta-analysis that pooled the findings from 16 prospective cohort studies, higher levels of 15:0, 17:0, and t16:1n-7 were associated with a lower risk of T2D.

Published

2018

49. A Review of Odd-Chain Fatty Acid Metabolism and the Role of Pentadecanoic Acid (C15:0) and Heptadecanoic Acid (C17:0) in Health and Disease

Author

Benjamin Jenkins, James A. West, and Albert Koulman

Subjects

odd chain fatty acids, pentadecanoic, heptadecanoic, biomarker, α-oxidation, dairy, Organic chemistry, QD241-441

Abstract

The role of C17:0 and C15:0 in human health has recently been reinforced following a number of important biological and nutritional observations. Historically, odd chain saturated fatty acids (OCS-FAs) were used as internal standards in GC-MS methods of total fatty acids and LC-MS methods of intact lipids, as it was thought their concentrations were insignificant in humans. However, it has been thought that increased consumption of dairy products has an association with an increase in blood plasma OCS-FAs. However, there is currently no direct evidence but rather a casual association through epidemiology studies. Furthermore, a number of studies on cardiometabolic diseases have shown that plasma concentrations of OCS-FAs are associated with lower disease risk, although the mechanism responsible for this is debated. One possible mechanism for the endogenous production of OCS-FAs is α-oxidation, involving the activation, then hydroxylation of the α-carbon, followed by the removal of the terminal carboxyl group. Differentiation human adipocytes showed a distinct increase in the concentration of OCS-FAs, which was possibly caused through α-oxidation. Further evidence for an endogenous pathway, is in human plasma, where the ratio of C15:0 to C17:0 is approximately 1:2 which is contradictory to the expected levels of C15:0 to C17:0 roughly 2:1 as detected in dairy fat. We review the literature on the dietary consumption of OCS-FAs and their potential endogenous metabolism.

Published

2015

50. Author response for 'Protocol and application of basal erythrocyte transketolase activity to improve assessment of thiamine status'

Author

null Kerry S. Jones, null Damon A. Parkington, null Megan W. Bourassa, null Carla Cerami, and null Albert Koulman

Published

2022