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7. Serum Metabolomic Alterations Associated with Proteinuria in CKD

Author

Luo, Shengyuan, Coresh, Josef, Tin, Adrienne, Rebholz, Casey M., Appel, Lawrence J., Chen, Jingsha, Vasan, Ramachandran S., Anderson, Amanda H., Feldman, Harold I., Kimmel, Paul L., Waikar, Sushrut S., Köttgen, Anna, Evans, Anne M., Levey, Andrew S., Inker, Lesley A., Sarnak, Mark J., and Grams, Morgan Erika

Published
2019
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10. Metabolomic profiles in individuals with negative affectivity and social inhibition: A population-based study of Type D personality

Author

Altmaier, Elisabeth, Emeny, Rebecca T., Krumsiek, Jan, Lacruz, Maria E., Lukaschek, Karoline, Häfner, Sibylle, Kastenmüller, Gabi, Römisch-Margl, Werner, Prehn, Cornelia, Mohney, Robert P., Evans, Anne M., Milburn, Michael V., Illig, Thomas, Adamski, Jerzy, Theis, Fabian, Suhre, Karsten, and Ladwig, Karl-Heinz

Published
2013
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13. Metabolite profiling reveals new insights into the regulation of serum urate in humans

Author

Albrecht, Eva, Waldenberger, Melanie, Krumsiek, Jan, Evans, Anne M., Jeratsch, Ulli, Breier, Michaela, Adamski, Jerzy, Koenig, Wolfgang, Zeilinger, Sonja, Fuchs, Christiane, Klopp, Norman, Theis, Fabian J., Wichmann, H.-Erich, Suhre, Karsten, Illig, Thomas, Strauch, Konstantin, Peters, Annette, Gieger, Christian, Kastenmüller, Gabi, Doering, Angela, and Meisinger, Christa

Published
2014
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14. A Case Study of Dysfunctional Nicotinamide Metabolism in a 20-Year-Old Male.

Author

DeBalsi, Karen L., Newman, John H., Sommerville, Laura J., Phillips III, John A., Hamid, Rizwan, Cogan, Joy, Fessel, Joshua P., Evans, Anne M., Network, Undiagnosed Diseases, and Kennedy, Adam D.

Subjects
NICOTINAMIDE, METHIONINE metabolism, CATECHOL-O-methyltransferase, NAD (Coenzyme), NASOENTERAL tubes, METABOLISM, NEURODEGENERATION, METABOLIC disorders
Abstract

We present a case study of a 20-year-old male with an unknown neurodegenerative disease who was referred to the Undiagnosed Diseases Network Vanderbilt Medical Center site. A previous metabolic panel showed that the patient had a critical deficiency in nicotinamide intermediates that are generated during the biosynthesis of NAD(H). We followed up on these findings by evaluating the patient's ability to metabolize nicotinamide. We performed a global metabolic profiling analysis of plasma samples that were collected: (1) under normal fed conditions (baseline), (2) after the patient had fasted, and (3) after he was challenged with a 500 mg nasogastric tube bolus of nicotinamide following the fast. Our findings showed that the patient's nicotinamide N-methyltransferase (NNMT), a key enzyme in NAD(H) biosynthesis and methionine metabolism, was not functional under normal fed or fasting conditions but was restored in response to the nicotinamide challenge. Altered levels of metabolites situated downstream of NNMT and in neighboring biochemical pathways provided further evidence of a baseline defect in NNMT activity. To date, this is the only report of a critical defect in NNMT activity manifesting in adulthood and leading to neurodegenerative disease. Altogether, this study serves as an important reference in the rare disease literature and also demonstrates the utility of metabolomics as a diagnostic tool for uncharacterized metabolic diseases. [ABSTRACT FROM AUTHOR]

Published
2023
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16. Integrated, nontargeted ultrahigh performance liquid chromatography/electrospray ionization tandem mass spectrometry platform for the identification and relative quantification of the small-molecule complement of biological systems

Author

Evans, Anne M., DeHaven, Corey D., Barrett, Tom, Mitchell, Matt, and Milgram, Eric

Subjects
Liquid chromatography -- Methods, Mass spectrometry -- Methods, Metabonomic analysis -- Methods, Chemistry
Abstract

To address the challenges associated with metabolomics analyses, such as identification of chemical structures and elimination of experimental artifacts, we developed a platform that integrated the chemical analysis, including identification and relative quantification, data reduction, and quality assurance components of the process. The analytical platform incorporated two separate ultrahigh performance liquid chromatography/tandem mass spectrometry (UHPLC/MS/M[S.sup.2]) injections; one injection was optimized for basic species, and the other was optimized for acidic species. This approach permitted the detection of 339 small molecules, a total instrument analysis time of 24 min (two injections at 12 min each), while maintaining a median process variability of 9%. The resulting MS/M[S.sup.2] data were searched against an in-house generated authentic standard library that included retention time, molecular weight (m/z), preferred adducts, and in-source fragments as well as their associated MS/MS spectra for all molecules in the library. The library allowed the rapid and high-confidence identification of the experimentally detected molecules based on a multiparameter match without need for additional analyses. This integrated platform enabled the high-throughput collection and relative quantitative analysis of analytical data and identified a large number and broad spectrum of molecules with a high degree of confidence.

Published
2009

17. The Roles of Gut Microbiome and Plasma Metabolites in the Associations between ABO Blood Groups and Insulin Homeostasis: The Microbiome and Insulin Longitudinal Evaluation Study (MILES).

Author

Li-Gao, Ruifang, Grubbs, Kirk, Bertoni, Alain G., Hoffman, Kristi L., Petrosino, Joseph F., Ramesh, Gautam, Wu, Martin, Rotter, Jerome I., Chen, Yii-Der Ida, Evans, Anne M., Robinson, Richard J., Sommerville, Laura, Mook-Kanamori, Dennis, Goodarzi, Mark O., Michelotti, Gregory A., and Sheridan, Patricia A.

Subjects
ABO blood group system, GUT microbiome, BLOOD groups, HOMEOSTASIS, INSULIN, METABOLITES, HAPLOTYPES
Abstract

Non-O blood groups are associated with decreased insulin sensitivity and risk of type 2 diabetes. A recent study pinpointed the associations between ABO blood groups and gut microbiome, which may serve as potential mediators for the observed increased disease risks. We aimed to characterize associations between ABO haplotypes and insulin-related traits as well as potential mediating pathways. We assessed insulin homeostasis in African Americans (AAs; n = 109) and non-Hispanic whites (n = 210) from the Microbiome and Insulin Longitudinal Evaluation Study. The ABO haplotype was determined by six SNPs located in the ABO gene. Based on prior knowledge, we included 21 gut bacteria and 13 plasma metabolites for mediation analysis. In the white study cohort (60 ± 9 years, 42% male), compared to the O1 haplotype, A1 was associated with a higher Matsuda insulin sensitivity index, while a lower relative abundance of Bacteroides massiliensis and lactate levels. Lactate was a likely mediator of this association but not Bacteroides massiliensis. In the AAs group (57 ± 8 years, 33% male), we found no association between any haplotype and insulin-related traits. In conclusion, the A1 haplotype may promote healthy insulin sensitivity in non-Hispanic whites and lactate likely play a role in this process but not selected gut bacteria. [ABSTRACT FROM AUTHOR]

Published
2022
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18. Identification of the [beta] cell antigen targeted by a prevalent population of pathogenic [CD8.sup.+] T cells in autoimmune diabetes

Author

Lieberman, Scott M., Evans, Anne M., Han, Bingye, Takaki, Toshiyuki, Vinnitskaya, Yuliya, Caldwell, Jennifer A., Serreze, David V., Shabanowitz, Jeffrey, Hunt, Donald F., Nathenson, Stanley G., Santamaria, Pere, and DiLorenzo, Teresa P.

Subjects
T cells -- Physiological aspects, Type 1 diabetes -- Physiological aspects, Science and technology
Abstract

Type 1 diabetes is an autoimmune disease in which autoreactive T cells attack and destroy the insulin-producing pancreatic [beta] cells. [CD8.sup.+] T cells are essential for this [beta] cell destruction, yet their specific antigenic targets are largely unknown. Here, we reveal that the autoantigen targeted by a prevalent population of pathogenic [CD8.sup.+] T cells in nonobese diabetic mice is islet-specific glucose-6-phosphatase catalytic subunit-related protein (IGRP). Through tetramer technology, IGRP-reactive T cells are readily detected in islets and peripheral blood directly ex vivo. The human IGRP gene maps to a diabetes susceptibility locus, suggesting that IGRP also may be an antigen for pathogenic T cells in human type I diabetes and, thus, a new, potential target for diagnostic and therapeutic approaches.

Published
2003

20. Ratios of Acetaminophen Metabolites Identify New Loci of Pharmacogenetic Relevance in a Genome-Wide Association Study.

Author

Thareja, Gaurav, Evans, Anne M., Wood, Spencer D., Stephan, Nisha, Zaghlool, Shaza, Halama, Anna, Kastenmüller, Gabi, Belkadi, Aziz, Albagha, Omar M. E., and Suhre, Karsten

Subjects
GENOME-wide association studies, ACETAMINOPHEN, METABOLITES, LOCUS (Genetics), PHENOTYPES, STATISTICAL power analysis, XENOBIOTICS
Abstract

Genome-wide association studies (GWAS) with non-targeted metabolomics have identified many genetic loci of biomedical interest. However, metabolites with a high degree of missingness, such as drug metabolites and xenobiotics, are often excluded from such studies due to a lack of statistical power and higher uncertainty in their quantification. Here we propose ratios between related drug metabolites as GWAS phenotypes that can drastically increase power to detect genetic associations between pairs of biochemically related molecules. As a proof-of-concept we conducted a GWAS with 520 individuals from the Qatar Biobank for who at least five of the nine available acetaminophen metabolites have been detected. We identified compelling evidence for genetic variance in acetaminophen glucuronidation and methylation by UGT2A15 and COMT, respectively. Based on the metabolite ratio association profiles of these two loci we hypothesized the chemical structure of one of their products or substrates as being 3-methoxyacetaminophen, which we then confirmed experimentally. Taken together, our study suggests a novel approach to analyze metabolites with a high degree of missingness in a GWAS setting with ratios, and it also demonstrates how pharmacological pathways can be mapped out using non-targeted metabolomics measurements in large population-based studies. [ABSTRACT FROM AUTHOR]

Published
2022
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22. Matching Drug Metabolites from Non-Targeted Metabolomics to Self-Reported Medication in the Qatar Biobank Study.

Author

Suhre, Karsten, Stephan, Nisha, Zaghlool, Shaza, Triggle, Chris R., Robinson, Richard J., Evans, Anne M., and Halama, Anna

Subjects
METABOLITES, METABOLOMICS, NONPRESCRIPTION drugs, BLOOD plasma, DRUGS, BLOOD sampling
Abstract

Modern metabolomics platforms are able to identify many drug-related metabolites in blood samples. Applied to population-based biobank studies, the detection of drug metabolites can then be used as a proxy for medication use or serve as a validation tool for questionnaire-based health assessments. However, it is not clear how well detection of drug metabolites in blood samples matches information on self-reported medication provided by study participants. Here, we curate free-text responses to a drug-usage questionnaire from 6000 participants of the Qatar Biobank (QBB) using standardized WHO Anatomical Therapeutic Chemical (ATC) Classification System codes and compare the occurrence of these ATC terms to the detection of drug-related metabolites in matching blood plasma samples from 2807 QBB participants for which we collected non-targeted metabolomics data. We found that the detection of 22 drug-related metabolites significantly associated with the self-reported use of the corresponding medication. Good agreement of self-reported medication with non-targeted metabolomics was observed, with self-reported drugs and their metabolites being detected in a same blood sample in 79.4% of the cases. On the other hand, only 29.5% of detected drug metabolites matched to self-reported medication. Possible explanations for differences include under-reporting of over-the-counter medications from the study participants, such as paracetamol, misannotation of low abundance metabolites, such as metformin, and inability of the current methods to detect them. Taken together, our study provides a broad real-world view of what to expect from large non-targeted metabolomics measurements in population-based biobank studies and indicates areas where further improvements can be made. [ABSTRACT FROM AUTHOR]

Published
2022
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24. Global biochemical analysis of plasma, serum and whole blood collected using various anticoagulant additives.

Author

Kennedy, Adam D., Ford, Lisa, Wittmann, Bryan, Conner, Jesse, Wulff, Jacob, Mitchell, Matthew, Evans, Anne M., and Toal, Douglas R.

Subjects
GLOBAL analysis (Mathematics), BLOOD collection, SMALL molecules, ANTICOAGULANTS, BLOOD testing
Abstract

Introduction: Analysis of blood for the evaluation of clinically relevant biomarkers requires precise collection and sample handling by phlebotomists and laboratory staff. An important consideration for the clinical application of metabolomics are the different anticoagulants utilized for sample collection. Most studies that have characterized differences in metabolite levels in various blood collection tubes have focused on single analytes. We define analyte levels on a global metabolomics platform following blood sampling using five different, but commonly used, clinical laboratory blood collection tubes (i.e., plasma anticoagulated with either EDTA, lithium heparin or sodium citrate, along with no additive (serum), and EDTA anticoagulated whole blood). Methods: Using an untargeted metabolomics platform we analyzed five sample types after all had been collected and stored at -80°C. The biochemical composition was determined and differences between the samples established using matched-pair t-tests. Results: We identified 1,117 biochemicals across all samples and detected a mean of 1,036 in the sample groups. Compared to the levels of metabolites in EDTA plasma, the number of biochemicals present at statistically significant different levels (p<0.05) ranged from 452 (serum) to 917 (whole blood). Several metabolites linked to screening assays for rare diseases including acylcarnitines, bilirubin and heme metabolites, nucleosides, and redox balance metabolites varied significantly across the sample collection types. Conclusions: Our study highlights the widespread effects and importance of using consistent additives for assessing small molecule levels in clinical metabolomics. The biochemistry that occurs during the blood collection process creates a reproducible signal that can identify specimens collected with different anticoagulants in metabolomic studies. Impact statement: In this manuscript, normal/healthy donors had peripheral blood collected using multiple anticoagulants as well as serum during a fasted blood draw. Global metabolomics is a new technology being utilized to draw clinical conclusions and we interrogated the effects of different anticoagulants on the levels of biochemicals from each of the donors. Characterizing the effects of the anticoagulants on biochemical levels will help researchers leverage the information using global metabolomics in order to make conclusions regarding important disease biomarkers. [ABSTRACT FROM AUTHOR]

Published
2021
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25. Precision of a Clinical Metabolomics Profiling Platform for Use in the Identification of Inborn Errors of Metabolism.

Author

Ford, Lisa, Kennedy, Adam D., Goodman, Kelli D., Pappan, Kirk L., Evans, Anne M., Miller, Luke A. D., Wulff, Jacob E., Wiggs III, Bobby R., Lennon, John J., Elsea, Sarah, and Toal, Douglas R.

Subjects
EXOMES, SEQUENCE analysis, METABOLOMICS, GENETIC disorders, METABOLIC disorders
Abstract

Background: The application of whole-exome sequencing for the diagnosis of genetic disease has paved the way for systems-based approaches in the clinical laboratory. Here, we describe a clinical metabolomics method for the screening of metabolic diseases through the analysis of a multi-pronged mass spectrometry platform. By simultaneously measuring hundreds of metabolites in a single sample, clinical metabolomics offers a comprehensive approach to identify metabolic perturbations across multiple biochemical pathways. Methods: We conducted a single- and multi-day precision study on hundreds of metabolites in human plasma on 4, multi-arm, high-throughput metabolomics platforms. Results: The average laboratory coefficient of variation (CV) on the 4 platforms was between 9.3 and 11.5% (median, 6.5-8.4%), average inter-assay CV on the 4 platforms ranged from 9.9 to 12.6% (median, 7.0-8.3%) and average intra-assay CV on the 4 platforms ranged from 5.7 to 6.9% (median, 3.5-4.4%). In relation to patient sample testing, the precision of multiple biomarkers associated with IEM disorders showed CVs that ranged from 0.2 to 11.0% across 4 analytical batches. Conclusions: This evaluation describes single and multi-day precision across 4 identical metabolomics platforms, comprised each of 4 independent method arms, and reproducibility of the method for the measurement of key IEM metabolites in patient samples across multiple analytical batches, providing evidence that the method is robust and reproducible for the screening of patients with inborn errors of metabolism. [ABSTRACT FROM AUTHOR]

Published
2020
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26. Corrigendum: 2-Pyrrolidinone and Succinimide as Clinical Screening Biomarkers for GABA-Transaminase Deficiency: Anti-seizure Medications Impact Accurate Diagnosis.

Author

Kennedy, Adam D., Pappan, Kirk L., Donti, Taraka, Delgado, Mauricio R., Shinawi, Marwan, Pearson, Toni S., Lalani, Seema R., Craigen, William J., Sutton, V. Reid, Evans, Anne M., Sun, Qin, Emrick, Lisa T., and Elsea, Sarah H.

Subjects
SUCCINIMIDES, ANTICONVULSANTS, SUCCINATE dehydrogenase, INBORN errors of metabolism, BIOLOGICAL tags
Abstract

Graph: Figure 1 GABA metabolism pathways are altered due to GABA-transaminase deficiency and treatment affecting GABA metabolism. Graph: Figure 3 GABA metabolites are altered in GABA-transaminase deficiency and in use of treatments affecting GABA metabolism. Representative pathway images are shown for GABA-transaminase deficiency Patient 1 in (A) EDTA Plasma, (B) Urine, and (C) CSF. Succinimide was detected in all EDTA plasma and CSF samples from GABA-transaminase deficiency patients analyzed on platform 2 but was not detected in enough of the healthy reference control population samples to permit the calculation of I Z i -score reference ranges. [Extracted from the article]

Published
2020
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27. 2-Pyrrolidinone and Succinimide as Clinical Screening Biomarkers for GABA-Transaminase Deficiency: Anti-seizure Medications Impact Accurate Diagnosis.

Author

Kennedy, Adam D., Pappan, Kirk L., Donti, Taraka, Delgado, Mauricio R., Shinawi, Marwan, Pearson, Toni S., Lalani, Seema R., Craigen, William E., Sutton, V. Reid, Evans, Anne M., Sun, Qin, Emrick, Lisa T., and Elsea, Sarah H.

Subjects
ENZYME deficiency, PYRROLIDINONES, SUCCINIMIDES, GABA, AMINOTRANSFERASES
Abstract

Broad-scale untargeted biochemical phenotyping is a technology that supplements widely accepted assays, such as organic acid, amino acid, and acylcarnitine analyses typically utilized for the diagnosis of inborn errors of metabolism. In this study, we investigate the analyte changes associated with 4-aminobutyrate aminotransferase (ABAT, GABA transaminase) deficiency and treatments that affect GABA metabolism. GABA-transaminase deficiency is a rare neurodevelopmental and neurometabolic disorder caused by mutations in ABAT and resulting in accumulation of GABA in the cerebrospinal fluid (CSF). For that reason, measurement of GABA in CSF is currently the primary approach to diagnosis. GABA-transaminase deficiency results in severe developmental delay with intellectual disability, seizures, and movement disorder, and is often associated with death in childhood. Using an untargeted metabolomics platform, we analyzed EDTA plasma, urine, and CSF specimens from four individuals with GABA-transaminase deficiency to identify biomarkers by comparing the biochemical profile of individual patient samples to a pediatric-centric population cohort. Metabolomic analyses of over 1,000 clinical plasma samples revealed a rich source of biochemical information. Three out of four patients showed significantly elevated levels of the molecule 2-pyrrolidinone (Z -score ≥2) in plasma, and whole exome sequencing revealed variants of uncertain significance in ABAT. Additionally, these same patients also had elevated levels of succinimide in plasma, urine, and CSF and/or homocarnosine in urine and CSF. In the analysis of clinical EDTA plasma samples, the levels of succinimide and 2-pyrrolidinone showed a high level of correlation (R = 0.73), indicating impairment in GABA metabolism and further supporting the association with GABA-transaminase deficiency and the pathogenicity of the ABAT variants. Further analysis of metabolomic data across our patient population revealed the association of elevated levels of 2-pyrrolidinone with administration of vigabatrin, a commonly used anti-seizure medication and a known inhibitor of GABA-transaminase. These data indicate that anti-seizure medications may alter the biochemical and metabolomic data, potentially impacting the interpretation and diagnosis for the patient. Further, these data demonstrate the power of combining broad scale genotyping and phenotyping technologies to diagnose inherited neurometabolic disorders and support the use of metabolic phenotyping of plasma to screen for GABA-transaminase deficiency. [ABSTRACT FROM AUTHOR]

Published
2019
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29. Metabolomics in the clinic: A review of the shared and unique features of untargeted metabolomics for clinical research and clinical testing.

Author

Kennedy, Adam D., Wittmann, Bryan M., Evans, Anne M., Miller, Luke A.D., Toal, Douglas R., Lonergan, Shaun, Elsea, Sarah H., and Pappan, Kirk L.

Subjects
METABOLOMICS, BIOMARKERS, PHENOTYPES, INDIVIDUALIZED medicine, BIOINFORMATICS
Abstract

Metabolomics is the untargeted measurement of the metabolome, which is composed of the complement of small molecules detected in a biological sample. As such, metabolomic analysis produces a global biochemical phenotype. It is a technology that has been utilized in the research setting for over a decade. The metabolome is directly linked to and is influenced by genetics, epigenetics, environmental factors, and the microbiome--all of which affect health. Metabolomics can be applied to human clinical diagnostics and to other fields such as veterinary medicine, nutrition, exercise, physiology, agriculture/plant biochemistry, and toxicology. Applications of metabolomics in clinical testing are emerging, but several aspects of its use as a clinical test differ from applications focused on research or biomarker discovery and need to be considered for metabolomics clinical test data to have optimum impact, be meaningful, and be used responsibly. In this review, we deconstruct aspects and challenges of metabolomics for clinical testing by illustrating the significance of test design, accurate and precise data acquisition, quality control, data processing, n-of-1 comparison to a reference population, and biochemical pathway analysis. We describe how metabolomics technology is integral to defining individual biochemical phenotypes, elaborates on human health and disease, and fits within the precision medicine landscape. Finally, we conclude by outlining some future steps needed to bring metabolomics into the clinical space and to be recognized by the broader medical and regulatory fields. [ABSTRACT FROM AUTHOR]

Published
2018
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31. Serum Metabolomic Response to Long-Term Supplementation with all-rac-α-Tocopheryl Acetate in a Randomized Controlled Trial.

Author

Mondul, Alison M., Moore, Steven C., Weinstein, Stephanie J., Evans, Anne M., Karoly, Edward D., Männistö, Satu, Sampson, Joshua N., and Albanes, Demetrius

Abstract

Background. The Alpha-Tocopherol, Beta-Carotene Cancer Prevention (ATBC) Study, a randomized controlled cancer prevention trial, showed a 32% reduction in prostate cancer incidence in response to vitamin E supplementation. Two other trials were not confirmatory, however. Objective. We compared the change in serum metabolome of the ATBC Study participants randomized to receive vitamin E to those who were not by randomly selecting 50 men from each of the intervention groups (50 mg/day all-rac-α-tocopheryl acetate (ATA), 20 mg/day β-carotene, both, placebo). Methods. Metabolomic profiling was conducted on baseline and follow-up fasting serum (Metabolon, Inc.). Results. After correction for multiple comparisons, five metabolites were statistically significantly altered (β is the change in metabolite level expressed as number of standard deviations on the log scale): α-CEHC sulfate (β=1.51, p=1.45×10-38), α-CEHC glucuronide (β=1.41, p=1.02×10-31), α-tocopherol (β=0.97, p=2.22×10-13), γ-tocopherol (β=-0.90, p=1.76×10-11), and β-tocopherol (β=-0.73, p=9.40×10-8). Glutarylcarnitine, beta-alanine, ornithine, and N6-acetyllysine were also decreased by ATA supplementation (β range 0.40 to −0.36), but not statistically significantly. Conclusions. Comparison of the observed metabolite alterations resulting from ATA supplementation to those in other vitamin E trials of different populations, dosages, or formulations may shed light on the apparently discordant vitamin E-prostate cancer risk findings. [ABSTRACT FROM AUTHOR]

Published
2016
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33. Plasma metabolomic profiles enhance precision medicine for volunteers of normal health.

Author

Lining Guo, Milburn, Michael V., Ryals, John A., Lonergan, Shaun C., Mitchell, Matthew W., Wulff, Jacob E., Alexander, Danny C., Evans, Anne M., Bridgewater, Brandi, Miller, Luke, Gonzalez-Garay, Manuel L., and Caskey, C. Thomas

Subjects
METABOLOMICS, PHENOTYPES, LIQUID chromatography, BIOSYNTHESIS, METABOLISM, XENOBIOTICS
Abstract

Precision medicine, taking account of human individuality in genes, environment, and lifestyle for early disease diagnosis and individualized therapy, has shown great promise to transform medical care. Nontargeted metabolomics, with the ability to detect broad classes of biochemicals, can provide a comprehensive functional phenotype integrating clinical phenotypes with genetic and nongenetic factors. To test the application ofmetabolomics in individual diagnosis, we conducted a metabolomics analysis on plasma samples collected from 80 volunteers of normal health with complete medical records and three-generation pedigrees. Using a broadspectrum metabolomics platform consisting of liquid chromatography and GC coupled with MS, we profiled nearly 600 metabolites covering 72 biochemical pathways in all major branches of biosynthesis, catabolism, gut microbiome activities, and xenobiotics. Statistical analysis revealed a considerable range of variation and potential metabolic abnormalities across the individuals in this cohort. Examination of the convergence of metabolomics profiles with whole-exon sequences (WESs) provided an effective approach to assess and interpret clinical significance of genetic mutations, as shown in a number of cases, including fructose intolerance, xanthinuria, and carnitine deficiency. Metabolic abnormalities consistent with early indications of diabetes, liver dysfunction, and disruption of gut microbiome homeostasis were identified in several volunteers. Additionally, diverse metabolic responses to medications among the volunteers may assist to identify therapeutic effects and sensitivity to toxicity. The results of this study demonstrate that metabolomics could be an effective approach to complement next generation sequencing (NGS) for disease risk analysis, disease monitoring, and drug management in our goal toward precision care. [ABSTRACT FROM AUTHOR]

Published
2015
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35. Mining the Unknown: A Systems Approach to Metabolite Identification Combining Genetic and Metabolic Information.

Author

Krumsiek, Jan, Suhre, Karsten, Evans, Anne M., Mitchell, Matthew W., Mohney, Robert P., Milburn, Michael V., Wägele, Brigitte, Rõmisch-Margl, Werner, Illig, Thomas, Adamski, Jerzy, Gieger, Christian, Theis, Fabian J., and Kastenmüller, Gabi

Subjects
HUMAN genetic variation, HUMAN genome, METABOLITES, BIOLOGICAL research, PHARMACEUTICAL research, BIOMARKERS
Abstract

Recent genome-wide association studies (GWAS) with metabolomics data linked genetic variation in the human genome to differences in individual metabolite levels. A strong relevance of this metabolic individuality for biomedical and pharmaceutical research has been reported. However, a considerable amount of the molecules currently quantified by modern metabolomics techniques are chemically unidentified. The identification of these "unknown metabolites" is still a demanding and intricate task, limiting their usability as functional markers of metabolic processes. As a consequence, previous GWAS largely ignored unknown metabolites as metabolic traits for the analysis. Here we present a systems-level approach that combines genome-wide association analysis and Gaussian graphical modeling with metabolomics to predict the identity of the unknown metabolites. We apply our method to original data of 517 metabolic traits, of which 225 are unknowns, and genotyping information on 655,658 genetic variants, measured in 1,768 human blood samples. We report previously undescribed genotype--metabotype associations for six distinct gene loci (SLC22A2, COMT, CYP3A5, CYP2C18, GBA3, UGT3A1) and one locus not related to any known gene (rs12413935). Overlaying the inferred genetic associations, metabolic networks, and knowledge-based pathway information, we derive testable hypotheses on the biochemical identities of 106 unknown metabolites. As a proof of principle, we experimentally confirm nine concrete predictions. We demonstrate the benefit of our method for the functional interpretation of previous metabolomics biomarker studies on liver detoxification, hypertension, and insulin resistance. Our approach is generic in nature and can be directly transferred to metabolomics data from different experimental platforms. [ABSTRACT FROM AUTHOR]

Published
2012
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36. Non-Targeted Dried Blood Spot-Based Metabolomics Analysis Showed Rice Bran Supplementation Effects Multiple Metabolic Pathways during Infant Weaning and Growth in Mali.

Author

Pfluger, Brigitte A., Smith, Hillary V., Weber, Annika M., Ibrahim, Hend, Doumbia, Lassina, Bore, Abdoulaye, Cissoko, Alima, Douyon, Seydou, Kone, Karim, Sangare, Lansana, Maiga, Ababacar, Koita, Ousmane A., Goodman, Kelli, Evans, Anne M., and Ryan, Elizabeth P.

Abstract

Rice bran contains essential nutrients, antioxidants, and bioactives with anti-inflammatory and diarrheal protective properties important for infants. This 6-month randomized controlled trial investigated the effects of heat-stabilized rice bran supplementation during Malian infant weaning. Fifty healthy 6-month-old infants were randomized to a rice bran intervention (N = 25) or non-intervention control group (N = 25). Intervention infants received dose-escalating rice bran supplementation for 6 months (1–5 g/day). Monthly infant dried blood spot and anthropometric measurements were collected. Dried blood spot metabolite abundances were compared monthly according to diet for six months. Supplementation resulted in favorable weight-for-age and weight-for-length z-score changes. Non-targeted dried blood spot-based metabolomics identified 796 metabolites, of which 33% had significant fold differences between groups (7–12 months). Lipids and amino acids represented 70.6% of the metabolites identified. Rice bran supplementation during infant weaning significantly modulated the metabolites involved in antioxidant defenses and with neuroactive properties including reduced glutathione, glycine, glutamate, cysteinylglycine, tryptophan betaine, and choline. These findings support rice bran as a weaning ingredient to meet infant nutritional requirements and with the potential to reduce oxidative stress and improve cognitive outcomes. This study provides evidence for dried blood spots as a cost-effective tool to detect infant biomarkers of nutritional and metabolic status. [ABSTRACT FROM AUTHOR]

Published
2022
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37. Dissemination and analysis of the quality assurance (QA) and quality control (QC) practices of LC–MS based untargeted metabolomics practitioners.

Author

Evans, Anne M., O'Donovan, Claire, Playdon, Mary, Beecher, Chris, Beger, Richard D., Bowden, John A., Broadhurst, David, Clish, Clary B., Dasari, Surendra, Dunn, Warwick B., Griffin, Julian L., Hartung, Thomas, Hsu, Ping- Ching, Huan, Tao, Jans, Judith, Jones, Christina M., Kachman, Maureen, Kleensang, Andre, Lewis, Matthew R., and Monge, María Eugenia

Subjects
*QUALITY control, *QUALITY assurance, *LIQUID chromatography-mass spectrometry, *METABOLOMICS, *STANDARD operating procedure, *ENGINEERING laboratories
Abstract

Introduction: The metabolomics quality assurance and quality control consortium (mQACC) evolved from the recognized need for a community-wide consensus on improving and systematizing quality assurance (QA) and quality control (QC) practices for untargeted metabolomics. Objectives: In this work, we sought to identify and share the common and divergent QA and QC practices amongst mQACC members and collaborators who use liquid chromatography-mass spectrometry (LC–MS) in untargeted metabolomics. Methods: All authors voluntarily participated in this collaborative research project by providing the details of and insights into the QA and QC practices used in their laboratories. This sharing was enabled via a six-page questionnaire composed of over 120 questions and comment fields which was developed as part of this work and has proved the basis for ongoing mQACC outreach. Results: For QA, many laboratories reported documenting maintenance, calibration and tuning (82%); having established data storage and archival processes (71%); depositing data in public repositories (55%); having standard operating procedures (SOPs) in place for all laboratory processes (68%) and training staff on laboratory processes (55%). For QC, universal practices included using system suitability procedures (100%) and using a robust system of identification (Metabolomics Standards Initiative level 1 identification standards) for at least some of the detected compounds. Most laboratories used QC samples (>86%); used internal standards (91%); used a designated analytical acquisition template with randomized experimental samples (91%); and manually reviewed peak integration following data acquisition (86%). A minority of laboratories included technical replicates of experimental samples in their workflows (36%). Conclusions: Although the 23 contributors were researchers with diverse and international backgrounds from academia, industry and government, they are not necessarily representative of the worldwide pool of practitioners due to the recruitment method for participants and its voluntary nature. However, both questionnaire and the findings presented here have already informed and led other data gathering efforts by mQACC at conferences and other outreach activities and will continue to evolve in order to guide discussions for recommendations of best practices within the community and to establish internationally agreed upon reporting standards. We very much welcome further feedback from readers of this article. [ABSTRACT FROM AUTHOR]

Published
2020
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39. BEATING AUTISM.

Author

Evans, Anne M.

Subjects
*AUTISM, *NONFICTION
Abstract

A mother turns to Chinese medicine and alternative therapies to heal her autistic child. [ABSTRACT FROM AUTHOR]

Published
2015

40. Genetic Architecture and Analysis Practices of Circulating Metabolites in the NHLBI Trans-Omics for Precision Medicine (TOPMed) Program.

Author

Wang N, Ockerman FP, Zhou LY, Grove ML, Alkis T, Barnard J, Bowler RP, Clish CB, Chung S, Drzymalla E, Evans AM, Franceschini N, Gerszten RE, Gillman MG, Hutton SR, Kelly RS, Kooperberg C, Larson MG, Lasky-Su J, Meyers DA, Woodruff PG, Reiner AP, Rich SS, Rotter JI, Silverman EK, Ramachandran VS, Weiss ST, Wong KE, Wood AC, Wu L, Yarden R, Blackwell TW, Smith AV, Chen H, Raffield LM, and Yu B

Abstract

Circulating metabolite levels partly reflect the state of human health and diseases, and can be impacted by genetic determinants. Hundreds of loci associated with circulating metabolites have been identified; however, most findings focus on predominantly European ancestry or single study analyses. Leveraging the rich metabolomics resources generated by the NHLBI Trans-Omics for Precision Medicine (TOPMed) Program, we harmonized and accessibly cataloged 1,729 circulating metabolites among 25,058 ancestrally-diverse samples. We provided recommendations for outlier and imputation handling to process metabolite data, as well as a general analytical framework. We further performed a pooled analysis following our practical recommendations and discovered 1,778 independent loci associated with 667 metabolites. Among 108 novel locus - metabolite pairs, we detected not only novel loci within previously implicated metabolite associated genes, but also novel genes (such as GAB3 and VSIG4 located in the X chromosome) that have putative roles in metabolic regulation. In the sex-stratified analysis, we revealed 85 independent locus-metabolite pairs with evidence of sexual dimorphism, including well-known metabolic genes such as FADS2 , D2HGDH , SUGP1 , UTG2B17 , strongly supporting the importance of exploring sex difference in the human metabolome. Taken together, our study depicted the genetic contribution to circulating metabolite levels, providing additional insight into the understanding of human health.

Published
2024
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41. Variability of Two Metabolomic Platforms in CKD.

Author

Rhee EP, Waikar SS, Rebholz CM, Zheng Z, Perichon R, Clish CB, Evans AM, Avila J, Denburg MR, Anderson AH, Vasan RS, Feldman HI, Kimmel PL, and Coresh J

Subjects
Adult, Aged, Female, Glomerular Filtration Rate, Humans, Male, Middle Aged, Renal Insufficiency, Chronic physiopathology, Metabolome, Metabolomics methods, Renal Insufficiency, Chronic blood
Abstract

Background and Objectives: Nontargeted metabolomics can measure thousands of low-molecular-weight biochemicals, but important gaps limit its utility for biomarker discovery in CKD. These include the need to characterize technical and intraperson analyte variation, to pool data across platforms, and to outline analyte relationships with eGFR., Design, Setting, Participants, & Measurements: Plasma samples from 49 individuals with CKD (eGFR<60 ml/min per 1.73 m 2 and/or ≥1 g proteinuria) were examined from two study visits; 20 samples were repeated as blind replicates. To enable comparison across two nontargeted platforms, samples were profiled at Metabolon and the Broad Institute., Results: The Metabolon platform reported 837 known metabolites and 483 unnamed compounds (selected from 44,953 unknown ion features). The Broad Institute platform reported 594 known metabolites and 26,106 unknown ion features. Median coefficients of variation (CVs) across blind replicates were 14.6% (Metabolon) and 6.3% (Broad Institute) for known metabolites, and 18.9% for (Metabolon) unnamed compounds and 24.5% for (Broad Institute) unknown ion features. Median CVs for day-to-day variability were 29.0% (Metabolon) and 24.9% (Broad Institute) for known metabolites, and 41.8% for (Metabolon) unnamed compounds and 40.9% for (Broad Institute) unknown ion features. A total of 381 known metabolites were shared across platforms (median correlation 0.89). Many metabolites were negatively correlated with eGFR at P <0.05, including 35.7% (Metabolon) and 18.9% (Broad Institute) of known metabolites., Conclusions: Nontargeted metabolomics quantifies >1000 analytes with low technical CVs, and agreement for overlapping metabolites across two leading platforms is excellent. Many metabolites demonstrate substantial intraperson variation and correlation with eGFR., (Copyright © 2019 by the American Society of Nephrology.)

Published
2019
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42. Serum 6-Bromotryptophan Levels Identified as a Risk Factor for CKD Progression.

Author

Tin A, Nadkarni G, Evans AM, Winkler CA, Bottinger E, Rebholz CM, Sarnak MJ, Inker LA, Levey AS, Lipkowitz MS, Appel LJ, Arking DE, Coresh J, and Grams ME

Subjects
Adult, Black or African American genetics, Aged, Alleles, Biomarkers blood, Cohort Studies, Female, Genotype, Humans, Male, Middle Aged, Multicenter Studies as Topic, Randomized Controlled Trials as Topic, Renal Insufficiency, Chronic ethnology, Renal Insufficiency, Chronic genetics, Risk Factors, Tryptophan blood, White People genetics, Apolipoprotein L1 genetics, Disease Progression, Renal Insufficiency, Chronic blood, Tryptophan analogs & derivatives
Abstract

Background Metabolite levels reflect physiologic homeostasis and may serve as biomarkers of disease progression. Identifying metabolites associated with APOL1 risk alleles-genetic variants associated with CKD risk commonly present in persons of African descent-may reveal novel markers of CKD progression relevant to other populations. Methods We evaluated associations between the number of APOL1 risk alleles and 760 serum metabolites identified via untargeted profiling in participants of the African American Study of Kidney Disease and Hypertension (AASK) ( n =588; Bonferroni significance threshold P <6.5×10 -5 ) and replicated findings in 678 black participants with CKD in Bio Me , an electronic medical record-linked biobank. We tested the metabolite association with CKD progression in AASK, Bio Me , and the Modification of Diet in Renal Disease (MDRD) Study. Results One metabolite, 6-bromotryptophan, was significant in AASK ( P =4.7×10 -5 ) and replicated in Bio Me ( P =5.7×10 -3 ) participants, with lower levels associated with more APOL1 risk alleles. Lower levels of 6-bromotryptophan were associated with CKD progression in AASK and Bio Me participants and in white participants in the MDRD Study, independent of demographics and clinical characteristics, including baseline GFR (adjusted hazard ratio per two-fold higher 6-bromotryptophan level, AASK, 0.76; 95% confidence interval [95% CI], 0.64 to 0.91; Bio Me , 0.61; 95% CI, 0.43 to 0.85; MDRD, 0.52; 95% CI, 0.34 to 0.79). The interaction between the APOL1 risk alleles and 6-bromotryptophan was not significant. The identity of 6-bromotryptophan was confirmed in experiments comparing its molecular signature with that of authentic standards of other bromotryptophan isomers. Conclusions Serum 6-bromotryptophan is a consistent and novel risk factor for CKD progression., (Copyright © 2018 by the American Society of Nephrology.)

Published
2018
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43. Whole-genome sequencing identifies common-to-rare variants associated with human blood metabolites.

Author

Long T, Hicks M, Yu HC, Biggs WH, Kirkness EF, Menni C, Zierer J, Small KS, Mangino M, Messier H, Brewerton S, Turpaz Y, Perkins BA, Evans AM, Miller LA, Guo L, Caskey CT, Schork NJ, Garner C, Spector TD, Venter JC, and Telenti A

Subjects
Adult, Aged, Blood, Exome genetics, Female, Genome-Wide Association Study methods, Humans, Male, Middle Aged, Phenotype, Quantitative Trait Loci, Genetic Predisposition to Disease genetics, Genetic Variation genetics, Metabolome genetics
Abstract

Genetic factors modifying the blood metabolome have been investigated through genome-wide association studies (GWAS) of common genetic variants and through exome sequencing. We conducted a whole-genome sequencing study of common, low-frequency and rare variants to associate genetic variations with blood metabolite levels using comprehensive metabolite profiling in 1,960 adults. We focused the analysis on 644 metabolites with consistent levels across three longitudinal data collections. Genetic sequence variations at 101 loci were associated with the levels of 246 (38%) metabolites (P ≤ 1.9 × 10 -11 ). We identified 113 (10.7%) among 1,054 unrelated individuals in the cohort who carried heterozygous rare variants likely influencing the function of 17 genes. Thirteen of the 17 genes are associated with inborn errors of metabolism or other pediatric genetic conditions. This study extends the map of loci influencing the metabolome and highlights the importance of heterozygous rare variants in determining abnormal blood metabolic phenotypes in adults.

Published
2017
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44. Tapasin is a facilitator, not an editor, of class I MHC peptide binding.

Author

Zarling AL, Luckey CJ, Marto JA, White FM, Brame CJ, Evans AM, Lehner PJ, Cresswell P, Shabanowitz J, Hunt DF, and Engelhard VH

Subjects
Antigen Presentation genetics, Antigen Presentation immunology, Antiporters deficiency, Antiporters genetics, Cell Line, Cell Membrane immunology, Cell Membrane metabolism, Gene Expression Regulation immunology, HLA-A Antigens metabolism, HLA-A2 Antigen, HLA-B8 Antigen biosynthesis, Humans, Immunoglobulins deficiency, Immunoglobulins genetics, Membrane Transport Proteins, Protein Binding genetics, Protein Binding immunology, RNA Editing genetics, RNA Stability immunology, Up-Regulation genetics, Up-Regulation immunology, Antiporters physiology, HLA-B8 Antigen metabolism, Immunoglobulins physiology, Peptide Fragments metabolism, RNA Editing immunology
Abstract

Tapasin has been proposed to function as a peptide editor to displace lower affinity peptides and/or to favor the binding of high affinity peptides. Consistent with this, cell surface HLA-B8 molecules in tapasin-deficient cells were less stable and the peptide repertoire was substantially altered. However, the binding affinities of peptides expressed in the absence of tapasin were unexpectedly higher, not lower. The peptide repertoire from cells expressing soluble tapasin was similar in both appearance and affinity to that presented in the presence of full-length tapasin, but the HLA-B8 molecules showed altered cell surface stability characteristics. Similarly, the binding affinities of HLA-A*0201-associated peptides from tapasin(+) and tapasin(-) cells were equivalent, although steady state HLA-A*0201 cell surface expression was decreased and the molecules demonstrated reduced cell surface stability on tapasin(-) cells. These data are inconsistent with a role for tapasin as a peptide editor. Instead, we propose that tapasin acts as a peptide facilitator. In this role, it stabilizes the peptide-free conformation of class I MHC molecules in the endoplasmic reticulum and thus increases the number and variety of peptides bound to class I MHC. Full-length tapasin then confers additional stability on class I MHC molecules that are already associated with peptides.

Published
2003
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45. A receptor for activated C kinase is part of messenger ribonucleoprotein complexes associated with polyA-mRNAs in neurons.

Author

Angenstein F, Evans AM, Settlage RE, Moran ST, Ling SC, Klintsova AY, Shabanowitz J, Hunt DF, and Greenough WT

Subjects
Animals, Cerebral Cortex chemistry, Diglycerides pharmacology, Enzyme Activators pharmacology, Female, Hippocampus chemistry, Hippocampus metabolism, In Vitro Techniques, Macromolecular Substances, Male, Phosphatidylserines metabolism, Poly A metabolism, Poly(A)-Binding Proteins metabolism, Precipitin Tests, Protein Binding physiology, Protein Kinase C beta, RNA-Binding Proteins chemistry, RNA-Binding Proteins metabolism, Rats, Rats, Long-Evans, Receptors for Activated C Kinase, Ribonucleoproteins chemistry, Subcellular Fractions chemistry, Tubulin metabolism, Two-Hybrid System Techniques, Isoenzymes metabolism, Neurons metabolism, Protein Kinase C metabolism, RNA, Messenger metabolism, Receptors, Cell Surface metabolism, Ribonucleoproteins metabolism
Abstract

Long-lasting changes in synaptic functions after an appropriate stimulus require altered protein expression at the synapse. To restrict changes in protein composition to activated synapses, proteins may be synthesized locally as a result of transmitter receptor-triggered signaling pathways. Second messenger-controlled mechanisms that affect mRNA translation are essentially unknown. Here we report that a receptor for activated C kinase, RACK1, is a component of messenger ribonucleoprotein (mRNP) complexes. RACK1 is predominantly associated with polysome-bound, polyA-mRNAs that are being actively translated. We find it to be present in a complex with beta-tubulin and at least two mRNA-binding proteins, polyA-binding protein 1 and a 130 kDa polyA-mRNA binding protein (KIAA0217). Activation of PKCbeta2 in vitro by phosphatidylserine/diacylglycerol or in hippocampal slices by metabotropic glutamate receptor stimulation increased the amount of RACK1/PKCbeta2 associated with polysome-bound polyA-mRNAs. In vitro, PKCbeta2 can phosphorylate a subset of polyA-mRNA-associated proteins that are also phosphorylated under in vivo conditions. On the basis of these findings plus the somatodendritic localization of RACK1, we hypothesize that metabotropic glutamate receptor-triggered binding of activated PKCbeta2 to mRNP complexes bound to polyA-mRNAs is involved in activity-triggered control of protein synthesis.

Published
2002

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