Bioinformatics Analysis of Targeted Metabolomics—Uncovering Old and New Tales of Diabetic Mice under Medication

Altmaier, Elisabeth; Ramsay, Steven L.; Graber, Armin; Mewes, Hans‐Werner; Weinberger, Klaus M.; Suhre, Karsten

doi:10.1210/en.2007-1747

Cited by 122 publications

(104 citation statements)

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“…As shown previously, the use of such ratios leads to a strong reduction in the overall variance and therefore improves the strength of association [13]. A high increase in the strength of association may also indicate that the two metabolites are linked by a metabolic pathway that is influenced by the respective (nutrition) factor.…”

Section: Discussionmentioning

confidence: 64%

“…The technique is described in detail in [27,28] published by the FDA (Food and Drug Administration), which implies proof of reproducibility within a given error range. This measurement platform has been successfully used in the past in different academic and industrial applications [12][13][14].…”

Section: Metabolite Profilingmentioning

confidence: 99%

“…Using quantitative targeted metabolomics as an access to intermediate phenotypes (as described in detail in [12]) provides a much closer insight into the mechanisms that cause the clinical endpoint. Using high resolution electrospray ionization tandem mass spectrometry (ESI-MS/MS) it is, today, possible to measure hundreds of metabolites at the same time in a single sample [13]. Gieger et al [12] showed that associating genetic variants with changes in the homeostasis of metabolic compounds can yield larger effect sizes as well as access to the underlying molecular disease-causing mechanisms.…”

Section: Introductionmentioning

confidence: 99%

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Questionnaire-based self-reported nutrition habits associate with serum metabolism as revealed by quantitative targeted metabolomics

et al. 2010

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Section: Discussionmentioning

confidence: 64%

Section: Metabolite Profilingmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Questionnaire-based self-reported nutrition habits associate with serum metabolism as revealed by quantitative targeted metabolomics

et al. 2010

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“…Genetic variants that affect the efficiency of a specific enzyme should be best reflected in the ratio of this enzyme's relative substrates and products rather than in the absolute concentration of either of them. This metabolite ratio approach was introduced by Altmaier et al (2008), and its utility was demonstrated by a pronounced increase in the strength of the association that was observed for FADS1. Here, changes in the catalytic activity of FADS1 due to its polymorphism may alter the levels of eicosatrienoyl-CoA (C20:3) and arachidonyl-CoA (C20:4), which in turn translates into changes on the PC 36:3 and PC 36:4 concentrations.…”

Section: Targeted Metabolomic Phenotypes In Gwasmentioning

confidence: 99%

Current status on genome–metabolome-wide associations: an opportunity in nutrition research

et al. 2012

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Genome-wide association studies (GWASs) have become a very important tool to address the genetic origin of phenotypic variability, in particular associated with diseases. Nevertheless, these types of studies provide limited information about disease etiology and the molecular mechanisms involved. Recently, the incorporation of metabolomics into the analysis has offered novel opportunities for a better understanding of disease-related metabolic deregulation. The pattern emerging from this work is that gene-driven changes in metabolism are prevalent and that common genetic variations can have a profound impact on the homeostatic concentrations of specific metabolites. A particularly interesting aspect of this work takes into account interactions of environment and lifestyle with the genome and how this interaction translates into changes in the metabolome. For instance, the role of PY-ROXD2 in trimethylamine metabolism points to an interaction between host and microbiome genomes (host/ microbiota). Often, these findings reveal metabolic deregulations, which could eventually be tuned with a nutritional intervention. Here we review the development of gene-metabolism association studies from a single-gene/ single-metabolite to a genome-wide/metabolome-wide approach and highlight the conceptual changes associated with this ongoing transition. Moreover, we report some of our recent GWAS results on a cohort of 265 individuals from an ethnically diverse population that validate and refine previous findings on gene-urine metabolism interactions. Specifically, our results confirm the effect of PYROXD2 polymorphisms on trimethylamine metabolism and suggest that a previously reported association of N-acetylated compounds with the ALMS1/NAT8 locus is driven by SNPs in the ALMS1 gene.

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“…MS has been now established as the stateof-the-art analytical tool in which richest data from molecular systems can be acquired. In medicinal chemistry, three MS approaches might be highlighted as the most prominent: data dependent UPLC-ESI-HRMS metabolomics [3], data dependent nanoLC-nanoESI-HRMS proteomics [4] and MS imaging applied to the biomarker screening of tissues [5].Metabolomic MS screening can usually be categorized into untargeted [6] and targeted analysis [7]. In untargeted metabolomics, as many molecules as possible are identified in a sample.…”

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confidence: 99%

Mass Spectrometry OMICS Approach to Study Medicinal Chemical Molecular Responses on Living Organisms

Meurer¹

2015

Med chem

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Studies on the effect of drugs on organisms such as plants, animals and human beings have experienced an evolutionary leap in the form of proteomic and metabolomic analysis using mass spectrometry (MS). The 2002, Chemistry Nobel prize winner John Fenn established a landmark in this field by introducing the electrospray ionization technique (ESI), which allows for the transfer of proteins and small biomolecules from solutions to mass spe`ctrometers for MS analysis [1,2]. Since the advent of ESI-MS, a great variety of methodologies have appeared to help scientists in solving important questions on clinical and medicinal chemistry. MS has been now established as the stateof-the-art analytical tool in which richest data from molecular systems can be acquired. In medicinal chemistry, three MS approaches might be highlighted as the most prominent: data dependent UPLC-ESI-HRMS metabolomics [3], data dependent nanoLC-nanoESI-HRMS proteomics [4] and MS imaging applied to the biomarker screening of tissues [5].Metabolomic MS screening can usually be categorized into untargeted [6] and targeted analysis [7]. In untargeted metabolomics, as many molecules as possible are identified in a sample. Relative quantities of analytes can be determined when comparing treatments. Targeted metabolomics focuses on the relative or absolute quantitation of molecular targets using internal standards and/or analytical curves. Some MS approaches in metabolomic analysis have been interested in the identification of metabolites that are formed in vivo out of administered medication. The metabolism is directly related with both toxic effects and activity. Another field on interest in metabolomics is the study of how the regular metabolism of organisms is influenced by an administered medication.The metabolic approach uses both high volume data obtained from chromatographic separation, as well as high-resolution MS data. These accurate data provide information of molecular formulas with errors around 1 ppm. Due to the high velocity of MS acquisition, tandem MS data from target constituents can be used to increase identification accuracy of thousands of small molecules in just one analytical run. This MS/MS data facilitates in the formation of an overview of present molecules per sample. Data handling using PCA or PLS statistical approaches is used to relate treatment evaluation with metabolite up and down regulation. For selectivity improvement in metabolomics, MS coupled to ion-mobility mass spectrometry can be used, in which molecules are separated according to their shape and then characterized even more reliably allowing the discrimination between isomeric or isobaric metabolites.Proteomics analysis is currently conducted using nanoLCnanoESI-HRMS. It is therefore expected that this technique will soon be applied to the analysis of living organisms. The correlation of the proteome with metabolomics could be seen as the Holy Grail of how living organisms' work by being able to gather information that combines genomics-proteomics-metabolomics a...

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Bioinformatics Analysis of Targeted Metabolomics—Uncovering Old and New Tales of Diabetic Mice under Medication

Cited by 122 publications

References 30 publications

Questionnaire-based self-reported nutrition habits associate with serum metabolism as revealed by quantitative targeted metabolomics

Questionnaire-based self-reported nutrition habits associate with serum metabolism as revealed by quantitative targeted metabolomics

Current status on genome–metabolome-wide associations: an opportunity in nutrition research

Mass Spectrometry OMICS Approach to Study Medicinal Chemical Molecular Responses on Living Organisms

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