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2. Dynamic modelling of an ACADS genotype in fatty acid oxidation - Application of cellular models for the analysis of common genetic variants

Author

Matejka, K., Stückler, F., Salomon, M., Ensenauer, R., Reischl, E., Hoerburger, L., Grallert, H., Kastenmüller, G., Peters, A., Daniel, H., Krumsiek, J., Theis, F.J., Hauner, H., and Laumen, H.

Subjects
Male, Heredity, Gene Expression, Biochemistry, Acyl-CoA Dehydrogenase, Antibiotics, Medicine and Health Sciences, Antimicrobials, Fatty Acids, Chemical Reactions, Drugs, Genomics, Middle Aged, Lipids, Mitochondria, Genetic Mapping, Chemistry, Phenotype, Doxycycline, Physical Sciences, Medicine, Female, Oxidation-Reduction, Research Article, Cell Physiology, Genotype, Science, Variant Genotypes, Microbiology, Antimalarials, Carnitine, Cell Line, Tumor, Microbial Control, Oxidation, Genome-Wide Association Studies, Genetics, Humans, Alleles, Pharmacology, Genetic Variation, Biology and Life Sciences, Computational Biology, Human Genetics, Cell Biology, Genome Analysis, Cell Metabolism, Genetic Loci, Hepatocytes, Genome-Wide Association Study
Abstract

Background Genome-wide association studies of common diseases or metabolite quantitative traits often identify common variants of small effect size, which may contribute to phenotypes by modulation of gene expression. Thus, there is growing demand for cellular models enabling to assess the impact of gene regulatory variants with moderate effects on gene expression. Mitochondrial fatty acid oxidation is an important energy metabolism pathway. Common noncoding acyl-CoA dehydrogenase short chain (ACADS) gene variants are associated with plasma C4-acylcarnitine levels and allele-specific modulation of ACADS expression may contribute to the observed phenotype. Methods and findings We assessed ACADS expression and intracellular acylcarnitine levels in human lymphoblastoid cell lines (LCL) genotyped for a common ACADS variant associated with plasma C4-acylcarnitine and found a significant genotype-dependent decrease of ACADS mRNA and protein. Next, we modelled gradual decrease of ACADS expression using a tetracycline-regulated shRNA-knockdown of ACADS in Huh7 hepatocytes, a cell line with high fatty acid oxidation-(FAO)-capacity. Assessing acylcarnitine flux in both models, we found increased C4-acylcarnitine levels with decreased ACADS expression levels. Moreover, assessing time-dependent changes of acylcarnitine levels in shRNA-hepatocytes with altered ACADS expression levels revealed an unexpected effect on long- and medium-chain fatty acid intermediates. Conclusions Both, genotyped LCL and regulated shRNA-knockdown are valuable tools to model moderate, gradual gene-regulatory effects of common variants on cellular phenotypes. Decreasing ACADS expression levels modulate short and surprisingly also long/medium chain acylcarnitines, and may contribute to increased plasma acylcarnitine levels.

Published
2019

3. Lactation is associated with altered metabolomic signatures in women with gestational diabetes

Author

Much, D, primary, Beyerlein, A, additional, Kindt, A, additional, Krumsiek, J, additional, Stückler, F, additional, Rossbauer, M, additional, Hofelich, A, additional, Wiesenäcker, D, additional, Hivner, S, additional, Herbst, M, additional, Römisch-Margl, W, additional, Prehn, C, additional, Adamski, J, additional, Kastenmüller, G, additional, Theis, F, additional, Ziegler, AG, additional, and Hummel, S, additional

Published
2016
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5. Prediction uncertainty assessment of chromatography models using Bayesian inference.

Author

Briskot T, Stückler F, Wittkopp F, Williams C, Yang J, Konrad S, Doninger K, Griesbach J, Bennecke M, Hepbildikler S, and Hubbuch J

Subjects
Bayes Theorem, Calibration, Humans, Markov Chains, Monte Carlo Method, Chromatography methods, Models, Theoretical, Uncertainty
Abstract

Mechanistic modeling of chromatography has been around in academia for decades and has gained increased support in pharmaceutical companies in recent years. Despite the large number of published successful applications, process development in the pharmaceutical industry today still does not fully benefit from a systematic mechanistic model-based approach. The hesitation on the part of industry to systematically apply mechanistic models can often be attributed to the absence of a general approach for determining if a model is qualified to support decision making in process development. In this work a Bayesian framework for the calibration and quality assessment of mechanistic chromatography models is introduced. Bayesian Markov Chain Monte Carlo is used to assess parameter uncertainty by generating samples from the parameter posterior distribution. Once the parameter posterior distribution has been estimated, it can be used to propagate the parameter uncertainty to model predictions, allowing a prediction-based uncertainty assessment of the model. The benefit of this uncertainty assessment is demonstrated using the example of a mechanistic model describing the separation of an antibody from its impurities on a strong cation exchanger. The mechanistic model was calibrated at moderate column load density and used to make extrapolations at high load conditions. Using the Bayesian framework, it could be shown that despite significant parameter uncertainty, the model can extrapolate beyond observed process conditions with high accuracy and is qualified to support process development., (Copyright © 2018 Elsevier B.V. All rights reserved.)

Published
2019
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6. Blocking sense-strand activity improves potency, safety and specificity of anti-hepatitis B virus short hairpin RNA.

Author

Michler T, Große S, Mockenhaupt S, Röder N, Stückler F, Knapp B, Ko C, Heikenwalder M, Protzer U, and Grimm D

Subjects
Animals, Antiviral Agents adverse effects, Antiviral Agents therapeutic use, Dependovirus genetics, Disease Models, Animal, Drug Carriers, Drug-Related Side Effects and Adverse Reactions, Gene Expression, Genetic Vectors, Mice, Transduction, Genetic, Antiviral Agents pharmacology, Hepatitis B therapy, Hepatitis B virus drug effects, RNA, Small Interfering pharmacology
Abstract

Hepatitis B virus (HBV) is a promising target for therapies based on RNA interference (RNAi) since it replicates via RNA transcripts that are vulnerable to RNAi silencing. Clinical translation of RNAi technology, however, requires improvements in potency, specificity and safety. To this end, we systematically compared different strategies to express anti-HBV short hairpin RNA (shRNA) in a pre-clinical immunocompetent hepatitis B mouse model. Using recombinant Adeno-associated virus (AAV) 8 vectors for delivery, we either (i) embedded the shRNA in an artificial mi(cro)RNA under a liver-specific promoter; (ii) co-expressed Argonaute-2, a rate-limiting cellular factor whose saturation with excess RNAi triggers can be toxic; or (iii) co-delivered a decoy ("TuD") directed against the shRNA sense strand to curb off-target gene regulation. Remarkably, all three strategies minimised adverse side effects as compared to a conventional shRNA vector that caused weight loss, liver damage and dysregulation of > 100 hepatic genes. Importantly, the novel AAV8 vector co-expressing anti-HBV shRNA and TuD outperformed all other strategies regarding efficiency and persistence of HBV knock-down, thus showing substantial promise for clinical translation., (© 2016 The Authors. Published under the terms of the CC BY 4.0 license.)

Published
2016
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7. Multi-omic signature of body weight change: results from a population-based cohort study.

Author

Wahl S, Vogt S, Stückler F, Krumsiek J, Bartel J, Kacprowski T, Schramm K, Carstensen M, Rathmann W, Roden M, Jourdan C, Kangas AJ, Soininen P, Ala-Korpela M, Nöthlings U, Boeing H, Theis FJ, Meisinger C, Waldenberger M, Suhre K, Homuth G, Gieger C, Kastenmüller G, Illig T, Linseisen J, Peters A, Prokisch H, Herder C, Thorand B, and Grallert H

Subjects
Adult, Cohort Studies, Cross-Sectional Studies, Female, Gene Regulatory Networks, Humans, Linear Models, Metabolomics, Middle Aged, Prospective Studies, Risk Factors, Gene Expression physiology, Metabolome physiology, Weight Gain physiology
Abstract

Background: Excess body weight is a major risk factor for cardiometabolic diseases. The complex molecular mechanisms of body weight change-induced metabolic perturbations are not fully understood. Specifically, in-depth molecular characterization of long-term body weight change in the general population is lacking. Here, we pursued a multi-omic approach to comprehensively study metabolic consequences of body weight change during a seven-year follow-up in a large prospective study., Methods: We used data from the population-based Cooperative Health Research in the Region of Augsburg (KORA) S4/F4 cohort. At follow-up (F4), two-platform serum metabolomics and whole blood gene expression measurements were obtained for 1,631 and 689 participants, respectively. Using weighted correlation network analysis, omics data were clustered into modules of closely connected molecules, followed by the formation of a partial correlation network from the modules. Association of the omics modules with previous annual percentage weight change was then determined using linear models. In addition, we performed pathway enrichment analyses, stability analyses, and assessed the relation of the omics modules with clinical traits., Results: Four metabolite and two gene expression modules were significantly and stably associated with body weight change (P-values ranging from 1.9 × 10(-4) to 1.2 × 10(-24)). The four metabolite modules covered major branches of metabolism, with VLDL, LDL and large HDL subclasses, triglycerides, branched-chain amino acids and markers of energy metabolism among the main representative molecules. One gene expression module suggests a role of weight change in red blood cell development. The other gene expression module largely overlaps with the lipid-leukocyte (LL) module previously reported to interact with serum metabolites, for which we identify additional co-expressed genes. The omics modules were interrelated and showed cross-sectional associations with clinical traits. Moreover, weight gain and weight loss showed largely opposing associations with the omics modules., Conclusions: Long-term weight change in the general population globally associates with serum metabolite concentrations. An integrated metabolomics and transcriptomics approach improved the understanding of molecular mechanisms underlying the association of weight gain with changes in lipid and amino acid metabolism, insulin sensitivity, mitochondrial function as well as blood cell development and function.

Published
2015
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8. Surfactant lipidomics in healthy children and childhood interstitial lung disease.

Author

Griese M, Kirmeier HG, Liebisch G, Rauch D, Stückler F, Schmitz G, and Zarbock R

Subjects
ATP-Binding Cassette Transporters genetics, ATP-Binding Cassette Transporters metabolism, Bronchoalveolar Lavage Fluid chemistry, Child, Child, Preschool, Female, Humans, Infant, Infant, Newborn, Male, Spectrometry, Mass, Electrospray Ionization, Tandem Mass Spectrometry, Lipids analysis, Lung Diseases, Interstitial metabolism, Pulmonary Surfactants metabolism
Abstract

Background: Lipids account for the majority of pulmonary surfactant, which is essential for normal breathing. We asked if interstitial lung diseases (ILD) in children may disrupt alveolar surfactant and give clues for disease categorization., Methods: Comprehensive lipidomics profiles of broncho-alveolar lavage fluid were generated in 115 children by electrospray ionization tandem mass spectrometry (ESI-MS/MS). Two reference populations were compared to a broad range of children with ILD., Results: Class and species composition in healthy children did not differ from that in children with ILD related to diffuse developmental disorders, chronic tachypnoe of infancy, ILD related to lung vessels and the heart, and ILD related to reactive lymphoid lesions. As groups, ILDs related to the alveolar surfactant region, ILD related to unclear respiratory distress syndrome in the mature neonate, or in part ILD related to growth abnormalities reflecting deficient alveolarisation, had significant alterations of some surfactant specific phospholipids. Additionally, lipids derived from inflammatory processes were identified and differentiated. In children with ABCA3-deficiency from two ILD causing mutations saturated and monounsaturated phosphatidylcholine species with 30 and 32 carbons and almost all phosphatidylglycerol species were severely reduced. In other alveolar disorders lipidomic profiles may be of less diagnostic value, but nevertheless may substantiate lack of significant involvement of mechanisms related to surfactant lipid metabolism., Conclusions: Lipidomic profiling may identify specific forms of ILD in children with surfactant alterations and characterized the molecular species pattern likely to be transported by ABCA3 in vivo.

Published
2015
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9. Gender-specific pathway differences in the human serum metabolome.

Author

Krumsiek J, Mittelstrass K, Do KT, Stückler F, Ried J, Adamski J, Peters A, Illig T, Kronenberg F, Friedrich N, Nauck M, Pietzner M, Mook-Kanamori DO, Suhre K, Gieger C, Grallert H, Theis FJ, and Kastenmüller G

Abstract

The susceptibility for various diseases as well as the response to treatments differ considerably between men and women. As a basis for a gender-specific personalized healthcare, an extensive characterization of the molecular differences between the two genders is required. In the present study, we conducted a large-scale metabolomics analysis of 507 metabolic markers measured in serum of 1756 participants from the German KORA F4 study (903 females and 853 males). One-third of the metabolites show significant differences between males and females. A pathway analysis revealed strong differences in steroid metabolism, fatty acids and further lipids, a large fraction of amino acids, oxidative phosphorylation, purine metabolism and gamma-glutamyl dipeptides. We then extended this analysis by a network-based clustering approach. Metabolite interactions were estimated using Gaussian graphical models to get an unbiased, fully data-driven metabolic network representation. This approach is not limited to possibly arbitrary pathway boundaries and can even include poorly or uncharacterized metabolites. The network analysis revealed several strongly gender-regulated submodules across different pathways. Finally, a gender-stratified genome-wide association study was performed to determine whether the observed gender differences are caused by dimorphisms in the effects of genetic polymorphisms on the metabolome. With only a single genome-wide significant hit, our results suggest that this scenario is not the case. In summary, we report an extensive characterization and interpretation of gender-specific differences of the human serum metabolome, providing a broad basis for future analyses.

Published
2015
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10. The dynamic range of the human metabolome revealed by challenges.

Author

Krug S, Kastenmüller G, Stückler F, Rist MJ, Skurk T, Sailer M, Raffler J, Römisch-Margl W, Adamski J, Prehn C, Frank T, Engel KH, Hofmann T, Luy B, Zimmermann R, Moritz F, Schmitt-Kopplin P, Krumsiek J, Kremer W, Huber F, Oeh U, Theis FJ, Szymczak W, Hauner H, Suhre K, and Daniel H

Subjects
Adult, Breath Tests, Carnitine analogs & derivatives, Carnitine metabolism, Cold Temperature, Exercise, Fasting blood, Fasting urine, Fatty Acids metabolism, Glucose Tolerance Test, Humans, Lipid Metabolism physiology, Lipids, Magnetic Resonance Spectroscopy, Male, Metabolome physiology, Models, Biological, Oxidation-Reduction, Metabolomics, Stress, Physiological
Abstract

Metabolic challenge protocols, such as the oral glucose tolerance test, can uncover early alterations in metabolism preceding chronic diseases. Nevertheless, most metabolomics data accessible today reflect the fasting state. To analyze the dynamics of the human metabolome in response to environmental stimuli, we submitted 15 young healthy male volunteers to a highly controlled 4 d challenge protocol, including 36 h fasting, oral glucose and lipid tests, liquid test meals, physical exercise, and cold stress. Blood, urine, exhaled air, and breath condensate samples were analyzed on up to 56 time points by MS- and NMR-based methods, yielding 275 metabolic traits with a focus on lipids and amino acids. Here, we show that physiological challenges increased interindividual variation even in phenotypically similar volunteers, revealing metabotypes not observable in baseline metabolite profiles; volunteer-specific metabolite concentrations were consistently reflected in various biofluids; and readouts from a systematic model of β-oxidation (e.g., acetylcarnitine/palmitylcarnitine ratio) showed significant and stronger associations with physiological parameters (e.g., fat mass) than absolute metabolite concentrations, indicating that systematic models may aid in understanding individual challenge responses. Due to the multitude of analytical methods, challenges and sample types, our freely available metabolomics data set provides a unique reference for future metabolomics studies and for verification of systems biology models.

Published
2012
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