TY  - JOUR
A1  - Arlt, Wiebke
A1  - Biehl, Michael
A1  - Taylor, Angela E.
A1  - Hahner, Stefanie
A1  - Libé, Rossella
A1  - Hughes, Beverly A.
A1  - Schneider, Petra
A1  - Smith, David J.
A1  - Stiekema, Han
A1  - Krone, Nils
A1  - Porfiri, Emilio
A1  - Opocher, Giuseppe
A1  - Bertherat, Jerôme
A1  - Mantero, Franco
A1  - Allolio, Bruno
A1  - Terzolo, Massimo
A1  - Nightingale, Peter
A1  - Shackleton, Cedric H. L.
A1  - Bertagna, Xavier
A1  - Fassnacht, Martin
A1  - Stewart, Paul M.
T1  - Urine Steroid Metabolomics as a Biomarker Tool for Detecting Malignancy in Adrenal Tumors
JF  - The Journal of Clinical Endocrinology & Metabolism
N2  - Context:
Adrenal tumors have a prevalence of around 2% in the general population. Adrenocortical carcinoma (ACC) is rare but accounts for 2–11% of incidentally discovered adrenal masses. Differentiating ACC from adrenocortical adenoma (ACA) represents a diagnostic challenge in patients with adrenal incidentalomas, with tumor size, imaging, and even histology all providing unsatisfactory predictive values.

Objective:
Here we developed a novel steroid metabolomic approach, mass spectrometry-based steroid profiling followed by machine learning analysis, and examined its diagnostic value for the detection of adrenal malignancy.

Design:
Quantification of 32 distinct adrenal derived steroids was carried out by gas chromatography/mass spectrometry in 24-h urine samples from 102 ACA patients (age range 19–84 yr) and 45 ACC patients (20–80 yr). Underlying diagnosis was ascertained by histology and metastasis in ACC and by clinical follow-up [median duration 52 (range 26–201) months] without evidence of metastasis in ACA. Steroid excretion data were subjected to generalized matrix learning vector quantization (GMLVQ) to identify the most discriminative steroids.

Results:
Steroid profiling revealed a pattern of predominantly immature, early-stage steroidogenesis in ACC. GMLVQ analysis identified a subset of nine steroids that performed best in differentiating ACA from ACC. Receiver-operating characteristics analysis of GMLVQ results demonstrated sensitivity = specificity = 90% (area under the curve = 0.97) employing all 32 steroids and sensitivity = specificity = 88% (area under the curve = 0.96) when using only the nine most differentiating markers.

Conclusions:
Urine steroid metabolomics is a novel, highly sensitive, and specific biomarker tool for discriminating benign from malignant adrenal tumors, with obvious promise for the diagnostic work-up of patients with adrenal incidentalomas.
KW  - adrenal cortex hormones
KW  - urine
KW  - adrenal cortex neoplasms
KW  - mass spectrometry
KW  - metabolomics
Y1  - 2011
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-154682
VL  - 96
IS  - 12
SP  - 3775
EP  - 3784
ER  - 
TY  - JOUR
A1  - Reel, Smarti
A1  - Reel, Parminder S.
A1  - Erlic, Zoran
A1  - Amar, Laurence
A1  - Pecori, Alessio
A1  - Larsen, Casper K.
A1  - Tetti, Martina
A1  - Pamporaki, Christina
A1  - Prehn, Cornelia
A1  - Adamski, Jerzy
A1  - Prejbisz, Aleksander
A1  - Ceccato, Filippo
A1  - Scaroni, Carla
A1  - Kroiss, Matthias
A1  - Dennedy, Michael C.
A1  - Deinum, Jaap
A1  - Eisenhofer, Graeme
A1  - Langton, Katharina
A1  - Mulatero, Paolo
A1  - Reincke, Martin
A1  - Rossi, Gian Paolo
A1  - Lenzini, Livia
A1  - Davies, Eleanor
A1  - Gimenez-Roqueplo, Anne-Paule
A1  - Assié, Guillaume
A1  - Blanchard, Anne
A1  - Zennaro, Maria-Christina
A1  - Beuschlein, Felix
A1  - Jefferson, Emily R.
T1  - Predicting hypertension subtypes with machine learning using targeted metabolites and their ratios
JF  - Metabolites
N2  - Hypertension is a major global health problem with high prevalence and complex associated health risks. Primary hypertension (PHT) is most common and the reasons behind primary hypertension are largely unknown. Endocrine hypertension (EHT) is another complex form of hypertension with an estimated prevalence varying from 3 to 20% depending on the population studied. It occurs due to underlying conditions associated with hormonal excess mainly related to adrenal tumours and sub-categorised: primary aldosteronism (PA), Cushing’s syndrome (CS), pheochromocytoma or functional paraganglioma (PPGL). Endocrine hypertension is often misdiagnosed as primary hypertension, causing delays in treatment for the underlying condition, reduced quality of life, and costly antihypertensive treatment that is often ineffective. This study systematically used targeted metabolomics and high-throughput machine learning methods to predict the key biomarkers in classifying and distinguishing the various subtypes of endocrine and primary hypertension. The trained models successfully classified CS from PHT and EHT from PHT with 92% specificity on the test set. The most prominent targeted metabolites and metabolite ratios for hypertension identification for different disease comparisons were C18:1, C18:2, and Orn/Arg. Sex was identified as an important feature in CS vs. PHT classification.
KW  - metabolomics
KW  - machine learning
KW  - hypertension
KW  - primary aldosteronism
KW  - pheochromocytoma/paraganglioma
KW  - Cushing syndrome
KW  - biomarkers
Y1  - 2022
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-286161
SN  - 2218-1989
VL  - 12
IS  - 8
ER  - 
TY  - JOUR
A1  - Bliziotis, Nikolaos G.
A1  - Kluijtmans, Leo A. J.
A1  - Tinnevelt, Gerjen H.
A1  - Reel, Parminder
A1  - Reel, Smarti
A1  - Langton, Katharina
A1  - Robledo, Mercedes
A1  - Pamporaki, Christina
A1  - Pecori, Alessio
A1  - Van Kralingen, Josie
A1  - Tetti, Martina
A1  - Engelke, Udo F. H.
A1  - Erlic, Zoran
A1  - Engel, Jasper
A1  - Deutschbein, Timo
A1  - Nölting, Svenja
A1  - Prejbisz, Aleksander
A1  - Richter, Susan
A1  - Adamski, Jerzy
A1  - Januszewicz, Andrzej
A1  - Ceccato, Filippo
A1  - Scaroni, Carla
A1  - Dennedy, Michael C.
A1  - Williams, Tracy A.
A1  - Lenzini, Livia
A1  - Gimenez-Roqueplo, Anne-Paule
A1  - Davies, Eleanor
A1  - Fassnacht, Martin
A1  - Remde, Hanna
A1  - Eisenhofer, Graeme
A1  - Beuschlein, Felix
A1  - Kroiss, Matthias
A1  - Jefferson, Emily
A1  - Zennaro, Maria-Christina
A1  - Wevers, Ron A.
A1  - Jansen, Jeroen J.
A1  - Deinum, Jaap
A1  - Timmers, Henri J. L. M.
T1  - Preanalytical pitfalls in untargeted plasma nuclear magnetic resonance metabolomics of endocrine hypertension
JF  - Metabolites
N2  - Despite considerable morbidity and mortality, numerous cases of endocrine hypertension (EHT) forms, including primary aldosteronism (PA), pheochromocytoma and functional paraganglioma (PPGL), and Cushing’s syndrome (CS), remain undetected. We aimed to establish signatures for the different forms of EHT, investigate potentially confounding effects and establish unbiased disease biomarkers. Plasma samples were obtained from 13 biobanks across seven countries and analyzed using untargeted NMR metabolomics. We compared unstratified samples of 106 PHT patients to 231 EHT patients, including 104 PA, 94 PPGL and 33 CS patients. Spectra were subjected to a multivariate statistical comparison of PHT to EHT forms and the associated signatures were obtained. Three approaches were applied to investigate and correct confounding effects. Though we found signatures that could separate PHT from EHT forms, there were also key similarities with the signatures of sample center of origin and sample age. The study design restricted the applicability of the corrections employed. With the samples that were available, no biomarkers for PHT vs. EHT could be identified. The complexity of the confounding effects, evidenced by their robustness to correction approaches, highlighted the need for a consensus on how to deal with variabilities probably attributed to preanalytical factors in retrospective, multicenter metabolomics studies.
KW  - confounders
KW  - metabolomics
KW  - multicenter
KW  - plasma NMR
KW  - preanalytical conditions
Y1  - 2022
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-282930
SN  - 2218-1989
VL  - 12
IS  - 8
ER  - 
TY  - JOUR
A1  - Bohnert, Simone
A1  - Reinert, Christoph
A1  - Trella, Stefanie
A1  - Schmitz, Werner
A1  - Ondruschka, Benjamin
A1  - Bohnert, Michael
T1  - Metabolomics in postmortem cerebrospinal fluid diagnostics: a state-of-the-art method to interpret central nervous system–related pathological processes
JF  - International Journal of Legal Medicine
N2  - In the last few years, quantitative analysis of metabolites in body fluids using LC/MS has become an established method in laboratory medicine and toxicology. By preparing metabolite profiles in biological specimens, we are able to understand pathophysiological mechanisms at the biochemical and thus the functional level. An innovative investigative method, which has not yet been used widely in the forensic context, is to use the clinical application of metabolomics. In a metabolomic analysis of 41 samples of postmortem cerebrospinal fluid (CSF) samples divided into cohorts of four different causes of death, namely, cardiovascular fatalities, isoIated torso trauma, traumatic brain injury, and multi-organ failure, we were able to identify relevant differences in the metabolite profile between these individual groups. According to this preliminary assessment, we assume that information on biochemical processes is not gained by differences in the concentration of individual metabolites in CSF, but by a combination of differently distributed metabolites forming the perspective of a new generation of biomarkers for diagnosing (fatal) TBI and associated neuropathological changes in the CNS using CSF samples.
KW  - CSF
KW  - cerebrospinal fluid
KW  - forensic neuropathology
KW  - forensic neurotraumatology
KW  - biomarker
KW  - metabolomics
Y1  - 2021
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-235724
SN  - 0937-9827
VL  - 135
ER  - 
TY  - JOUR
A1  - Macintyre, Lynsey
A1  - Zhang, Tong
A1  - Viegelmann, Christina
A1  - Martinez, Ignacio Juarez
A1  - Cheng, Cheng
A1  - Dowdells, Catherine
A1  - Abdelmohsen, Usama Ramadan
A1  - Gernert, Christine
A1  - Hentschel, Ute
A1  - Edrada-Ebel, RuAngelie
T1  - Metabolomic Tools for Secondary Metabolite Discovery from Marine Microbial Symbionts
JF  - Marine Drugs
N2  - Marine invertebrate-associated symbiotic bacteria produce a plethora of novel secondary metabolites which may be structurally unique with interesting pharmacological properties. Selection of strains usually relies on literature searching, genetic screening and bioactivity results, often without considering the chemical novelty and abundance of secondary metabolites being produced by the microorganism until the time-consuming bioassay-guided isolation stages. To fast track the selection process, metabolomic tools were used to aid strain selection by investigating differences in the chemical profiles of 77 bacterial extracts isolated from cold water marine invertebrates from Orkney, Scotland using liquid chromatography-high resolution mass spectrometry (LC-HRMS) and nuclear magnetic resonance (NMR) spectroscopy. Following mass spectrometric analysis and dereplication using an Excel macro developed in-house, principal component analysis (PCA) was employed to differentiate the bacterial strains based on their chemical profiles. NMR H-1 and correlation spectroscopy (COSY) were also employed to obtain a chemical fingerprint of each bacterial strain and to confirm the presence of functional groups and spin systems. These results were then combined with taxonomic identification and bioassay screening data to identify three bacterial strains, namely Bacillus sp. 4117, Rhodococcus sp. ZS402 and Vibrio splendidus strain LGP32, to prioritize for scale-up based on their chemically interesting secondary metabolomes, established through dereplication and interesting bioactivities, determined from bioassay screening.
KW  - multivariate analysis
KW  - metabolic profiling
KW  - metabolomics
KW  - dereplication
KW  - symbiotic bacteria
KW  - mass spectrometry
KW  - NMR
KW  - sponge holicolona-simulans
KW  - bryozoan bugula-neritina
KW  - polyketide synthase gene
Y1  - 2014
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-116097
SN  - 1660-3397
VL  - 12
IS  - 6
ER  - 
TY  - THES
A1  - Rikanovic, Carina
T1  - Metabolomanalytik antiinfektiv wirkender Isochinolinalkaloide
T1  - Metabolome analysis of antiinfectiv isoquinoline alkaloids
N2  - Die zunehmende Entstehung von Resistenzen macht die Entwicklung neuer potenter Wirkstoffe zur Therapie von Infektionskrankheiten immer wichtiger. Dieser Aufgabe stellt sich auch der interdisziplinär aufgebaute SFB 630, in den sich die vorliegende Arbeit eingliedert. Innerhalb des SFBs wurden Isochinolinalkaloid-Derivate (IQs) synthetisiert, die aktiv gegen verschiedene Mikroorganismen sind. Bioinformatische Modellierungen bilden die für den jeweiligen Mikroorganismus spezifischen Stoffwechselwege ab. In Netzwerkanalysen können Änderungen metabolischer Flüsse durch pharmakologisch aktive Substanzen vorhergesagt werden. Gemeinsam mit bioinformatischen Modellen liefern die Metabolommessungen Hinweise auf mögliche Wirkmechanismen. Im Rahmen der vorliegenden Arbeit wurden verschiedene analytische Methoden etabliert, um antiinfektive Wirkungen dieser verheißungsvollen Leitstrukturen auf das Metabolom verschiedener Mikroorganismen zu untersuchen. Die aus den Metabolommessungen erhaltenen Daten fließen in diese Modelle ein und tragen zu deren Optimierung bei. Die Mikroorganismen wurden für die Metabolomanalysen mit aktiven IQs (für S. aureus und C. albicans GB-AP-143, für L. major GB-AP-304) inkubiert. Bei C. albicans erfolgte die Probennahme zu unterschiedlichen Zeitpunkten (lag-, log-, stationäre Phase), um auch die Zeitabhängigkeit der Effekte zu untersuchen. Zusätzlich dienten bei C. albicans als Kontrollen neben parallel angesetzten Zellkulturen ohne Inhibitor, auch Zellkulturen, denen das Lösungsmittel DMSO zugegeben wurde. Es wurden Extraktionsmethoden für die betreffenden Metabolite der hier untersuchten Mikroorganismen (S. aureus, C. albicans, L. major) etabliert. Dabei lag der Fokus auf polaren Metaboliten, da bioinformatische Modellierungen für die Effekte der IQs Änderungen vor allem im Purin- und Pyrimidinstoffwechsel der Mikroorganismen vorhersagten. Zur Analyse des Nukleotidstoffwechsels wurde eine ionenpaarchromatographische HPLC-Methode entwickelt und optimiert. Mit dieser Methode konnten Nicotinamidderivate und Nukleotide des Purin- und Pyrimidinstoffwechsels in Zellextrakten von S. aureus, C. albicans und L. major quantifiziert werden. Für eine Analyse des Wirkmechanismus von GB-AP-143 wurde die Zusammensetzung des Metaboloms von C. albicans mittels einer GC/MS-Methode bestimmt. Nach einer Derivatisierung des Extrakts mit Methoxyamin-HCl und MSTFA konnten in einem Lauf zugleich Target- und Fingerprintanalytik durchgeführt werden. Die Auswertung der Targetanalytik fand unter Anwendung der NIST-Datenbank und Vermessung von Standards statt. Hierbei konnten vor allem Aminosäuren quantitativ erfasst werden. Der Fingerprint wurde durch Einsatz multivariater statistischer Verfahren ausgewertet. Die Daten für die mit GB AP 143 behandelten S. aureus und die mit GB AP 304 behandelten L. major-Promastigoten liefern Hinweise auf eine Wirkung der IQs auf den Komplex-I der mitochondrialen Atmungskette. Für die Behandlung der C. albicans-Kulturen mit GB-AP-143 konnten komplexe Änderungen im Nukleotid- und Aminosäurestoffwechsel gemessen werden. So beeinflusste bereits der Zeitpunkt der Probennahme (lag-, log- oder stationäre Wachstumsphase) die Zusammensetzung des Metaboloms und auch das Lösungsmittel, das für die IQs verwendet wurde, verursachte komplexe Änderungen im Metabolom von C. albicans. Zusätzlich wurden Nukleotid- und Aminosäurekonzentrationen Fluconazol-resistenter C. albicans-Mutanten (TAC, UPC und MRR) untersucht. Im Nukleotidstoffwechsel waren sowohl Konzentrationssteigerungen als auch ein Absinken der Konzentrationen im Vergleich zum Wildtyp zu verzeichnen. Der Aminosäurestoffwechsel zeigte insgesamt einen verminderten Gehalt an Aminosäuren der Mutanten gegenüber dem Wildtyp. Da GB-AP-143 auch Aktivität gegen diese Mutanten zeigte, wurde exemplarisch die MRR-Mutante mit GB-AP-143 inkubiert, um zu untersuchen, ob die durch GB-AP-143 hervorgerufenen Änderungen im Nukleotid- und Aminosäurestoffwechsel ähnlich zu denen des Wildtyps sind. Es konnten im Nukleotidstoffwechsel gegenläufige Effekte für die Inkubation von GB-AP-143 des Wildtyps und der Mutante verzeichnet werden. Die Daten aus den HPLC/UV- und GC/MS-Messungen werden von der Bioinformatik zur Optimierung der verwendeten Modelle genutzt, um auf diese Weise die Wirkmechanismen der IQs besser modellieren zu können. Da das Cytochrom-P-450-Enzymsystem am Metabolismus von etwa 95 % aller Arzneistoffe beteiligt ist, wurden die Effekte ausgewählter IQs auf die sechs wichtigsten arzneistoffmetabolisierenden Enzyme (CYP1A2, 2C8, 2C9, 2C19, 2D6 und 3A4) mit Hilfe eines bereits etablierten CYP-Assays analysiert und näher charakterisiert. Im CYP-Assay zeigte sich für drei IQs eine CYP2D6-Hemmung. Die ausgeprägte CYP2D6-selektive Hemmung von GB-AP-110 ergab einen IC50-Wert von nur 109 nM. Die Charakterisierung der Hemmung ergab einen reversiblen, kompetitiven Inhibitionsmechanismus.
N2  - The increasing frequency of resistance towards antibiotics in the therapy of infectious diseases highlights the importance of the development of novel drugs against infectious diseases. This work is integrated in the Collaboration Research Center 630 (SFB 630), which has been formed to search for innovative solutions by joint interdisciplinary approaches. In the framework of this SFB, some new isoquinoline alkaloid derivatives (IQs) could be synthesized, which show distinct activities against various microorganisms. The present work focussed on the development of different analytical methods in order to determine the antiinfective properties of these promising lead structures on the level of the metabolome of different microorganisms. Metabolome measurements together with bioinformatic models provide information about the possible mode of action. By using bioinformatic models one can predict changes in metabolic fluxes caused by pharmacologically active substances. The integration of data from metabolic measurements can optimize the predictive power of these models. For these measurements the microorganisms were incubated with the active IQs (GB-AP-143 for S. aureus and C. albicans, GB-AP-304 for L. major). In the case of C. albicans sampling was carried out at different time points (lag-, log and stationary growth stage) in order to examine the time dependence. In addition cell cultures without inhibitor and with the addition of the solvent DMSO were used as controls for C. albicans. Initially, extraction methods for the respective metabolites of the microorganisms S. aureus, C. albicans and L. major were established. Since bioinformatic models predicted alterations especially in the purine and pyrimidine metabolism of these microorganisms as a consequence of treatment with IQs, priority was put on the extraction of polar compounds. To analyze the nucleotide metabolism an ion pair chromatography method was developed and optimized. By means of this method nicotinamide derivatives and nucleotides of the purine and pyrimidine metabolisms could be quantified in cell extracts of S. aureus, C. albicans and L. major. For a more holistic analysis of GB-AP-143´s effect on the composition of the C. albicans metabolome a GC/MS-method was developed. After a derivatisation step of the cell extract by using methoxyamine hydrochloride and MSTFA target and fingerprint analysis were conducted simultaneously. Target analysis was conducted by means of the NIST database and measuring reference standards. Particularly, amino acids could be quantified. Fingerprint analysis was interpreted using multivariate statistics. A detailed biological interpretation of metabolome data was not the focus of this study, because the main goal was the method development. However, data of S. aureus and L. major treated with the IQs gave hints towards an effect of the IQs on complex I of mitochondrial respiration. For the treatment of C. albicans with GB-AP-143 a complex alteration of the metabolites has been detected: already the time of sampling and the solvent, which was applied for GB-AP-143, have an impact on metabolome pattern of C. albicans. Additionally, the nucleotide and amino acid concentrations of fluconazol-resistant C. albicans mutants (TAC; UPC and MRR) have been investigated. Nucleotides showed increased as well as decreased concentrations compared to the C. albicans wild type. The overall concentration of amino acids was decreased in the mutants. Since GB-AP-143 also showed activity against these resistant mutants, exemplarily the MRR-mutant was incubated with this compound in order to determine, whether the effect of GB-AP-143 on the nucleotide and amino acid metabolism in the wild type also occurs in the mutant. Nucleotide metabolism showed antidromic effects for the incubation of wild type and mutant for GB-AP-143. This indicates that the metabolism of the mutant, which differs from the wild type already without treatment, also reacts differently on GB-AP-143-incubation. Data from HPLC/UV- and GC/MS-analysis are used by the bioinformatics to optimize the developed models in order to develop improved models for the mode of action of IQs. Since cytochrome-P-450-enzymes are involved in the metabolism of about 95 % of all drugs, the effects of selected IQs on the six main drug processing enzymes (CYP1A2, 2C8, 2C9, 2C19, 2D6 and 3A4) were investigated. Therefore, a previously developed and well-established in vitro test system was used. Three of the tested IQs showed an inhibition of CYP2D6. The distinct CYP2D6-selective inhibition of GB-AP-110 showed an IC50 value as low as 109 nM. The accurate characterization revealed a reversible and competitive mode of inhibition.
KW  - Metabolom
KW  - GC-MS
KW  - Isochinolinalkaloide
KW  - Ionenpaarchromatographie
KW  - Cytochrom P-450
KW  - metabolomics
KW  - GC-MS
KW  - ion-pair chromatography
KW  - cytochrome-P-450
Y1  - 2011
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-56183
ER  - 
TY  - THES
A1  - Cecil, Alexander [geb. Schmid]
T1  - Metabolische Netzwerkanalysen für den Weg von xenobiotischen zu verträglichen antibiotischen Substanzen
T1  - Metabolic network analysis for the path from xenobiotic to compliant antibiotic substances
N2  - Durch das Auftreten neuer Stämme resistenter Krankheitserreger ist die Suche nach neuartigen Wirkstoffen gegen diese, sich ständig weiter ausbreitende Bedrohung, dringend notwendig. Der interdisziplinäre Sonderforschungsbereich 630 der Universität Würzburg stellt sich dieser Aufgabe, indem hier neuartige Xenobiotika synthetisiert und auf ihre Wirksamkeit getestet werden. Die hier vorgelegte Dissertation fügt sich hierbei nahtlos in die verschiedenen Fachbereiche des SFB630 ein: Sie stellt eine Schnittstelle zwischen Synthese und Analyse der Effekte der im Rahmen des SFB630 synthetisierten Isochinolinalkaloid-Derivaten. Mit den hier angewandten bioinformatischen Methoden wurden zunächst die wichtigsten Stoffwechselwege von S. epidermidis R62A, S. aureus USA300 und menschlicher Zellen in sogenannten metabolischen Netzwerkmodellen nachgestellt. Basierend auf diesen Modellen konnten Enzymaktivitäten für verschiedene Szenarien an zugesetzten Xenobiotika berechnet werden. Die hierfür benötigten Daten wurden direkt aus Genexpressionsanalysen gewonnen. Die Validierung dieser Methode erfolgte durch Metabolommessungen. Hierfür wurde S. aureus USA300 mit verschiedenen Konzentrationen von IQ-143 behandelt und gemäß dem in dieser Dissertation vorgelegten Ernteprotokoll aufgearbeitet. Die Ergebnisse hieraus lassen darauf schließen, dass IQ-143 starke Effekte auf den Komplex 1 der Atmungskette ausübt – diese Resultate decken sich mit denen der metabolischen Netzwerkanalyse. Für den Wirkstoff IQ-238 ergaben sich trotz der strukturellen Ähnlichkeiten zu IQ-143 deutlich verschiedene Wirkeffekte: Dieser Stoff verursacht einen direkten Abfall der Enzymaktivitäten in der Glykolyse. Dadurch konnte eine unspezifische Toxizität dieser Stoffe basierend auf ihrer chemischen Struktur ausgeschlossen werden. Weiterhin konnten die bereits für IQ-143 und IQ-238 auf Bakterien angewandten Methoden erfolgreich zur Modellierung der Effekte von Methylenblau auf verschiedene resistente Stämme von P. falciparum 3D7 angewandt werden. Dadurch konnte gezeigt werden, dass Methylenblau in einer Kombination mit anderen Präparaten gegen diesen Parasiten zum einen die Wirkung des Primärpräparates verstärkt, zum anderen aber auch in gewissem Maße vorhandene Resistenzen gegen das Primärpräparat zu verringern vermag. Somit konnte durch die vorgelegte Arbeit eine Pipeline zur Identifizierung der metabolischen Effekte verschiedener Wirkstoffe auf unterschiedliche Krankheitserreger erstellt werden. Diese Pipeline kann jederzeit auf andere Organismen ausgeweitet werden und stellt somit einen wichtigen Ansatz um Netzwerkeffekte verschiedener, potentieller Medikamente aufzuklären.
N2  - With the emergence of new strains of resistant pathogens, the search for new compounds against this spreading threat is of utmost importance. The interdisciplinary special research field SFB630 of the University of Würzburg is ready to tackle this task by synthesizing and analysing the effects of xenobiotics. The presented dissertation is seamlessly integrated into the diverse range of special fields of the SFB630: it provides a gateway between synthesis and analysis of the effects of the newly synthesized isoquinoline alkaloid derivatives. The presented bioinformatic methods were used to build a so called metabolic network model of the most important pathways of S. epidermidis RP62A, S. aureus USA300 and human cells. Based on these models it was possible to calculate the enzyme activities for different scenarios of added xenobiotics. The data needed for these calculations were derived directly from gene expression analysis. Validation of this method was done by metabolomic measurements. In order to accomplish this, a strain of S. aureus USA300 was subjected to different concentrations of IQ-143 and processed according to the workflow also published in this dissertation. The results suggest that IQ-143 has very strong effects on the complex 1 of the oxidative phosphorylation – these results are consistent with the results obtained by the metabolic network analysis. Although IQ-238 is structurally a close relative to IQ-143, the effects of this compound are very different: it leads to a drop of the enzyme activities in the glycolysis. Therefore an unspecific toxicity of those compounds based on their chemical structure dould be ruled out. The methods used to model the effects of IQ-143 and IQ-238 on bacteria were furthermore successfully transferred to model the effects of methylene blue on several resistant strains of P. falciparum 3D7. It was shown that a combination of methylene blue and other malaria medications either enhances the effects of the primary medication, or – in the case of a resistant strain – methylene blue was able to mitigate the resistances against the primary medication. The presented dissertation was thus successfully able to build a pipeline to identify the metabolic effects of different compounds on various germs. This pipeline can be expanded to other organisms at any time and therefore yields an important approach to identify network effects of various potential drugs.
KW  - Stoffwechsel
KW  - Bioinformatik
KW  - Mathematisches Modell
KW  - Enzymaktivität
KW  - Xenobiotikum
KW  - Netzwerkanalyse
KW  - Bioinformatik
KW  - Metabolische Stoffwechselmodellierung
KW  - Metabolomik
KW  - Metabonomik
KW  - Network analysis
KW  - Bioinformatics
KW  - metabolic pathway modeling
KW  - metabolomics
KW  - metabonomics
Y1  - 2012
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-71866
ER  - 
TY  - JOUR
A1  - Koderer, Corinna
A1  - Schmitz, Werner
A1  - Wünsch, Anna Chiara
A1  - Balint, Julia
A1  - El-Mesery, Mohamed
A1  - Volland, Julian Manuel
A1  - Hartmann, Stefan
A1  - Linz, Christian
A1  - Kübler, Alexander Christian
A1  - Seher, Axel
T1  - Low energy status under methionine restriction is essentially independent of proliferation or cell contact inhibition
JF  - Cells
N2  - Nonlimited proliferation is one of the most striking features of neoplastic cells. The basis of cell division is the sufficient presence of mass (amino acids) and energy (ATP and NADH). A sophisticated intracellular network permanently measures the mass and energy levels. Thus, in vivo restrictions in the form of amino acid, protein, or caloric restrictions strongly affect absolute lifespan and age-associated diseases such as cancer. The induction of permanent low energy metabolism (LEM) is essential in this process. The murine cell line L929 responds to methionine restriction (MetR) for a short time period with LEM at the metabolic level defined by a characteristic fingerprint consisting of the molecules acetoacetate, creatine, spermidine, GSSG, UDP-glucose, pantothenate, and ATP. Here, we used mass spectrometry (LC/MS) to investigate the influence of proliferation and contact inhibition on the energy status of cells. Interestingly, the energy status was essentially independent of proliferation or contact inhibition. LC/MS analyses showed that in full medium, the cells maintain active and energetic metabolism for optional proliferation. In contrast, MetR induced LEM independently of proliferation or contact inhibition. These results are important for cell behaviour under MetR and for the optional application of restrictions in cancer therapy.
KW  - methionine restriction
KW  - caloric restriction
KW  - mass spectrometry
KW  - LC/MS
KW  - liquid chromatography/mass spectrometry
KW  - metabolomics
KW  - L929
KW  - amino acid
KW  - proliferation
KW  - contact inhibition
Y1  - 2022
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-262329
SN  - 2073-4409
VL  - 11
IS  - 3
ER  - 
TY  - JOUR
A1  - Schäbler, Stefan
A1  - Amatobi, Kelechi M.
A1  - Horn, Melanie
A1  - Rieger, Dirk
A1  - Helfrich‑Förster, Charlotte
A1  - Mueller, Martin J.
A1  - Wegener, Christian
A1  - Fekete, Agnes
T1  - Loss of function in the Drosophila clock gene period results in altered intermediary lipid metabolism and increased susceptibility to starvation
JF  - Cellular and Molecular Life Sciences
N2  - The fruit fly Drosophila is a prime model in circadian research, but still little is known about its circadian regulation of metabolism. Daily rhythmicity in levels of several metabolites has been found, but knowledge about hydrophobic metabolites is limited. We here compared metabolite levels including lipids between period\(^{01}\) (per\(^{01}\)) clock mutants and Canton-S wildtype  (WT\(_{CS}\)) flies in an isogenic and non-isogenic background using LC–MS. In the non-isogenic background, metabo-lites with differing levels comprised essential amino acids, kynurenines, pterinates, glycero(phospho)lipids, and fatty acid esters. Notably, detectable diacylglycerols (DAG) and acylcarnitines (AC), involved in lipid metabolism, showed lower levels in per\(^{01}\) mutants. Most of these differences disappeared in the isogenic background, yet the level differences for AC as well as DAG were consistent for fly bodies. AC levels were dependent on the time of day in WTCS in phase with food consumption under LD conditions, while DAGs showed weak daily oscillations. Two short-chain ACs continued to cycle even in constant darkness. per\(^{01}\) mutants in LD showed no or very weak diel AC oscillations out of phase with feeding activity. The low levels of DAGs and ACs in per\(^{01}\) did not correlate with lower total food consumption, body mass or weight. Clock mutant flies showed higher sensitivity to starvation independent of their background-dependent activity level. Our results suggest that neither feeding, energy storage nor mobilisation is significantly affected in per\(^{01}\) mutants, but point towards impaired mitochondrial activity, supported by upregulation of the mitochondrial stress marker 4EBP in the clock mutants
KW  - circadian rhythms
KW  - metabolomics
KW  - mitochondrial activity
KW  - tryptophan
KW  - acylcarnitine
KW  - feeding
Y1  - 2020
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-232432
SN  - 1420-682X
VL  - 77
ER  - 
TY  - THES
A1  - Wagner, Silvia
T1  - Identifizierung von Biomarkern mittels LC-MS-basiertem Metabonomics - Merkaptursäuren als Indikatoren für die Bildung toxischer Intermediate
T1  - Identification of biomarkers via LC-MS-based metabonomics – mercapturic acids as indicators for the formation of toxic intermediates
N2  - Metabonomics bildet das Ende der Omics-Kaskade und stellt eine top-down-Strategie zur Erfassung und Interpretation des Metaboloms, d. h. der Gesamtheit aller niedermolekularen Metaboliten in einem intakten Organismus, dar. Ziel der Technik ist es, mittels geeigneter ungerichteter Screeningverfahren in nicht-invasiv zu gewinnenden biologischen Proben wie Urin oder Blut charakteristische Metabolitenprofile zu bestimmen. Im Kontext des Metabonomics wurde in Anlehnung an den Geno- bzw. Phänotyp hierfür der Begriff „Metabotyp“ geprägt. Durch biostatistische Methoden, die auf Mustererkennung (pattern recognition) basieren, können Signaturen gegenübergestellt und auf diesem Weg gruppenspezifische Metaboliten, d. h. Biomarker bzw. Metabolitenmuster, extrahiert werden. Metabonomics kann folglich als Fusion klassischer bioanalytischer und biostatistischer Verfahren aufgefasst werden. Seit der Einführung im Jahr 1999 hat sich das Konzept des Metabonomics in mehrere Richtungen weiterentwickelt. So gab es Bestrebungen, die Technik, die ursprünglich zur Prädiktion von toxischen Effekten bei der Arzneistoffentwicklung etabliert wurde, auf Fragestellungen zu übertragen, die den Menschen im Mittelpunkt haben. Neben präklinischen Anwendungen verfolgt man mit Metabonomics zunehmend das Ziel, einer personalisierten Medizin und Ernährung einen Schritt näher zu kommen. Da sich die ursprünglich eingesetzte NMR-Technik als zu unempfindlich und die resultierenden Metabolitenprofile als zu anfällig gegenüber biologischen und analytischen Einflussgrößen (Confoundern) erwiesen haben, wurde parallel auf sensitivere Verfahren wie die Massenspektrometrie gesetzt. Insbesondere die Kopplung mit der Hochdruckflüssigchromatographie erwies sich hierbei für das Metabolitenscreening als geeignet. Schnell wurde allerdings klar, dass aus den klassischen full scan/TOF-Methoden Datensätze resultierten, die häufig zu komplex waren, um mit nachgeschalteten chemometrischen Verfahren die „Spreu vom Weizen trennen“ zu können. Da sich Metabolitendatenbanken bisher noch im Aufbau befinden, ist die Identifizierung der Marker mit zusätzlichen Schwierigkeiten verbunden und bedarf aufwändiger analytischer Verfahren. Eine Strategie stellt daher die Beschränkung auf ein Metabolitensubset dar. Indem man sich auf Metabolitenklassen fokussiert, die einen Bezug zum untersuchten Mechanismus haben, können die Erfolgsaussichten bei der Identifizierung charakteristischer Biomarker deutlich erhöht werden. Aufgrund zahlreicher exogener und endogener Faktoren (Arzneistoffe, Industriechemikalien, Nahrungsbestandteile, Tabakrauchbestandteile, Produkte der Lipidperoxidation etc.) ist der menschliche Organismus stets einer Vielzahl an elektrophilen Verbindungen ausgesetzt. Oxidative Schädigungen an Strukturen wie der DNA, Proteinen und Lipiden werden mit einer Reihe von Krankheitsbildern in Zusammenhang gebracht, darunter Parkinson, Alzheimer, Krebs und Volkskrankheiten wie Arteriosklerose, Allergien und koronare Herzerkrankungen. Mit dem Glutathionsystem verfügt der Körper über einen wirksamen Detoxifizierungsmechanismus. Das Tripeptid Glutathion reagiert als Nukleophil mit den exogen oder endogen gebildeten elektrophilen Intermediaten. Endprodukte sind Merkaptursäuren (N-Acetyl-L-Cystein-Addukte) bzw. deren Sulfoxide, die in erster Linie mit dem Urin ausgeschieden werden. Folglich besteht zwischen diesen Merkaptursäurederivaten und der elektrophilen Belastung eines Organismus ein direkter Zusammenhang. Vor diesem Hintergrund war es das Ziel der Arbeit, einen nicht-invasiven Metabonomicsansatz zur Anwendung am Menschen zu entwickeln. Durch die Fokussierung des Metabolitenscreenings auf die Effekt-, Dosis- und Suszeptibilitätsmarkerklasse der Merkaptursäuren sollten hierbei die Erfolgsaussichten im Hinblick auf die Identifizierung potentieller Biomarker für diverse toxikologische sowie medizinische Endpunkte erhöht werden.
N2  - Metabonomics forms the end of the omics-cascade and represents a top-down strategy for the interpretation of the metabolome, i. e. all the low molecular weight metabolites in an intact organism. The aim of the approach is to analyse characteristic metabolite profiles by suitable untargeted screening methods in biological samples like urine or blood that can be obtained in a non-invasive manner. In the context of metabonomics, the term “metabotype” was defined according to the geno- and phenotype, respectively. Biostatistical methods based on pattern recognition techniques allow comparing metabolic signatures and extracting group specific metabolites and biomarkers. Therefore, metabonomics can be regarded as the fusion of bioanalytical and biostatistical techniques. Since its introduction in 1999, the concept of metabonomics has permanently gained importance in many fields of scientific research. One aim was to transfer the methodology, which was originally established to predict toxic effects in drug development processes, to human issues. Apart from preclinical questions, metabonomics is increasingly applied in the area of personalised medicine and nutrition. As the NMR technique used by pioneers of the field was too insensitive and the resulting metabolite profiles were too susceptible to biological and analytical confounders, more sensitive techniques like mass spectrometry were more and more applied. Especially mass spectrometry in combination with high performance liquid chromatography showed great promise for the screening of metabolites. However, after a very short time, it was clear that the data sets resulting from full scan/TOF-methods were too complex to “separate the wheat from the chaff” with chemometric procedures. Metabolite databases are still under construction, and therefore marker identification is challenging and requires complex analytical techniques. Thus, one strategy is to concentrate on a certain metabolite subset. The focus on a metabolite class with a close relation to the mechanism under investigation can considerably increase the prospects of success in the biomarker identification process. Due to a variety of exogenous and endogenous factors (drugs, industrial chemicals, food ingredients, and tobacco smoke) the human organism is steadily confronted with a multitude of electrophilic compounds. Oxidative damage of the DNA, proteins, and lipids is associated with the development of diseases like Parkinson’s, Alzheimer’s, cancer and widespread diseases like arteriosclerosis, allergies and coronary heart diseases. With the glutathione system the human organism is equipped with an efficient detoxification mechanism. The tripeptide glutathione reacts as nucleophile with exogenously and endogenously formed electrophilic intermediates. End products are mercapturic acids (N-acetyl-L-cysteine-adducts) and respective sulfoxides that are predominantly excreted with urine. Therefore, there is a close relationship between these mercapturic acid patterns and the electrophilic burden of an organism. In this context, the aim of this thesis was to develop a non-invasive human metabonomics approach that focuses the metabolite screening on the effect, dose and susceptibility marker class of the mercapturic acids. Thus, the prospects of success regarding the identification of potential biomarkers for various toxicological and pathological endpoints should be increased.
KW  - Metabolom
KW  - Biomarker
KW  - Datenanalyse
KW  - Paracetamol
KW  - Validierung
KW  - Tetrachlormethan
KW  - Raucher
KW  - Tabakrauch
KW  - Zigarettenrauch
KW  - Biostatistik
KW  - Chemometrie
KW  - Hauptkomponentenanalyse
KW  - Methode der partiellen kleinsten Quadrate
KW  - Diskriminanzanalyse
KW  - Fl
KW  - Merkaptursäuren
KW  - Metabonomics
KW  - Metabolomics
KW  - Expositionsmarker
KW  - mercapturic acids
KW  - metabonomics
KW  - metabolomics
KW  - markers of exposure
Y1  - 2008
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-35760
ER  - 
TY  - JOUR
A1  - Abdelhafez, Omnia Hesham
A1  - Fawzy, Michael Atef
A1  - Fahim, John Refaat
A1  - Desoukey, Samar Yehia
A1  - Krischke, Markus
A1  - Mueller, Martin J.
A1  - Abdelmohsen, Usama Ramadan
T1  - Hepatoprotective potential of Malvaviscus arboreus against carbon tetrachloride-induced liver injury in rats
JF  - PLoS ONE
N2  - Malvaviscus arboreus Cav. is a medicinal plant belonging to family Malvaceae with both ethnomedical and culinary value; however, its phytochemical and biological profiles have been scarcely studied. Accordingly, this work was designed to explore the chemical composition and the hepatoprotective potential of M. arboreus against carbon tetrachloride (CCl\(_4\))-induced hepatotoxicity. The total extract of the aerial parts and its derived fractions (petroleum ether, dichloromethane, ethyl acetate, and aqueous) were orally administered to rats for six consecutive days, followed by injection of CCl\(_4\) (1:1 v/v, in olive oil, 1.5 ml/kg, i.p.) on the next day. Results showed that the ethyl acetate and dichloromethane fractions significantly alleviated liver injury in rats as indicated by the reduced levels of alanine transaminase (ALT), aspartate transaminase (AST), alkaline phosphatase (ALP), total bilirubin (TB), and malondialdehyde (MDA), along with enhancement of the total antioxidant capacities of their livers, with the maximum effects were recorded by the ethyl acetate fraction. Moreover, the protective actions of both fractions were comparable to those of silymarin (100 mg/kg), and have been also substantiated by histopathological evaluations. On the other hand, liquid chromatography-high resolution electrospray ionization mass spectrometry (LC‒HR‒ESI‒MS) metabolomic profiling of the crude extract of M. arboreus aerial parts showed the presence of a variety of phytochemicals, mostly phenolics, whereas the detailed chemical analysis of the most active fraction (i.e. ethyl acetate) resulted in the isolation and identification of six compounds for the first time in the genus, comprising four phenolic acids; β-resorcylic, caffeic, protocatechuic, and 4-hydroxyphenylacetic acids, in addition to two flavonoids; trifolin and astragalin. Such phenolic principles, together with their probable synergistic antioxidant and liver-protecting properties, seem to contribute to the observed hepatoprotective potential of M. arboreus.
KW  - high performance liquid chromatography
KW  - phenols
KW  - phytochemicals
KW  - antioxidants
KW  - metabolomics
KW  - medicinal plants
KW  - Egypt
KW  - xenobiotic metabolism
KW  - Malvaviscus arboreus
Y1  - 2018
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-177243
VL  - 13
IS  - 8
ER  - 
TY  - JOUR
A1  - Nagler, Matthias
A1  - Nägele, Thomas
A1  - Gilli, Christian
A1  - Fragner, Lena
A1  - Korte, Arthur
A1  - Platzer, Alexander
A1  - Farlow, Ashley
A1  - Nordborg, Magnus
A1  - Weckwerth, Wolfram
T1  - Eco-Metabolomics and Metabolic Modeling: Making the Leap From Model Systems in the Lab to Native Populations in the Field
JF  - Frontiers in Plant Science
N2  - Experimental high-throughput analysis of molecular networks is a central approach to characterize the adaptation of plant metabolism to the environment. However, recent studies have demonstrated that it is hardly possible to predict in situ metabolic phenotypes from experiments under controlled conditions, such as growth chambers or greenhouses. This is particularly due to the high molecular variance of in situ samples induced by environmental fluctuations. An approach of functional metabolome interpretation of field samples would be desirable in order to be able to identify and trace back the impact of environmental changes on plant metabolism. To test the applicability of metabolomics studies for a characterization of plant populations in the field, we have identified and analyzed in situ samples of nearby grown natural populations of Arabidopsis thaliana in Austria. A. thaliana is the primary molecular biological model system in plant biology with one of the best functionally annotated genomes representing a reference system for all other plant genome projects. The genomes of these novel natural populations were sequenced and phylogenetically compared to a comprehensive genome database of A. thaliana ecotypes. Experimental results on primary and secondary metabolite profiling and genotypic variation were functionally integrated by a data mining strategy, which combines statistical output of metabolomics data with genome-derived biochemical pathway reconstruction and metabolic modeling. Correlations of biochemical model predictions and population-specific genetic variation indicated varying strategies of metabolic regulation on a population level which enabled the direct comparison, differentiation, and prediction of metabolic adaptation of the same species to different habitats. These differences were most pronounced at organic and amino acid metabolism as well as at the interface of primary and secondary metabolism and allowed for the direct classification of population-specific metabolic phenotypes within geographically contiguous sampling sites.
KW  - eco-metabolomics
KW  - in situ analysis
KW  - metabolomics
KW  - metabolic modeling
KW  - SNP
KW  - natural variation
KW  - Jacobian matrix
KW  - green systems biology
Y1  - 2018
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-189560
SN  - 1664-462X
VL  - 9
IS  - 1556
ER  - 
TY  - THES
A1  - Schäbler, Stefan
T1  - Charakterisierung des circadianen Drosophila Metaboloms unter Zuhilfenahme massenspektrometrischer Methoden
T1  - Characterization of the circadian Drosophila metabolome by applying mass-spectrometry-based approaches
N2  - Die Fähigkeit sich an die Rotation der Erde und den daraus resultierenden Tag- und Nacht-Rhythmus anzupassen, basiert auf einer komplexen Regulation verschiedener physiologischer Prozesse. Auf molekularer Ebene liegt diesen Prozessen eine Orchestration von Uhr-Genen zugrunde – auch als innere Uhr bezeichnet – die einen aktivierenden bzw. reprimierenden Einfluss auf die Expression einer Vielzahl weiterer Gene hat. Ausgehend von dieser Regulation lassen sich auf unterschiedlichsten Ebenen tageszeitabhängige, wiederkehrende Rhythmen beobachten.
Während diese wiederkehrenden Rhythmen auf einigen Ebenen bereits gut erforscht und beschrieben sind, gibt es weitere Ebenen wie den Metabolismus, über die das Wissen bisher noch begrenzt ist.
So handelt es sich bei Drosophila beispielsweise um den Organismus, dessen innere Uhr auf molekularer Ebene wahrscheinlich mit am besten charakterisiert ist. Dennoch ist bisher nur wenig über Stoffklassen bekannt, deren Metabolismus durch die innere Uhr kontrolliert wird.
Zwar konnte bereits gezeigt werden, dass sich eine gestörte innere Uhr auf die Anlage der Energiespeicher auswirkt, inwiefern dies allerdings einen Einfluss auf dem intermediären Stoffwechsel hat, blieb bisher weitgehend unerforscht. Auch die Frage, welche Metaboliten wiederkehrende, tageszeitabhängige Rhythmen aufweisen, wurde bisher nur für eine begrenzte Anzahl Metaboliten untersucht.
Bei der hier durchgeführten Arbeit wurden deshalb zunächst die globalen Metabolit-Profile von Fliegen mit einer auf molekularer Ebene gestörten inneren Uhr (per01) mit Fliegen, die über eine funktionale Uhr verfügen (CantonS), zu zwei Zeitpunkten verglichen. Um die Anzahl der zeitgleich untersuchten Gewebe und somit die Komplexität der Probe zu reduzieren, wurden hierfür die Köpfe von den Körpern der Fliegen getrennt und separat analysiert. Beide Körperteile wurden sowohl auf kleine hydrophile als auch auf hydrophobe Metaboliten hin mittels UPLC-ESI-qTOF-MS untersucht. Die anschließend durchgeführte, statistische Analyse brachte hervor, dass sich Unterschiede zwischen den beiden Fliegenlinien besonders in den Spiegeln der essentiellen Aminosäuren, den Kynureninen, den Pterinaten sowie den Spiegeln der Glycero(phospho)lipiden und Fettsäureester zeigten. Bei den Lipiden zeigte sich, dass die Auswirkungen weniger ausgeprägt für die Anlage der Speicher- und Strukturlipide als für die Intermediate des Lipidabbaus, die Diacylglycerole (DAGs) sowie die Acylcarnitine (ACs), waren. 
Um zu bestätigen, dass die inneren Uhr tatsächlich einen regulatorischen Einfluss auf die ausgemachten Stoffwechselwege hat, wurden anschließend die Spiegel aller Mitglieder darauf hin untersucht, ob diese wiederkehrende, tageszeitabhängige Schwankungen aufweisen. Hierfür wurden Proben alle zwei Stunden über drei aufeinanderfolgende Tage genommen und analysiert, bevor mittels JTK_CYCLE eine statistische Analyse der Daten durchgeführt und die Metaboliten herausgefiltert wurden, die ein rhythmisches Verhalten bei einer Periodenlänge von 24h zeigten. Hierbei bestätigte sich, dass besonders die Mitglieder des intermediären Lipidmetablismus hiervon betroffen waren. So konnten zwar auch für einige Aminosäuren robuste Rhythmen ausgemacht werden, besonders ausgeprägt waren diese jedoch erneut bei den DAGs und den ACs. Die abschließende Untersuchung letzterer unter Freilaufbedingungen (DD) sowie in per01 brachte hervor, dass die ausgemachten Rhythmen unter diesen Bedingungen entweder nicht mehr detektiert werden konnten oder deutlich abgeschwächt vorlagen. Lediglich zwei kurzkettige ACs zeigten auch unter DD-Bedingungen statistisch signifikante Rhythmen in ihren Spiegeln. Dies spricht dafür, dass neben der Regulation durch die innere Uhr weitere Faktoren, wie beispielsweise das Licht, eine entscheidende Rolle zu spielen scheinen.
N2  - The ability to adapt to the rotation of the earth and to the resulting day and night rhythm is based on a complex regulation of various endogenous processes. At the molecular level, these processes are based on an orchestration of clock genes - also known as the endogenous clock – which have an activating or repressing influence on the expression of diverse clock-controlled genes. Based on this regulation, recurring rhythms depending on the time of day can be observed at various levels, ranging from gene expression to behavior. While these recurring rhythms have been well characterized on certain output levels, little is known, however, on other levels like their influence on metabolism. Drosophila for example, is an organism whose endogenous clock is probably best characterized at the molecular level. However, little is known about substance classes and metabolic pathways that are controlled by the endogenous clock.
It has already been shown that an impaired endogenous clock affects energy storage, but how an impaired clock influences intermediary lipid metabolism remains still unknown. Additionally, little is known on metabolites or metabolite classes, that display recurring, time-dependent rhythms. So far this has only been studied for certain metabolites or metabolite classes. Therefore, we compared global metabolite profiles at two timepoints between flies with an impaired endogenous clock (per01) and WT flies, possessing a functional clock (CantonS). In order to reduce the number of different tissues studied at once and thus the complexity of the sample, fly heads were separated from fly bodies and analyzed separately. In both body parts levels of small hydrophilic and hydrophobic metabolites were studied using UPLC-ESI-qTOF-MS. The subsequent statistical analysis revealed differences between the two fly lines, associated with the metabolism of essential amino acids, kynurenines, pterinates, glycero(phospho)lipids and fatty acid esters. Closer inspection of the lipid classes being affected revealed, that the effects were less pronounced for the formation of storage- and structural- lipids, compared to the intermediates of lipid degradation, the diacylglycerols (DAGs) and acylcarnitines (ACs). 
In order to confirm that the endogenous clock has indeed a regulatory influence on these metabolic pathways, the levels of all members were studied in a time-course experiment to determine, whether they display recurring, time-of-day-dependent fluctuations. For this purpose, samples were taken every two hours for three consecutive days, with heads and bodies analyzed separately, before a statistical analysis was carried out using JTK_CYCLE. The results were then filtered for those metabolites that showed a rhythmic behavior with a period length of 24 hours. The results confirmed that members of the intermediary lipid metabolism were particularly affected. Although robust rhythms could be detected for some amino acids, multiple DAG and AC species showed even more pronounced rhythms. The subsequent analysis of the latter under freerunning conditions (DD) and in per01 showed that the identified rhythms either diminished completely under these conditions or were significantly weakened. Only two short-chain ACs showed statistically significant rhythms in their levels under DD conditions. This suggests that in addition to regulation by the internal clock, other factors, such as light, seem to play a crucial role.
KW  - Drosophila
KW  - Lipidomik
KW  - LC-MS
KW  - Biochemische Analyse
KW  - Tagesrhythmus
KW  - QTOF
KW  - metabolomics
KW  - circadian rhythms
KW  - Metabolomik
Y1  - 2022
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-251908
ER  - 
TY  - JOUR
A1  - Balonov, Ilja
A1  - Kurlbaum, Max
A1  - Koschker, Ann-Cathrin
A1  - Stier, Christine
A1  - Fassnacht, Martin
A1  - Dischinger, Ulrich
T1  - Changes in plasma metabolomic profile following bariatric surgery, lifestyle intervention or diet restriction — insights from human and rat studies
JF  - International Journal of Molecular Sciences
N2  - Although bariatric surgery is known to change the metabolome, it is unclear if this is specific for the intervention or a consequence of the induced bodyweight loss. As the weight loss after Roux-en-Y Gastric Bypass (RYGB) can hardly be mimicked with an evenly effective diet in humans, translational research efforts might be helpful. A group of 188 plasma metabolites of 46 patients from the randomized controlled Würzburg Adipositas Study (WAS) and from RYGB-treated rats (n = 6) as well as body-weight-matched controls (n = 7) were measured using liquid chromatography tandem mass spectrometry. WAS participants were randomized into intensive lifestyle modification (LS, n = 24) or RYGB (OP, n = 22). In patients in the WAS cohort, only bariatric surgery achieved a sustained weight loss (BMI −34.3% (OP) vs. −1.2% (LS), p ≤ 0.01). An explicit shift in the metabolomic profile was found in 57 metabolites in the human cohort and in 62 metabolites in the rodent model. Significantly higher levels of sphingolipids and lecithins were detected in both surgical groups but not in the conservatively treated human and animal groups. RYGB leads to a characteristic metabolomic profile, which differs distinctly from that following non-surgical intervention. Analysis of the human and rat data revealed that RYGB induces specific changes in the metabolome independent of weight loss.
KW  - metabolomics
KW  - phosphatidylcholines
KW  - sphingolipids
KW  - branched-chain amino acids
KW  - obesity
KW  - Roux-en-Y Gastric Bypass
KW  - rodent model
KW  - insulin resistance
Y1  - 2023
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-304462
SN  - 1422-0067
VL  - 24
IS  - 3
ER  - 
TY  - JOUR
A1  - Cheng, Cheng
A1  - MacIntyre, Lynsey
A1  - Ramadan Abdelmohsen, Usama
A1  - Horn, Hannes
A1  - Polymenakou, Paraskevi N.
A1  - Edrada-Ebel, RuAngelie
A1  - Hentschel, Ute
T1  - Biodiversity, Anti-Trypanosomal Activity Screening, and Metabolomic Profiling of Actinomycetes Isolated from Mediterranean Sponges
JF  - PLoS One
N2  - Marine sponge–associated actinomycetes are considered as promising sources for the discovery of novel biologically active compounds. In the present study, a total of 64 actinomycetes were isolated from 12 different marine sponge species that had been collected offshore the islands of Milos and Crete, Greece, eastern Mediterranean. The isolates were affiliated to 23 genera representing 8 different suborders based on nearly full length 16S rRNA gene sequencing. Four putatively novel species belonging to genera Geodermatophilus, Microlunatus, Rhodococcus and Actinomycetospora were identified based on a 16S rRNA gene sequence similarity of < 98.5% to currently described strains. Eight actinomycete isolates showed bioactivities against Trypanosma brucei brucei TC221 with half maximal inhibitory concentration (IC50) values <20 μg/mL. Thirty four isolates from the Milos collection and 12 isolates from the Crete collection were subjected to metabolomic analysis using high resolution LC-MS and NMR for dereplication purposes. Two isolates belonging to the genera Streptomyces (SBT348) and Micromonospora (SBT687) were prioritized based on their distinct chemistry profiles as well as their anti-trypanosomal activities. These findings demonstrated the feasibility and efficacy of utilizing metabolomics tools to prioritize chemically unique strains from microorganism collections and further highlight sponges as rich source for novel and bioactive actinomycetes.
KW  - streptomyces
KW  - drug metabolism
KW  - metabolites
KW  - ribosomal RNA
KW  - metabolomics
KW  - actinobacteria
KW  - sponges
KW  - secondary metabolites
Y1  - 2015
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-125138
VL  - 10
IS  - 9
ER  -