TY - JOUR A1 - Bensaad, Karim A1 - Favaro, Elena A1 - Lewis, Caroline A. A1 - Peck, Barrie A1 - Lord, Simon A1 - Collins, Jennifer M. A1 - Pinnick, Katherine E. A1 - Wigfield, Simon A1 - Buffa, Francesca M. A1 - Li, Ji-Liang A1 - Zhang, Qifeng A1 - Wakelam, Michael J. O. A1 - Karpe, Fredrik A1 - Schulze, Almut A1 - Harris, Adrian L. T1 - Fatty Acid Uptake and Lipid Storage Induced by HIF-1 alpha Contribute to Cell Growth and Survival after Hypoxia-Reoxygenation JF - Cell Reports N2 - An in vivo model of antiangiogenic therapy allowed us to identify genes upregulated by bevacizumab treatment, including Fatty Acid Binding Protein 3 (FABP3) and FABP7, both of which are involved in fatty acid uptake. In vitro, both were induced by hypoxia in a hypoxia-inducible factor-1 alpha (HIF-1 alpha)-dependent manner. There was a significant lipid droplet (LD) accumulation in hypoxia that was time and O-2 concentration dependent. Knockdown of endogenous expression of FABP3, FABP7, or Adipophilin (an essential LD structural component) significantly impaired LD formation under hypoxia. We showed that LD accumulation is due to FABP3/7-dependent fatty acid uptake while de novo fatty acid synthesis is repressed in hypoxia. We also showed that ATP production occurs via beta-oxidation or glycogen degradation in a cell-type-dependent manner in hypoxia-reoxygenation. Finally, inhibition of lipid storage reduced protection against reactive oxygen species toxicity, decreased the survival of cells subjected to hypoxia-reoxygenation in vitro, and strongly impaired tumorigenesis in vivo. KW - inducible factor-I KW - binding protein KW - triglyceride accumulation KW - cancer cell KW - complex-III KW - beta-oxidation KW - metabolism KW - lipogenesis KW - proliferation KW - resistance Y1 - 2014 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-115162 SN - 2211-1247 VL - 9 IS - 1 ER - TY - JOUR A1 - Strunz, Patrick-Pascal A1 - Vuille-Dit-Bille, Raphael N. A1 - Fox, Mark R. A1 - Geier, Andreas A1 - Maggiorini, Marco A1 - Gassmann, Max A1 - Fruehauf, Heiko A1 - Lutz, Thomas A. A1 - Goetze, Oliver T1 - Effect of high altitude on human postprandial \(^{13}\)C-octanoate metabolism, intermediary metabolites, gastrointestinal peptides, and visceral perception JF - Neurogastroenterology and Motility N2 - Objective At high altitude (HA), acute mountain sickness (AMS) is accompanied by neurologic and upper gastrointestinal symptoms (UGS). The primary aim of this study was to test the hypothesis that delayed gastric emptying (GE), assessed by \(^{13}\)C-octanoate breath testing (OBT), causes UGS in AMS. The secondary aim was to assess post-gastric mechanisms of OBT, which could confound results under these conditions, by determination of intermediary metabolites, gastrointestinal peptides, and basal metabolic rate. Methods A prospective trial was performed in 25 healthy participants (15 male) at 4559 m (HA) and at 490 m (Zurich). GE was assessed by OBT (428 kcal solid meal) and UGS by visual analogue scales (VAS). Blood sampling of metabolites (glucose, free fatty acids (FFA), triglycerides (TG), beta-hydroxyl butyrate (BHB), L-lactate) and gastrointestinal peptides (insulin, amylin, PYY, etc.) was performed as well as blood gas analysis and spirometry. Statistical analysis: variance analyses, bivariate correlation, and multilinear regression analysis. Results After 24 h under hypoxic conditions at HA, participants developed AMS (p < 0.001). \(^{13}\)CO\(_{2}\) exhalation kinetics increased (p < 0.05) resulting in reduced estimates of gastric half-emptying times (p < 0.01). However, median resting respiratory quotients and plasma profiles of TG indicated that augmented beta-oxidation was the main predictor of accelerated \(^{13}\)CO\(_{2}\)-generation under these conditions. Conclusion Quantification of \(^{13}\)C-octanoate oxidation by a breath test is sensitive to variation in metabolic (liver) function under hypoxic conditions. \(^{13}\)C-breath testing using short-chain fatty acids is not reliable for measurement of gastric function at HA and should be considered critically in other severe hypoxic conditions, like sepsis or chronic lung disease. KW - acute hypobaric hypoxia KW - beta-oxidation KW - gastric emptying KW - stable isotope breath tests Y1 - 2022 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-259611 VL - 34 IS - 3 ER - TY - THES A1 - Weil, Kerstin T1 - 3-(R)-Hydroxysäuren als Produkte selektiven Fettsäureabbaus T1 - -(R)-hydroxy acids as products of a selective degradation of fatty acids N2 - In der vorliegenden Arbeit werden Studien zur selektiven bakteriellen Hydroxylierung von Fettsäuren vorgestellt. Unter Verwendung von Linolsäure als Substrat wurden aus Bodenproben verschiedene Mikroorganismen isoliert, die polare Metabolite bildeten. Die phänotypische und genotypische Charakterisierung eines Stammes führte zu dessen Identifizierung als Stenotrophomonas maltophilia. Die Strukturaufklärung der drei Hauptreaktionsprodukte erfolgte mittels Hochleistungsflüssigchromatographie-Massenspektrometrie (HPLC-MS), Gaschromatographie-Massenspektrometrie (GC-MS) sowie ein- und zweidimensionalen NMR-Experimenten (1H-NMR, 13C-NMR, 13C-DEPT, H/H-COSY, HMQC, HMBC). Linolsäure wurde von Stenotrophomonas maltophilia zu 3-Hydroxy-Z6-dodecensäure, 3-Hydroxy-Z5,Z8-tetradecadiensäure und 3-Hydroxy-Z7,Z10-hexadecadiensäure umgesetzt. In einem anschließenden Substratscreening wurden 32 Verbindungen als Edukte für die Biotransformation eingesetzt und so die strukturellen Voraussetzungen ermittelt, die für eine effiziente Umsetzung von Fettsäuren durch Stenotrophomonas maltophilia notwendig sind. Zum Einsatz kamen Substrate mit unterschiedlicher Anzahl an C-Atomen sowie mit Variationen bezüglich Anzahl, Position und Konformation von Doppelbindungen. Weiterhin wurden Substanzen verwendet, die bereits funktionelle Gruppen im Molekül aufwiesen (z. B. Ricinolsäure). Die Bestimmung der Enantiomerenverteilung der bakteriell gebildeten 3-Hydroxysäuren mittels multidimensionaler Gaschromatographie (MDGC) ergab einen deutlichen Enantiomerenüberschuss (ee 84 – 98 Prozent). Die Aufklärung der Absolutkonfiguration erfolgte über die Synthese von Dodecan-1,3-diolen und deren anschließende Analytik mittels MDGC. Zusätzlich wurde die Konfiguration mit Hilfe der CD Exciton Chirality-Methode bestimmt. Weiterhin wurde untersucht, ob die bakteriell gebildeten 3-Hydroxysäuren als Substrate oder Inhibitoren des Enzyms Lipoxygenase L-1 aus Sojabohnen fungieren. Die im Rahmen dieser Arbeit durchgeführten Studien zur Darstellung von optisch aktiven 3-Hydroxysäuren belegen das Potential des Bodenbakteriums Stenotrophomonas maltophilia, exogen zugeführte Fettsäuren im Rahmen der b-Oxidation zu kettenverkürzten, an Position 3 hydroxylierten Metaboliten abzubauen. Dabei liegen jedoch deutliche Abweichungen zur b-Oxidation in anderen Organismen vor, die auf Unterschieden in der Enzymausstattung bzw. deren Aktivität beruhen. Durch die gewonnenen Erkenntnisse zum b-Oxidationsmechanismus in Stenotrophomonas maltophilia kann diese Aktivität durch geeignete Substratauswahl gezielt zur Synthese von optisch aktiven 3-Hydroxysäuren eingesetzt werden, deren chemische Synthese gegenüber dieser Biotransformation deutlich schwieriger zu realisieren ist. Für solche Verbindungen besteht in der organischen Synthese von Naturstoffen wie Pheromonen, Vitaminen und Antibiotika Bedarf. N2 - The available work presents studies on the selective bacterial hydroxylation of fatty acids. In a screening procedure using linoleic acid as substrate different microorganisms were isolated from soil samples and tested for their ability to form polar products. The phenotypic and genotypic characterisation of one of these strains led to its identification as Stenotrophomonas maltophilia. Structure elucidation of the three major reaction products was carried out by high performance liquid chromatography-mass spectrometry, gas chromatography-mass spectrometry as well as one and two-dimensional NMR experiments (1H-NMR, 13C-NMR, 13C-DEPT, H/H COSY, HMQC, HMBC). Linoleic acid was converted by Stenotrophomonas maltophilia 3-hydroxy-Z6-dodecenoic acid, 3-hydroxy-Z5,Z8-tetradecadienoic acid and 3-hydroxy-Z7,Z10-hexadecadienoic acid. In a following screening 32 compounds were used as substrates for the biotransformation to determine the structural prerequisites, which are necessary for an efficient conversion of fatty acids by Stenotrophomonas maltophilia. On the basis of the results obtained with linoleic acid further fatty acids with 18 carbon atoms differing in number, position and configuration of available double bonds were used. Further compounds with differing chain length as well as substrates already containing functional groups were employed. Determination of the enantiomeric composition of the bacterially formed 3-hydroxy-acids by multidimensional gas chromatography (MDGC) resulted in a clear dominance of one of the enantiomers (ee 84 - 98 Prozent). Assigning the absolute configuration was carried out by syntheses of dodecane-1,3-diols and their analysis by MDGC. In addition, the CD exciton chirality method was applied to determine the absolute configuration of eight biotransformation products with different structural properties such as number and position of available double bonds. Kinetic studies using lipoxygenase L-1 from soy beans showed that the bacterial products neither act as substrates nor as inhibitors of this enzyme. The studies regarding the synthesis of optically active 3-hydroxy acids, executed in the context of this work, demonstrated the potential of the soil bacterium Stenotrophomonas maltophilia, to degrade exogenously supplied fatty acids to chain-shortened hydroxylated metabolites by b-oxidation. Clear deviations to the b-oxidation in other organisms are present, which are based on differences in the enzyme equipment or their activity. Based on the achieved results concerning the mechanism of b-oxidation in Stenotrophomonas maltophilia this activity can be used for the synthesis of optically active 3-hydroxy acids whose chemical synthesis is more difficult in relation to this biotransformation. For such compounds requirement exists in the organic synthesis of natural substances such as pheromones, vitamins and antibiotics. KW - Bodenbakterien KW - Hydroxycarbonsäuren KW - Fettabbau KW - 3-(R)-Hydroxysäuren KW - Fettsäuren KW - Fettsäureabbau KW - beta-Oxidation KW - Biotransformation KW - Mikroorganismen KW - Stenotrophomonas maltophilia KW - 3-(R)-hydroxy acids KW - fatty acids KW - degradation of fatty acids KW - beta-oxidation KW - biotransformation KW - mikroorganisms KW - Stenotrophomonas maltophilia Y1 - 2001 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-1181440 ER -