TY - THES A1 - Baeseler, Jessica T1 - Trace element effects on longevity and neurodegeneration with focus on C. elegans T1 - Effekte von Spurenelementen auf die Lebensdauer und Neurodegeneration mit Fokus auf C. elegans N2 - The trace elements zinc and manganese are essential for human health, especially due to their enzymatic and protein stabilizing functions. If these elements are ingested in amounts exceeding the requirements, regulatory processes for maintaining their physiological concentrations (homeostasis) can be disturbed. Those homeostatic dysregulations can cause severe health effects including the emergence of neurodegenerative disorders such as Parkinson’s disease (PD). The concentrations of essential trace elements also change during the aging process. However, the relations of cause and consequence between increased manganese and zinc uptake and its influence on the aging process and the emergence of the aging-associated PD are still rarely understood. This doctoral thesis therefore aimed to investigate the influence of a nutritive zinc and/or manganese oversupply on the metal homeostasis during the aging process. For that, the model organism Caenorhabditis elegans (C. elegans) was applied. This nematode suits well as an aging and PD model due to properties such as its short life cycle and its completely sequenced, genetically amenable genome. Different protocols for the propagation of zinc- and/or manganese-supplemented young, middle-aged and aged C. elegans were established. Therefore, wildtypes, as well as genetically modified worm strains modeling inheritable forms of parkinsonism were applied. To identify homeostatic and neurological alterations, the nematodes were investigated with different methods including the analysis of total metal contents via inductively-coupled plasma tandem mass spectrometry, a specific probe-based method for quantifying labile zinc, survival assays, gene expression analysis as well as fluorescence microscopy for the identification and quantification of dopaminergic neurodegeneration.. During aging, the levels of iron, as well as zinc and manganese increased.. Furthermore, the simultaneous oversupply with zinc and manganese increased the total zinc and manganese contents to a higher extend than the single metal supplementation. In this relation the C. elegans metallothionein 1 (MTL-1) was identified as an important regulator of metal homeostasis. The total zinc content and the concentration of labile zinc were age-dependently, but differently regulated. This elucidates the importance of distinguishing these parameters as two independent biomarkers for the zinc status. Not the metal oversupply, but aging increased the levels of dopaminergic neurodegeneration. Additionally, nearly all these results yielded differences in the aging-dependent regulation of trace element homeostasis between wildtypes and PD models. This confirms that an increased zinc and manganese intake can influence the aging process as well as parkinsonism by altering homeostasis although the underlying mechanisms need to be clarified in further studies. N2 - Die Spurenelemente Zink und Mangan sind vor allem aufgrund ihrer enzymatischen und Protein-stabilisierenden Funktionen essentiell für die menschliche Gesundheit. Werden sie allerdings in Mengen aufgenommen, die den Bedarf übersteigen, können regulatorische Prozesse für die Aufrechterhaltung physiologischer Konzentrationen dieser Metalle (Homöostase) aus dem Gleichgewicht geraten. Das kann ernsthafte gesundheitliche Konsequenzen nach sich ziehen, unter anderem die Entstehung neurodegenerativer Krankheiten, wie zum Beispiel der Parkinson’schen Erkrankung. Auch während des Alterungsprozesses verändern sich die Gehalte an lebensnotwendigen Spurenelementen im Körper. Jedoch sind die Zusammenhänge zwischen Ursache und Wirkung einer erhöhten Aufnahme an Zink und Mangan und deren Einfluss auf den Alterungsprozess und die Entstehung der altersassoziierten Parkinson’schen Erkrankung bisher nur unzureichend verstanden. Im Rahmen dieser Doktorarbeit wurde deshalb der Einfluss einer nutritiven Zink- und/oder Manganüberversorgung auf die Metallhomöostase während der Alterung untersucht. Dazu wurde Caenorhabditis elegans (C. elegans) als Modellorganismus verwendet. Diese Fadenwürmer eignen sich aufgrund verschiedener Eigenschaften, wie einem kurzen Lebenszyklus und einem komplett sequenzierten und leicht manipulierbarem Genom, hervorragend als Alters- und Parkinson-Modelle. Es wurden verschiedene Protokolle etabliert, die die Anzucht von Zink- und/oder Mangan-supplementierten jungen, mittelalten bzw. gealterten C. elegans erlaubten. Neben Wildtypen wurden auch Wurmstämme untersucht, die genetische Modifikationen aufweisen, die mit vererbbaren Formen des Parkinsonismus assoziiert werden können. Die Würmer wurden mithilfe verschiedener Methoden, wie der analytischen Bestimmung des Gesamtmetallgehaltes mittels Massenspektrometrie mit induktiv-gekoppeltem Plasma, einer Sonden-spezifischen Methode zur Bestimmung von freiem Zink, Letalitätsassays, Genexpressionsanalysen und der Fluoreszenz-mikroskopischen Untersuchung der dopaminergen Neurodegeneration auf verschiedene Parameter untersucht, die Aufschluss über homöostatische und neurologische Veränderungen geben. Es wurde eine altersbedingte Zunahme von Eisen, sowie Zink und Mangan in den Würmern beobachtet. Weiterhin stellte sich heraus, dass vor allem die simultane Überversorgung mit Zink und Mangan den Gesamtmetallgehalt dieser Metalle in C. elegans in einem Maß steigerte, das das der Einzelmetallsupplementierung überstieg. Dabei konnte vor allem das C. elegans Metallothionein 1 (MTL-1) als wichtiger Faktor in der Regulation der Metallhomöostase identifiziert werden. Außerdem wurde die Wichtigkeit verdeutlicht, zwischen dem Gesamtzinkgehalt und der Konzentration an freiem Zink als Biomarkern für den Zinkstatus eines Organismus zu unterscheiden. Beide Parameter wurden altersabhängig unterschiedlich reguliert. Im Gegensatz zur Alterung, wurde durch die Überversorgung mit Metallen keine zusätzliche Schädigung der dopaminergen Neuronen beobachtet. In nahezu all diesen Ergebnissen verdeutlichten sich weiterhin Unterschiede in der altersabhängigen Regulation der Spurenelementhomöostase zwischen Wildtypen und Parkinson-Modellen. Dies bestätigt die Annahme, dass sich eine erhöhte Aufnahme von Mangan und Zink durch die Beeinflussung der Homöostase sowohl auf die Alterung, als auch den Parkinsonismus auswirken kann, jedoch müssen die mechanistischen Grundlagen dessen in zukünftigen Studien aufgeklärt werden. KW - Caenorhabditis elegans KW - aging KW - trace element KW - zinc KW - manganese KW - Caenorhabditis elegans KW - Alterung KW - Spurenelement KW - Zink KW - Mangan Y1 - 2021 ER - TY - THES A1 - Vogel, Heike T1 - Genetics of obesity and type 2 diabetes N2 - By using mouse outcross populations in combination with bioinformatic approaches, it was possible to identify and characterize novel genes regulating body weight, fat mass and β-cell function, which all contribute to the pathogenesis of obesity and T2D. In detail, the presented studies identified 1. Ifi202b/IFI16 as adipogenic gene involved in adipocyte commitment, maintenance of white adipocyte identity, fat cell size and the inflammatory state of adipose tissue. 2. Pla2g4a/PLA2G4A as gene linked to increased body weight and fat mass with a higher expression in adipose tissue of obese mice and pigs as well as in obese human subjects. 3. Ifgga2/IRGM as novel regulator of lipophagy protecting from excess hepatic lipid accumulation. 4. Nidd/DBA as a diabetogenic locus containing Kti12, Osbpl9, Ttc39a and Calr4 with differential expression in pancreatic islets and/or genetic variants. 5. miR-31 to be higher expressed in adipose tissue of obese and diabetic mice and humans targeting PPARy and GLUT4 and thereby involved in adipogenesis and insulin signaling. 6. Gjb4 as novel gene triggering the development of T2D by reducing insulin secretion, inducing apoptosis and inhibiting proliferation. The performed studies confirmed the complexity and strong genetic heritability character of obesity and T2D. A high number of genetic variations, each with a small effect, are collectively influencing the degree and severity of the disease. The use of mouse outcross populations is a valid tool for disease gene identification; however, to facilitate and accelerate the process of gene identification the combination of mouse cross data with advanced sequencing resources and the publicly available data sets are essential. The main goal for future studies should be the translation of these novel molecular discoveries to useful treatment therapies. More recently, several classes of novel unimolecular combination therapeutics have emerged with superior efficacy than currently prescribed options and pose the potential to reverse obesity and T2D (Finan et al., 2015). The glucagon-like peptide-1 (GLP-1)- estrogen conjugate, which targets estrogen into cells expressing GLP-1 receptors, was shown to improve energy, glucose and lipid metabolism as well as to reduce food reward (Finan et al., 2012; Schwenk et al., 2014; Vogel et al., 2016). Another possibility is the development of miRNA-based therapeutics to prevent obesity and T2D, such as miRNA mimetics, anti-miRNA oligonucleotides and exosomes loaded with miRNAs (Ji and Guo, 2019; Gottmann et al., 2020). As already described, genome-wide association studies for polygenic obesity and T2D traits in humans have also led to the identification of numerous gene variants with modest effect, most of them having an unknown function (Yazdi et al., 2015). These discoveries resulted in novel animal models and have illuminated new biologic pathways. Therefore, the integration of mouse-human genetic approaches and the utilization of the synergistic effects have the potential to lead to the identification of more genes responsible for common Mendelian forms of obesity and T2D, as well as gene × gene and gene × environment interactions (Yazdi et al., 2015; Ingelsson and McCarthy, 2018). This combination may help to unravel the missing heritability of obesity and T2D, to identify novel drug targets and to design more efficient and personalized obesity prevention and management programs. Y1 - 2021 CY - Potsdam ER - TY - JOUR A1 - Tchewonpi Sagu, Sorel A1 - Landgräber, Eva A1 - Henkel, Ina M. A1 - Huschek, Gerd A1 - Homann, Thomas A1 - Bußler, Sara A1 - Schlüter, Oliver K. A1 - Rawel, Harshadrai Manilal T1 - Effect of cereal α-amylase/trypsin inhibitors on developmental characteristics and abundance of digestive enzymes of mealworm larvae (Tenebrio molitor L.) JF - Insects N2 - The objective of this work was to investigate the potential effect of cereal α-amylase/trypsin inhibitors (ATIs) on growth parameters and selective digestive enzymes of Tenebrio molitor L. larvae. The approach consisted of feeding the larvae with wheat, sorghum and rice meals containing different levels and composition of α-amylase/trypsin inhibitors. The developmental and biochemical characteristics of the larvae were assessed over feeding periods of 5 h, 5 days and 10 days, and the relative abundance of α-amylase and selected proteases in larvae were determined using liquid chromatography tandem mass spectrometry. Overall, weight gains ranged from 21% to 42% after five days of feeding. The larval death rate significantly increased in all groups after 10 days of feeding (p < 0.05), whereas the pupation rate was about 25% among larvae fed with rice (Oryza sativa L.) and Siyazan/Esperya wheat meals, and only 8% and 14% among those fed with Damougari and S35 sorghum meals. As determined using the Lowry method, the protein contents of the sodium phosphate extracts ranged from 7.80 ± 0.09 to 9.42 ± 0.19 mg/mL and those of the ammonium bicarbonate/urea reached 19.78 ± 0.16 to 37.47 ± 1.38 mg/mL. The total protein contents of the larvae according to the Kjeldahl method ranged from 44.0 and 49.9 g/100 g. The relative abundance of α-amylase, CLIP domain-containing serine protease, modular serine protease zymogen and C1 family cathepsin significantly decreased in the larvae, whereas dipeptidylpeptidase I and chymotrypsin increased within the first hours after feeding (p < 0.05). Trypsin content was found to be constant independently of time or feed material. Finally, based on the results we obtained, it was difficult to substantively draw conclusions on the likely effects of meal ATI composition on larval developmental characteristics, but their effects on the digestive enzyme expression remain relevant. KW - growth behavior KW - Tenebrio molitor larvae KW - feeding KW - cereal meals KW - α-amylase/trypsin inhibitors KW - digestive enzymes quantification KW - LC-MS/MS Y1 - 2021 U6 - https://doi.org/10.3390/insects12050454 SN - 2075-4450 VL - 12 IS - 5 PB - MDPI CY - Basel ER - TY - JOUR A1 - Sagu Tchewonpi, Sorel A1 - Huschek, Gerd A1 - Homann, Thomas A1 - Rawel, Harshadrai Manilal T1 - Effect of sample preparation on the detection and quantification of selected nuts allergenic proteins by LC-MS/MS JF - Molecules : a journal of synthetic chemistry and natural product chemistry / Molecular Diversity Preservation International N2 - The detection and quantification of nut allergens remains a major challenge. The liquid chroma-tography tandem mass spectrometry (LC-MS/MS) is emerging as one of the most widely used methods, but sample preparation prior to the analysis is still a key issue. The objective of this work was to establish optimized protocols for extraction, tryptic digestion and LC-MS analysis of almond, cashew, hazelnut, peanut, pistachio and walnut samples. Ammonium bicar-bonate/urea extraction (Ambi/urea), SDS buffer extraction (SDS), polyvinylpolypyrroli-done (PVPP) extraction, trichloroacetic acid/acetone extraction (TCA/acetone) and chloro-form/methanol/sodium chloride precipitation (CM/NaCl) as well as the performances of con-ventional tryptic digestion and microwave-assisted breakdown were investigated. Overall, the protein extraction yields ranged from 14.9 ± 0.5 (almond extract from CM/NaCl) to 76.5 ± 1.3% (hazelnut extract from Ambi/urea). Electrophoretic profiling showed that the SDS extraction method clearly presented a high amount of extracted proteins in the range of 0–15 kDa, 15–35 kDa, 35–70 kDa and 70–250 kDa compared to the other methods. The linearity of the LC-MS methods in the range of 0 to 0.4 µg equivalent defatted nut flour was assessed and recovery of internal standards GWGG and DPLNV(d8)LKPR ranged from 80 to 120%. The identified bi-omarkers peptides were used to relatively quantifier selected allergenic protein form the inves-tigated nut samples. Considering the overall results, it can be concluded that SDS buffer allows a better protein extraction from almond, peanut and walnut samples while PVPP buffer is more appropriate for cashew, pistachio and hazelnut samples. It was also found that conventional overnight digestion is indicated for cashew, pistachio and hazelnut samples, while microwave assisted tryptic digestion is recommended for almond, hazelnut and peanut extracts. KW - nut allergenic proteins KW - protein extraction KW - sample preparation KW - tryptic digestion KW - microwave assisted digestion KW - SDS PAGE KW - LC-MS/MS Y1 - 2021 U6 - https://doi.org/10.3390/molecules26154698 SN - 1420-3049 VL - 26 IS - 15 PB - MDPI CY - Basel ER - TY - JOUR A1 - de Pinho Tavares Leal, Pedro Ernesto A1 - da Silva, Alexandre Alves A1 - Rocha-Gomes, Arthur A1 - Riul, Tania Regina A1 - Cunha, Rennan Augusto A1 - Reichetzeder, Christoph A1 - Villela, Daniel Campos T1 - High-Salt Diet in the Pre- and Postweaning Periods Leads to Amygdala Oxidative Stress and Changes in Locomotion and Anxiety-Like Behaviors of Male Wistar Rats JF - Frontiers in Behavioral Neuroscience N2 - High-salt (HS) diets have recently been linked to oxidative stress in the brain, a fact that may be a precursor to behavioral changes, such as those involving anxiety-like behavior. However, to the best of our knowledge, no study has evaluated the amygdala redox status after consuming a HS diet in the pre- or postweaning periods. This study aimed to evaluate the amygdala redox status and anxiety-like behaviors in adulthood, after inclusion of HS diet in two periods: preconception, gestation, and lactation (preweaning); and only after weaning (postweaning). Initially, 18 females and 9 male Wistar rats received a standard (n = 9 females and 4 males) or a HS diet (n = 9 females and 5 males) for 120 days. After mating, females continued to receive the aforementioned diets during gestation and lactation. Weaning occurred at 21-day-old Wistar rats and the male offspring were subdivided: control-control (C-C)—offspring of standard diet fed dams who received a standard diet after weaning (n = 9–11), control-HS (C-HS)—offspring of standard diet fed dams who received a HS diet after weaning (n = 9–11), HS-C—offspring of HS diet fed dams who received a standard diet after weaning (n = 9–11), and HS-HS—offspring of HS diet fed dams who received a HS diet after weaning (n = 9–11). At adulthood, the male offspring performed the elevated plus maze and open field tests. At 152-day-old Wistar rats, the offspring were euthanized and the amygdala was removed for redox state analysis. The HS-HS group showed higher locomotion and rearing frequency in the open field test. These results indicate that this group developed hyperactivity. The C-HS group had a higher ratio of entries and time spent in the open arms of the elevated plus maze test in addition to a higher head-dipping frequency. These results suggest less anxiety-like behaviors. In the analysis of the redox state, less activity of antioxidant enzymes and higher levels of the thiobarbituric acid reactive substances (TBARS) in the amygdala were shown in the amygdala of animals that received a high-salt diet regardless of the period (pre- or postweaning). In conclusion, the high-salt diet promoted hyperactivity when administered in the pre- and postweaning periods. In animals that received only in the postweaning period, the addition of salt induced a reduction in anxiety-like behaviors. Also, regardless of the period, salt provided amygdala oxidative stress, which may be linked to the observed behaviors. KW - high-sodium KW - open-field KW - elevated plus-maze KW - pre-natal KW - post-natal KW - redox state Y1 - 2022 U6 - https://doi.org/10.3389/fnbeh.2021.779080 SN - 1662-5153 VL - 15 SP - 1 EP - 12 PB - Frontiers Research Foundation CY - Lausanne, Schweiz ER - TY - THES A1 - Reichmann, Robin T1 - Novel applications of machine learning techniques in epidemiology of age-related diseases BT - from multidimensional data modelling to risk prediction Y1 - 2021 ER - TY - THES A1 - Laeger, Thomas T1 - Protein-dependent regulation of feeding, metabolism, and development of type 2 diabetes T1 - Proteinabhängige Regulation der Nahrungsaufnahme und des Metabolismus sowie Entstehung des Typ-2-Diabetes BT - FGF21’s biological role BT - die Rolle von FGF21 N2 - Food intake is driven by the need for energy but also by the demand for essential nutrients such as protein. Whereas it was well known how diets high in protein mediate satiety, it remained unclear how diets low in protein induce appetite. Therefore, this thesis aims to contribute to the research area of the detection of restricted dietary protein and adaptive responses. This thesis provides clear evidence that the liver-derived hormone fibroblast growth factor 21 (FGF21) is an endocrine signal of a dietary protein restriction, with the cellular amino acid sensor general control nonderepressible 2 (GCN2) kinase acting as an upstream regulator of FGF21 during protein restriction. In the brain, FGF21 is mediating the protein-restricted metabolic responses, e.g. increased energy expenditure, food intake, insulin sensitivity, and improved glucose homeostasis. Furthermore, endogenous FGF21 induced by dietary protein or methionine restriction is preventing the onset of type 2 diabetes in the New Zealand Obese mouse. Overall, FGF21 plays an important role in the detection of protein restriction and macronutrient imbalance in rodents and humans, and mediates both the behavioral and metabolic responses to dietary protein restriction. This makes FGF21 a critical physiological signal of dietary protein restriction, highlighting the important but often overlooked impact of dietary protein on metabolism and eating behavior, independent of dietary energy content. N2 - Die Nahrungsaufnahme wird nicht nur durch den Bedarf an Energie, sondern auch durch den Bedarf an essenziellen Nährstoffen wie z. B. Protein bestimmt. Es war zwar bekannt, wie proteinreiche Nahrung eine Sättigung vermittelt, jedoch war unklar, wie eine proteinarme Ernährung den Appetit anregt. Ziel dieser Arbeit ist es daher, zu untersuchen, wie Nahrung mit einem niedrigen Proteingehalt detektiert wird und die Anpassung des Organismus im Hinblick auf den Metabolismus und das Ernährungsverhalten erfolgt. Diese Arbeit liefert klare Beweise dafür, dass das aus der Leber stammende Hormon Fibroblast growth factor 21 (FGF21) ein endokrines Signal einer Nahrungsproteinrestriktion ist, wobei der zelluläre Aminosäuresensor general control nonderepressible 2 kinase (GCN2) als Regulator von FGF21 während der Proteinrestriktion fungiert. Im Gehirn vermittelt FGF21 die durch Proteinrestriktion induzierten Stoffwechselreaktionen, z.B. den Anstieg des Energieverbrauches, die Erhöhung der Nahrungsaufnahme und eine Verbesserung der Insulinsensitivität sowie der Glukosehomöostase. Darüber hinaus schützt das durch eine protein- oder methioninarme Diät induzierte FGF21 New Zealand Obese (NZO)-Mäuse, einem Tiermodell für den humanen Typ-2-Diabetes, vor einer Diabetesentstehung. FGF21 spielt bei Nagetieren und Menschen eine wichtige Rolle hinsichtlich der Detektion einer diätetischen Proteinrestriktion sowie eines Ungleichgewichtes der Makronährstoffe zueinander und vermittelt die adaptiven Verhaltens- und Stoffwechselreaktionen. Dies macht FGF21 zu einem kritischen physiologischen Signal der Nahrungsproteinrestriktion und unterstreicht den wichtigen, aber oft übersehenen Einfluss der Nahrungsproteine auf den Stoffwechsel und das Nahrungsaufnahmeverhalten, unabhängig vom Energiegehalt der Nahrung. KW - protein restriction KW - autophagy KW - thermogenesis KW - appetite KW - hyperglycemia KW - methionine restriction KW - bone KW - FGF21 KW - energy expenditure KW - GCN2 KW - metabolism KW - food choice KW - type 2 diabetes Y1 - 2021 ER - TY - THES A1 - Herpich, Catrin T1 - Fibroblast growth factor 21 and its association with nutritional stimuli in older age N2 - Fibroblast growth differentiation factor 21 (FGF21) is known as a pivotal regulator of the glucose and lipid metabolism. As such, it is considered beneficial and has even been labelled a longevity hormone. Nevertheless, recent observational studies have shown that FGF21 is increased in higher age with possible negative effects such as loss of lean and bone mass as well as decreased survival. Hepatic FGF21 secretion can be induced by various nutritional stimuli such as starvation, high carbohydrate and fat intake as well as protein deficiency.. So far it is still unclear whether the FGF21 response to different macronutrients is altered in older age. An altered response would potentially contribute to explain the higher FGF21 concentrations found in older age. In this publication-based doctoral dissertation, a cross-sectional study as well as a dietary challenge were conducted to investigate the influence of nutrition on FGF21 concentrations and response in older age. In a cross-sectional study, FGF21 concentrations were assessed in older patients with and without cachexia anorexia syndrome anorexia syndrome compared to an older community-dwelling control group. Cachexia anorexia syndrome is a multifactorial syndrome frequently occurring in old age or in the context of an underlying disease. It is characterized by a severe involuntary weight loss, loss of appetite (anorexia) and reduced food intake, therefore representing a state of severe nutrient deficiency, in some aspects similar to starvation. The highest FGF21 concentrations were found in patients with cachexia anorexia syndrome. Moreover, FGF21 was positively correlated with weight loss and loss of appetite. In addition, cachexia anorexia syndrome itself was associated with FGF21 independent of sex, age and body mass index. As cachectic patients presumably exhibit protein malnutrition and FGF21 has been proposed a marker for protein insufficiency, the higher levels of FGF21 in patients with cachexia anorexia syndrome might be partly explained by insufficient protein intake. In order to investigate the acute response of FGF21 to different nutritional stimuli, a dietary challenge with a parallel group design was conducted. Here, healthy older (65-85 years) and younger (18-35 years) adults were randomized to one of four test meals: a dextrose drink, a high carbohydrate, high fat or high protein meal. Over the course of four hours, postprandial FGF21 concentrations (dynamics) were assessed and the FGF21 response (incremental area under the curve) to each test meal was examined.. In a sub-group of older and younger women, also the adiponectin response was investigated, as adiponectin is a known mediator of FGF21 effects on glucose and lipid metabolism. The dietary meal challenge revealed that dextrose and high carbohydrate intake result in higher FGF21 concentrations after four hours in older adults. This was partly explained by higher postprandial glucose concentrations in the old. For high fat ingestion no age differences were found. For the first time, acute FGF21 response to high protein intake was shown. Here, protein ingestion resulted in lower FGF21 concentrations in younger compared to older adults. Furthermore, sufficient protein intake, according to age-dependent recommendations, of the previous day, was associated with lower FGF21 concentrations in both age groups. The higher FGF21 response to dextrose ingestion resulted in a higher adiponectin response in older women, independent of fat mass, insulin resistance, triglyceride concentrations, inflammation and oxidative stress. Following the high fat meal, adiponectin concentrations declined in older women. Adiponectin response was not affected by meal composition in younger women. In summary, this thesis showed a positive association of FGF21 and cachexia anorexia syndrome with concomitant anorexia in older patients. Regarding the acute FGF21 response, a higher response following dextrose and carbohydrate ingestion was found in older compared with younger subjects. This might be attributed to a higher glucose response in older age. Furthermore, it was shown that the higher FGF21 response after dextrose ingestion possibly contributes to a higher adiponectin response in older women, independent of potential metabolic and inflammatory confounders. Acute protein ingestion resulted in a significant decrease in FGF21 concentrations. Moreover, protein intake of the previous day was inversely associated with fasting FGF21 concentrations. This might explain why FGF21 concentrations are higher in cachexia anorexia syndrome. These results therefore support the role of FGF21 as a sensor of protein restriction. N2 - Der Fibroblasten Wachstumsfaktor 21 (FGF21) gilt als wichtiger Regulator des Glukose- und Fettstoffwechsels. Es werden ihm verschiedene förderliche Eigenschaften zugeschrieben und er wurde darüber hinaus als Langlebigkeitshormon bezeichnet. Nichtsdestotrotz konnten Beobachtungsstudien zeigen, dass FGF21 Konzentration im Alter erhöht sind und möglicherweise mit negativen Auswirkungen, wie dem Verlust von Muskel- und Knochenmasse sowie einer geringeren Überlebenswahrscheinlichkeit, verbunden sind. FGF21 Sekretion in der Leber kann durch Hungern und verschiedene Makronährstoffe, wie hohe Kohlenhydrat- und Fettaufnahme, sowie einem Proteinmangel, induziert werden. Bisher ist jedoch unklar, ob sich die FGF21 Response auf verschiedene Makronährstoffe zwischen älteren und jüngeren Erwachsenen unterscheidet. Eine veränderte Response, könnte dazu beitragen die höheren FGF21 Konzentrationen im Alter zu erklären. In dieser vorliegenden kumulativen Dissertation wurden eine Querschnittsstudie sowie ein experimenteller Mahlzeitentest durchgeführt, um den Einfluss von Ernährung auf FGF21 Konzentrationen und die FGF21 Response im Alter zu untersuchen. In der Querschnittsstudie wurden FGF21 Konzentration von älteren PatientInnen mit und ohne Kachexie-Anorexie Syndrom sowie einer älteren Kontrollgruppe verglichen. Kachexie-Anorexie Syndrom ist ein multifaktorielles Syndrom, welches häufig im Alter und im Rahmen verschiedener Erkrankungen auftritt. Charakteristisch hierfür ist ein starker ungewollter Gewichtsverlust, Appetitverlust (Anorexie) sowie eine verminderte Nahrungsaufnahme. Daher repräsentiert das Kachexie-Anorexie Syndrom einen Zustand des schwerwiegenden Nährstoffmangels, der mit Unterernährung bei langanhaltenden Hungerphasen vergleichbar ist. Die höchsten FGF21 Konzentrationen wiesen PatientInnen mit Kachexie-Anorexie Syndrom auf. Des Weiteren korrelierte FGF21 positiv mit Gewichts- und Appetitverlust. Zusätzlich war das Kachexie-Anorexie Syndrom unabhängig von Alter, Geschlecht und BMI mit FGF21 assoziiert. Es ist davon auszugehen, dass PatientInnen mit Kachexie-Anorexie Syndrom eine unzureichende Proteinzufuhr aufweisen. Da FGF21 als Marker für Proteinrestriktion gilt, könnten die hohen FGF21 Konzentrationen bei Kachexie-Anorexie Syndrom teilweise durch eine zu geringe Proteinzufuhr erklärt werden. Um die akute Response von FGF21 auf verschiedene Makronährstoffe zu untersuchen, wurde ein Mahlzeitentest mit parallelen Gruppen durchgeführt. Hierfür erhielten ältere (65-85 Jahre) und jüngere (18-35 Jahre) Erwachsene eine von vier verschiedenen Testmahlzeiten (Dextrose Getränk, Kohlenhydrat-, Fett- und Proteinreiche Mahlzeit). Über vier Stunden wurden postprandiale FGF21 Konzentrationen (Dynamik) bestimmt und die FGF21 Response (inkrementelle Fläche unter der Kurve) auf jede Testmahlzeit untersucht. In einer Subgruppe von älteren und jüngeren Frauen wurde außerdem die Adiponektin Response bestimmt, da Adiponektin bekanntermaßen die Effekte von FGF21 auf den Glukose- und Fettstoffwechsel mediiert. Der Mahlzeitentest konnte zeigen, dass Dextrose und die kohlenhydratreiche Mahlzeit bei älteren Erwachsenen zu höheren FGF21 Konzentrationen nach vier Stunden führten. Dies könnte durch die höheren postprandialen Glukose Konzentrationen der Älteren erklärt werden. Die FGF21 Response auf die fettreiche Mahlzeit wies keine Altersunterschiede auf. Zum ersten Mal konnte die akute FGF21 Response auf eine proteinreiche Mahlzeit gezeigt werden. Hierbei führte die Mahlzeit bei jüngeren im Vergleich zu älteren Erwachsenen zu niedrigeren FGF21 Konzentration nach vier Stunden. Des Weiteren, war das Erreichen der altersspezifischen Proteinzufuhr des Vortrags bei beiden Altersgruppen mit niedrigeren nüchtern FGF21 Konzentrationen assoziiert. Bei älteren Frauen führte die höhere FGF21 Response nach Dextrose Aufnahme zu einer höheren Adiponektin Response, unabhängig von Fettmasse, Insulinresistenz, Triglyzeride Konzentrationen, Inflammation und oxidativem Stress. Nach Einnahme der fettreichen Mahlzeit sanken die Adiponektin Konzentrationen bei älteren Frauen, während bei jüngeren Frauen die Adiponektin Response nicht durch die Zusammensetzung der Mahlzeit beeinflusst wurde. Zusammenfassend konnte diese Dissertation eine positive Assoziation von FGF21 mit Kachexie-Anorexie Syndrom bei gleichzeitiger Anorexie bei älteren PatientInnen zeigen. Bezüglich der akuten Response von FGF21 zeigte sich eine höhere Response auf Dextrose und Kohlenhydrat-Aufnahme bei älteren im Vergleich zu jüngeren ProbandInnen. Dies ist vermutlich auf die erhöhte Glukose Response im Alter zurückzuführen. Des Weiteren konnte gezeigt werden, dass eine höhere FGF21 Response auf Dextrose bei älteren Frauen mit einer veränderten Adiponektin Response einhergingen, unabhängig von potentiellen metabolischen und inflammatorischen Einflussfaktoren. Eine akute hohe Proteinaufnahme führte zu einem deutlichen Abfall der postprandialen FGF21 Konzentrationen. Zudem bestand eine inverse Assoziation zwischen FGF21 Nüchternkonzentrationen und der Proteinzufuhr des Vortags. Dies könnte zum Teil erklären, warum FGF21 Konzentrationen bei Kachexie-Anorexie Syndrom erhöht sind. Demnach unterstützen diese Ergebnisse auch die Rolle von FGF21 als Sensor für Proteinrestriktion. KW - Ageing KW - FGF21 KW - protein KW - postprandial response Y1 - 2021 ER - TY - THES A1 - Haferkorn-Starke, Robert Christian T1 - Entwicklung eines Lebensmitteluntersuchungssystems für mikrobielle Erreger mit Hilfe molekularbiologischer Methoden Y1 - 2021 ER - TY - THES A1 - Rodriguez-Sillke, Yasmina T1 - Der Einfluss von Nahrungsmittelantigenen auf die mukosale sowie periphere Homöostase und Entzündung bei chronisch entzündlichen Darmerkrankungen Y1 - 2021 ER -