Biologische Hochschulschriften (Goethe-Universität)
Refine
Year of publication
- 2018 (51) (remove)
Document Type
- Doctoral Thesis (51)
Has Fulltext
- yes (51) (remove)
Is part of the Bibliography
- no (51)
Keywords
- vascular endothelial cells (2)
- Aptamere (1)
- Arzneimittel (1)
- Arzneimittelanalogon (1)
- Autism Spectrum Disorder (1)
- Biologie (1)
- CNV 16p11.2 (1)
- Cell-free Protein Synthesis (1)
- FVIII (1)
- Ferroptosis (1)
Institute
- Biowissenschaften (25)
- Biochemie, Chemie und Pharmazie (23)
- Pharmazie (2)
- Informatik und Mathematik (1)
Infections with the hepatitis B virus (HBV) or the hepatitis C virus (HCV) lead to complications like the development of cirrhosis or hepatocellular carcinoma. These complications end up in 887,000 and 500,000 deaths per year, respectively. Since the development of new direct acting antiviral agents for HCV in the past years a complete cure of an HCV infection can be achieved in the majority of the patients. In contrast, a complete cure of a chronic HBV infection still remains a challenging problem as current treatment regimens mainly suppress the viral replication and cccDNA as well as integrated DNA still persist in these patients. Several viral and host factors were described to impair the efficacy of treatment regimens or influence the course of the infection. Therefore, in this work viral factors as well as host factors were investigated in HBeAg negative chronic HBV infected patients and in chronic HCV infected patients. In the present study, it was demonstrated that mutations and/or deletions in the HBV basal core promoter (BCP), the precore and the preS domain occur in a genotype-specifc pattern in HBeAg negative HBV infected patients. While the BCP double mutation A1762T/G1764A was found with the highest prevalence in genotype E infected patients, the precore mutation G1896A occurred mostly in genotype B infected patients. Variants in the preS domain could be detected with the highest frequency in patients infected with genotype C. In patients, who had to start an antiviral therapy during the course of the disease, mutations in the precore region could be detected with a higher frequency in the samples right before treatment start in comparison to the baseline sample.
While different HBV genotypes and preS mutations were not associated with HBV-DNA serum levels, precore mutations as well as BCP mutations were significantly associated with HBV-DNA levels. Furthermore, precore mutations showed lower and preS mutations higher HBsAg levels. The HBsAg serum levels varied significantly among the different genotypes. Since HBsAg levels < 1000 IU/ml have been described as a prognostic marker in several studies, the prevalence of patients with HBsAg < 1000 IU/ml was analyzed among the genotypes A - E. While most of the patients infected with HBV genotype B had HBsAg < 1000 IU/ml, only a few patients infected HBV genotype E and A had HBsAg < 1000 IU/ml.
Furthermore, HBV genotype A genomes derived from patients harboring a) A1762T/ G1764A (BCP), b) G1896A/G1899A (precore), c) 15 aa deletion in preS1, d) no mutation (reference genome) were cloned and analyzed in vitro. An enhanced expression but reduced secretion of viral genomes was found in the preS-deletion- and the precore-variant. No differences in the HBsAg production and secretion were observed in the cloned precore- or BCP-variant, while the preS-deletion-variant was characterized with an elevated HBsAg release.
Regarding the secretion of viral and subviral particles, a genotype-specifc pattern of the L/M/SHBs ratio was detected in the serum of patients infected with genotypes A - E. This pattern did not change in the serum of patients, who started antiviral treatment. Secreted HBsAg containing particles displayed a higher density as well as a higher filaments/spheres ratio in genotypes B and D compared to genotypes A, C and E. Population-based and deep sequencing revealed large deletions in the preS domain or preS2 start codon mutations in a certain number of the viral genomes. Theoretically, these mutations/deletions should influence the molecular weight of the expressed protein or abolish the expression of the protein at all. In contrast, LHBs/MHBs were detectable and appeared at the same molecular weight in these patient samples in comparison to patient samples without these mutations. Furthermore, in the in vitro analyses comparing the reference genome and the preS1-deletion genome, it was shown that the deletion indeed influenced the molecular weight of LHBs. Therefore, HBsAg might be expressed from a genetically different source than the released viral genomes, meaning the integrated DNA.
Additionally, in the present study the prevalence of resistance associated substitutions (RASs) in the viral genes NS3, NS5A and NS5B of chronic HCV infected patients was analyzed in correlation to single nucleotide polymorphisms (SNPs) in the interferon-λ4 (IFNL4) gene of the infected patients. No significant correlation was found between IFNL4 SNPs and RASs within NS3/NS5B in the present cohort. In contrast, the frequently detected NS5A RAS Y93H could be significantly associated with beneficial IFNL4 SNPs and a high baseline viral load in HCV genotype 1-infected patients.
Taken together, the present study demonstrated that viral genome mutations as well as the morphology of secreted particles occur in a genotype-dependent pattern in HBeAg negative HBV infected patients with no need of antiviral therapy. As the amount of serum qHBsAg levels varied among the different genotypes, the HBsAg cut-off < 1000 IU/ml should be adapted individually among the various genotypes. Because the composition of the secreted subviral particles varied between the different genotypes, a genotype-specific immune-response might be induced in these patients. Additionally, the results of the present study indicate that in HBeAg negative HBV infected patients with mutations or deletions in the preS domain MHBs and LHBs might be expressed from the integrated DNA and therefore from a genetically different source than the released viral genomes.
Aside from that, the finding of a significant association of the NS5A RAS Y93H with beneficial IFNL4 SNPs in chronic HCV infected patients may explain a lack of a correlation or an inverse correlation of treatment response with the IFNL4 genotype in some NS5A inhibitor-containing IFN-free regimens.
Im Rahmen dieser Arbeit wurden sRNAs des halophilen Archaeons Haloferax volcanii hinsichtlich ihrer biologischen und ihrer regulatorischen Funktion charakterisiert.
Um einen Überblick über die biologischen Funktionen archaealer sRNAs zu erhalten, wurde eine umfassende phänotypische Charakterisierung von 27 sRNA-Deletionsmutanten im Vergleich zum Wildtyp ausgewertet. Im Zuge dieser phänotypischen Charakterisierungen wurden zehn verschiedene Wachstumsbedingungen, morphologische Unterschiede und Veränderungen in der Zellmotilität untersucht. Hierbei zeigten nahezu alle Deletionsmutanten unter mindestens einer der getesteten Bedingungen phänotypische Unterschiede. Durch den Verlust von sRNAs wurden sowohl sogenannte Gain-of-function als auch Loss-of-function Phänotypen beobachtet. Haloarchaeale sRNAs spielen eine wichtige Rolle beim Wachstum mit verschiedenen Salzkonzentrationen, mit verschiedenen Kohlenstoffquellen und beim Schwärmverhalten, sind jedoch weniger in die Adaptation an diverse Stressbedingungen involviert.
Zur näheren Charakterisierung der regulatorischen Funktion archaealer sRNAs wurden sRNA362, sRNAhtsf468 und sRNA479 mittels molekulargenetischer Methoden wie Northern Blot-Analyse und DNA-Mikroarray sowie bioinformatischer in silico-Analyse untersucht. Das Expressionslevel von sRNA362 konnte bestimmt und potentielle Zielgene für sRNAhtsf468 und sRNA479 identifiziert werden.
Eine vorangegangene Studie zeigte den Einfluss von sRNA30 unter Hitzestress und führte zur Identifikation differentiell produzierter Proteine in Abwesenheit der sRNA. In dieser Arbeit wurde mittels Northern Blot-Analysen die Expression der sRNA30 charakterisiert. Das Wachstum in An- und Abwesenheit von sRNA30 wurde bei 42°C und 51°C phänotypisch charakterisiert und der regulatorische Einfluss der sRNA auf die mRNA differentiell regulierter Proteine durch Northern Blot-Analyse überprüft. Eine Transkriptomanalyse mittels DNA-Mikroarray nach Hitzeschock-Induktion führte zur Identifikation differentiell regulierter Gene involviert in Transportprozesse, Metabolismus, Transkriptionsregulation und die Expression anderer sRNAs. Die differentielle Regulation des Proteoms nach Hitzeschockinduktion in An- und Abwesenheit von sRNA30 konnte bestätigt werden.
Desweiteren wurde in dieser Arbeit sRNA132 und deren phosphatabhängige Regulation der Ziel-mRNA HVO_A0477-80 näher charakterisiert. Eine Induktionskinetik nach Phosphatentzug bestätigte die Bedeutung von sRNA132 für die verstärkte Expression des Operons HVO_A0477-80 unter Phosphatmangel-Bedingungen und verwies auf die Existenz weiterer Regulationsmechanismen. Während vor und nach Phosphatentzug kein Unterschied bezüglich der Zellmorphologie von Wildtyp und Deletionsmutante zu erkennen war, führte das Wachstum mit einem starken Phosphatüberschuss von 5 mM zu einer Zellverlängerung der Deletionsmutante. Die Kompetition der nativen 3‘-UTR des Operons HVO_A0477-80 mit einer Vektor-kodierten artifiziellen 3‘-UTR legt eine Regulation über die Bindung von sRNA132 an die 3‘-UTR nahe. Der Transkriptomvergleich nach Phosphatentzug in An- und Abwesenheit von sRNA132 führte zur Identifikation des Phosphoregulons der sRNA. Zu diesem Phosphoregulon gehören unter anderem zwei Glycerinphosphat-Dehydrogenasen, Transkriptionsregulatoren, eine Polyphosphatkinase und eine Glycerolphosphodiesterase. Zudem waren die Transkriptlevel der beiden ABC-Transporter HVO_A0477-80 und HVO_2375-8 für anorganisches Phosphat und des Transporters HVO_B0292-5 für Glycerinaldehyd-3-Phosphat in Abwesenheit der sRNA verringert. Die beiden ABC-Transportsysteme für anorganisches Phosphat wurden im Rahmen dieser Arbeit deletiert und weiter charakterisiert. Es konnte gezeigt werden, dass das ABC-Transportsystem HVO_2375-8 bei geringen Phosphatkonzentrationen leicht induziert wird und das Transkriptlevel in Anwesenheit von sRNA132 erhöht ist. Wachstumsversuche der jeweiligen Deletionsmutante in direkter Konkurrenz mit dem Wildtyp zeigten, dass keiner der beiden ABC-Transporter den anderen vollständig ersetzen kann und der Wildtyp mit beiden intakten ABC-Transportern unter phosphatlimitierenden Bedingungen einen Wachstumsvorteil besitzt. In silico-Analysen der Promotorbereiche von sRNA und ABC-Transporter legen zudem die Existenz von P-Boxen nahe.
The enzyme acetyl-CoA carboxylase (ACC) plays a fundamental role in the fatty acid metabolism. It regulates the first and rate limiting step in the biosynthesis of fatty acids by catalyzing the carboxylation of acetyl-CoA to malonyl-CoA and exists as two different isoforms, ACC1 and ACC2. In the last few years, ACC has been reported as an attractive drug target for treating different diseases, such as insulin resistance, hepatic steatosis, dyslipidemia, obesity, metabolic syndrome and nonalcoholic fatty liver disease. An altered fatty acid metabolism is also associated with cancer cell proliferation. In general, the inhibition of ACC provides two possibilities to regulate the fatty acid metabolism: It blocks the de novo lipogenesis in lipogenic tissues and stimulates the mitochondrial fatty acid β-oxidation. Surprisingly, the role of ACC in human vascular endothelial cells has been neglected so far. This work aimed to investigate the role of the ACC/fatty acid metabolism in regulating important endothelial cell functions like proliferation, migration and tube formation.
To investigate the function of ACC, the ACC-inhibitor soraphen A as well as an siRNA-based approach were used. This study revealed that ACC1 is the predominant isoform both in human umbilical vein endothelial cells (HUVECs) and in human dermal microvascular endothelial cells (HMECs). Inhibition of ACC via soraphen A resulted in decreased levels of malonyl-CoA and shifted the lipid composition of endothelial cell membranes. Consequently, membrane fluidity, filopodia formation and the migratory capacity were attenuated. Increasing amounts of longer acyl chains within the phospholipid subgroup phosphatidylcholine (PC) were suggested to overcompensate the shift towards shorter acyl chains within phosphatidylglycerol (PG), which resulted in a dominating effect on regulating the membrane fluidity. Most importantly, this work provided a link between changes in the phospholipid composition and altered endothelial cell migration. The antimigratory effect of soraphen A was linked to a reduced amount of PG and to an increased amount of polyunsaturated fatty acids (PUFAs) within the phospholipid cell membrane. This link was unknown in the literature so far. Interestingly, a reduced filopodia formation was observed upon ACC inhibition via soraphen A, which presumably caused the impaired migratory capacity.
This work revealed a relationship between ACC/fatty acid metabolism, membrane lipid composition and endothelial cell migration. The natural compound soraphen A emerged as a valuable chemical tool to analyze the role of ACC/fatty acid metabolism in regulating important endothelial cell functions. Furthermore, regulating endothelial cell migration via ACC inhibition promises beneficial therapeutic perspectives for the treatment of cell migration-related disorders, such as ischemia reperfusion injury, diabetic angiopathy, macular degeneration, rheumatoid arthritis, wound healing defects and cancer.
Licht ist ein wertvolles Werkzeug zur Regulation biochemischer Reaktionsabläufe. Denn die Applikation von Licht erlaubt eine sehr präzise Einflussnahme auf den Ort und den Startzeitpunkt der zu untersuchenden Reaktionen. Als nichtinvasives Medium bietet die Lichtkontrolle bei der Wahl einer geeigneten Anregungswellenlänge den Vorteil nur minimal in einen lebenden Organismus einzugreifen. Um eine solche lichtbasierte Kontrolle für biologische Anwendungen zu realisieren, ist die Anwesenheit einer lichtsensitiven Verbindung nötig. Ein Konzept der lichtsensitiven Verbindungen ist die sogenannte photolabile Schutzgruppe. Im Allgemeinen handelt es sich hierbei um einen Chromophor der temporär an ein Biomolekül angebracht wurde, um dessen biologische Aktivität zu unterdrücken.
In dieser Arbeit wurde dieses Konzept auf das Antibiotikum Puromycin angewendet, welches durch das synthetische Anbringen der Cumarin-Schutzgruppe DEACM in seiner biologischen Aktivität behindert und durch einen Lichtpuls wieder freigesetzt wurde. DEACM st eine photolabile Schutzgruppe mit breitem Anwendungsspektrum, da es im Vergleich zu anderen Cumarin-Derivaten vorteilhafte photophysikalische Eigenschaften aufweist. Zum einen ist durch den 7-Diethylamino-Substituenten das Absorptionsmaximum dieser Verbindung um etwa 20 nm bathochrom verschoben. Zum anderen zeichnet sich dieses Derivat durch einen erheblich erhöhten Extinktionskoeffizienten aus, sodass eine Freisetzungsreaktion mit einer geringeren Lichtdosis induziert werden kann, was weniger Stress für die Zellen in lebenden Systemen bedeutet.
Die antibiotische Wirkung von Puromycin beruht auf der strukturellen Ähnlichkeit zum5'-Ende von Tyrosyl-tRNA, wodurch sich das Antibiotikum kondonunspezifisch während der Translation der Proteinsynthese an das Ribosom anlagern kann. Anschließend wird die naszierende Polypeptidkette auf das Puromycin transferiert. Da diese neue Bindung unter biologischen Bedingungen nicht spaltbar ist, führt dies zu einer verfrühten Freisetzung des Polypeptid-Puromycin-Fragments. Schließlich ist die Proteinsynthese vollständig abgebrochen.
Die Motivation zur photoinduzierten Kontrolle von Puromycin besteht in der Vielzahl an biologischen Applikationsmöglichkeiten, da die lichtregulierte Freisetzung der biologischen Aktivität als Trigger für sich anschließende biochemische Abläufe verwendet werden kann. Durch das hier gezeigte System kann in Kombination mit anderen Techniken (z.B. NMR) die posttranslationale Proteinfaltung beobachtet werden, welche als hochgradig komplexer Prozess bisher nicht verstanden ist. Eine weitere Motivationsgrundlage ist die Anwendung von DEACM-puromycin in Nervenzellen. Hier kann durch die Photofreisetzung die Proteinsynthese in den Dendriten der Neuronen beobachtet werden, wodurch Rückschlüsse auf neurodegenerative Krankheiten möglich sein sollten, wie z.B. Alzheimer-Krankheit. In dieser Arbeit konnte in-vitro nachgewiesen werden, dass die antibiotische Wirkung von Puromycin mittels Licht kontrollierbar ist. Aus der photophysikalischen Grundcharakterisierung ging hervor, dass DEACM-puromycin einen hohen Extinktionskoeffizienten bei Wellenlängen größer als 380 nm aufweist. Folglich kann zur Induktion der Photolyse eine geringere Lichtdosis mit energiearmer Strahlung als bei dem Vorläufersystem NVOC-puromycin verwendet werden, angesichts dessen ist das hier vorgestellte DEACM-puromycin für Anwendungen in Zellen zu empfehlen.
Über die Kombination von quantenchemischen Rechnungen und spektroskopischen Methoden konnten die frühen Schritte der Freisetzungsreaktion bestimmt und quantifiziert werden. Zudem zeigte sich ein Einfluss der Lösungsmittelzusammensetzung auf die Uncaging-Schritte. In Gegenwart eines protischen Lösungsmittels wird der zum Uncaging in Konkurrenz stehende Prozess der Fluoreszenz unterdrückt, wodurch die Freisetzungsschritte effektiver werden. Zudem führt die Präsenz von Protonen zu einer Stabilisierung des ionischen Intermediates, sodass die Bildung dessen beschleunigt ablaufen kann. Die Spaltung der photolabilen Schutzgruppen vom Puromycin findet mit einer Rate von 0,71*10^8 s-1 statt, welche im Vergleich zu Vorgängersystem um eine Größenordnung größer ist. Die Wiederherstellung der biologischen Aktivität resultiert aber erst nach einem anschließenden Decarboxylierungsschritt. Mithilfe von IR-Messungen konnte die Decarboxylierung beobachtet und daraus die Quantenausbeute zu 2,5% determiniert werden. Die so bestimmte Quantenausbeute entspricht etwa dem Zweifachen von NVOC-puromycin, sodass die hier untersuchte Verbindung eindeutig als das effizientere System zu betrachten ist. Die hier beschriebenen Ergebnisse zeigen, dass DEACM-puromycin vorteilhafte photophysikalische Eigenschafen aufweist, die diese Verbindung zu einem wertvollen Hilfsmittel für eine Vielzahl von lichtkontrollierten Untersuchungen in biologischer Umgebung macht. Zudem wurden Einblicke in den Reaktionsmechanismus gegeben, die das Verständnis der photolytischen Spaltung von Carbamat-geschützten Cumarinen erstmals auf der ultrakurzen Zeitskala ermöglicht.
The endoplasmic-reticulum-associated protein degradation pathway ensures quality control of newly synthesized soluble and membrane proteins of the secretory pathway. Proteins failing to fold into their native structure are processed in a multistep process and finally ubiquitinated and degraded by the proteasome in order to protect the cell from proteotoxic stress. My thesis covers structural as well as functional studies of various protein components that constitute the protein complexes that are responsible for this process.
One sub-project addressed the mechanism of glycan recognition by Yos9 as part of the ERAD substrate selection. NMR solution structures of the mannose-6-phosphate homology (MRH) domain of Yos9 both in a free and glycan bound conformation reveal a gripping movement of loop regions upon binding of correctly processed glycan structures.
The main projects focused on revealing the mechanism of efficient ubiquitin chain assembly by the ERAD ubiquitination machinery. This included the investigation of the role of the ERAD components Cue1 and Ubc7 in processive ubiquitin chain formation, how ubiquitin chain conformations change during elongation, how the conformation of a chain is impacted by interacting proteins and finally understand the activity regulation of the ERAD E2 enzyme Ubc7 by its cognate RING E3 ligases. Nuclear magnetic resonance (NMR) analysis and fluorescence-based ubiquitination assays show that the CUE domain of Cue1 contributes with its proximal binding preference as well as with its position dependent accelerating effect to efficient ubiquitin chain formation. This is required to efficiently drive degradation of substrates. Specific ubiquitin binding events dictate and coordinate the spatial arrangement of the E2 enzyme relative to the distal tip of a chain. This process can be further accelerated by RING E3 ligases that promote Ubc7 activity by more than ~20 fold via inducing allosteric changes around the catalytic cysteine. My results additionally suggest a model where Ubc7 dimerization results in proximity induced activation of the E2. This data ensures rapid diubiquitin formation that is followed by a CUE domain assisted chain elongation mechanism where Cue1 acts in an E4 like fashion.
How ubiquitin binding events can modulate the conformations of a ubiquitin chain were investigated by pulsed electron-electron double resonance (PELDOR) spectroscopy combined with molecular modeling. This shows that K48-linked diubiquitin samples a broad conformational space which can be modulated in distinct ways. The CUE domain of Cue1 uses conformational selection of pre-populated open conformations to support ubiquitin chain elongation. In contrast, deubiquitinating enzymes shift the conformational distribution to weakly or even non-populated conformations to allow cleavage of the isopeptide bond that connects adjacent ubiquitins. Ubiquitin chain elongation increases the sampled conformational space and suggests that this high conformational flexibility might contribute to efficient proteasomal recognition.
Im ersten Projekt der vorliegenden Arbeit wurden CD - 1 Mäuse mit drei unterschiedlichen Diäten für zwei Wochen ad libitum gefüttert. Die Diäten bestanden aus zwei kohlenhydratarmen, fettreichen Diäten und einer Standard Haltungsdiät. Die kohlenhydratarmen, fettreichen Diäten enthielten entweder Triheptanoin (dreifach mit Heptanoat verestertes Glycerol) oder Soja - Öl als Fettkomponente (jeweils 35 % der Gesamtkalorien). Nach zwei Wochen wurde ein ischämischer Schlaganfall für 90 min. mithilfe eines Silikonfadens induziert. Die Leber, das Blut und das Gehirn wurden nach dem Schlaganfall entnommen und die Konzentrationen der Metabolite β - Hydroxybutyrat, Glukose, Laktat und Citrat wurden mit der zuvor etablierten GC - MS-Methode ermittelt. Unter gleichen Bedingungen wurde eine Mikrodialysestudie durchgeführt.
Bei den Tieren, die die kohlenhydratarmen, fettreichen Diäten erhielten, konnte in den Leber - und Hirnhomogenaten, im Plasma sowie im Mikrodialysat eine Ketose festgestellt werden. Die BHB Konzentrationen durch eine Soja Diät erreichten im Leberhomogenat bis zu 4 mM, im Plasma bis zu 1,5 mM, im Hirnhomogenat bis zu 1,5 mM und im Mikrodialysat bis zu 30 µM. Um eine Aussage treffen zu können, ob das Gehirn die von der Leber produzierten Ketonkörper als Energiesubstrate nutzen kann, wurde eine Folgestudie (unter gleichen Bedingungen) durchgeführt. Bei dieser Studie wurde der Zeitpunkt der Gewebeentnahme 60 min. nach Entfernen des Fadens (Reperfusion) gewählt. In den Leber – und Hirnhomogenaten konnten erniedrigte Konzentrationen des Ketonkörpers BHB nachgewiesen werden. Die nicht operierten Tiere, die eine fettreiche Diät erhielten, hatten erhöhte Konzentrationen an Citrat in den genannten Geweben. Durch den Abbau des Ketonkörpers BHB können bei Verstoffwechslung in Geweben außerhalb der Leber, zwei Moleküle Acetyl - CoA gebildet werden. Diese gebildeten Acetyl - CoA Moleküle können in den Citratzyklus eingespeist werden.
Um diesen Befund mechanistisch besser verstehen zu können, wurde den Mäusen Propranolol (ein unselektiver β - Blocker) verabreicht, und zwar kurz nachdem der Faden die mittlere Zerebralarterie verschlossen hatte. Als Folge blieb bei den fettreich gefütterten Tieren die zuvor beobachtete Ketose, aus. Daraus wurde geschlossen, dass die auftretende Ketose bei den fettreich gefütterten Tieren durch adrenerge β - Rezeptoren vermittelt wurde. Zusammengefasst kann eine fettreiche bzw. ketogene Ernährung im Falle einer Ischämie die Versorgung des Gehirns durch die Bildung von Ketonkörper gewährleisten.
Die zu beobachtende hepatische Ketogenese aus dem ersten Projekt hat die Frage entstehen lassen, ob eine akute Gabe von β - Hydroxybutyrat (BHB) bei Entfernen des Fadens schützende Effekte auf das Verhalten bzw. die Mitochondrien als Kraftwerke der Zelle hat. Hierzu wurde BHB bei Reperfusion gegeben und die Wirkungen dieser Einmalgabe nach 24 h untersucht. Als erster Schritt wurde der Nachweis erbracht, dass eine exogene Gabe von BHB das Gehirn erreicht. Im zweiten Schritt wurde das Verhalten der Mäuse nach 24 h untersucht. Hierbei erbrachte die Gabe von BHB eine signifikante Verbesserung der sensorischen und motorischen Fähigkeiten der Mäuse. Die metabolischen Veränderungen nach 24 h wurden erneut in Leberhomogenaten und Plasma vermessen. Eine Einzelgabe von BHB bewirkte eine milde Ketose auch 24 h nach Reperfusion der mittleren Zerebralarterie. Um eine detailliertere Erkenntnis über die Wirkung von BHB zu erlangen, wurden die Mitochondrien als potentielles Ziel für BHB in den Fokus genommen. Die Einmalgabe von BHB verhinderte ein Absinken der Komplex – II Aktivität. Außerdem kann die Aktivität der Citratsynthase unter der Gabe von BHB erhalten werden, sodass die Mitochondrien vor allem im wichtigen Zeitraum nach der Reperfusion geschützt werden. Im Rahmen der Untersuchungen der Mitochondrien wurden unterschiedliche Substrateinflüsse auf die Respiration der isolierten Mitochondrien getestet. Bei Zugabe von BHB, Oxalacetat + Acetat oder Citrat zu dem Respirationsmedium stieg die Respiration der Mitochondrien an. Im Falle von Glukose, Propranolol oder Acetat wird die Respiration verringert. Bei Zugabe von Laktat, verbleibt die Respiration auf Ausgangsniveau. Abschließend ist festzustellen, dass die Einzelgabe von BHB nach 24 h das Verhalten der Mäuse verbessert, eine milde Ketose induziert, sowie Mitochondrien und die Citratsynthase gegen ischämische Ereignisse schützt.
Um die in dieser Arbeit gezeigten Daten über metabolische Veränderungen zeigen zu können, musste eine vorherige Etablierung der GC – MS Analytik vollzogen werden. Auf der einen Seite musste die Probenvorbereitung, aber auch die gesamte Vermessung der Proben aufgebaut werden. Es wurden insgesamt 11 Analyte in vier unterschiedlichen Kompartimenten quantifiziert. Die Nachweisgrenze lag bei diesen 11 Analyten bei 0,01 - 1 ng/µl, was einer umgerechneten Stoffmengenkonzentration von 0,5 - 10 µM entspricht. Mithilfe dieser Methode können optional weitere Substanzen aus verschiedenen Geweben zugänglich gemacht werden. Diese Arbeit bietet hierzu eine Anleitung, wie die Etablierung erfolgen kann. Im Rahmen der Probenvorbereitung wurden alle Schritte systematisch verbessert. Dazu wurden Wiederholungsmessungen für unterschiedliche Modalitäten vollzogen. Die Abundance und die Zeitbeständigkeit waren die wesentlichen Beurteilungskriterien. So wurden die Daten für die Extraktionseffektivität, die Lösungsmittelabhängigkeit der Silylierung, der Zusatz von Hünig - Base sowie die Temperatur und Zeitabhängigkeit der Silylierung in dieser Arbeit erarbeitet. Die Quantifizierung wurde anhand von internen Standardverbindungen durchgeführt. Die jeweiligen Response – Faktoren blieben über die gesamte Zeit nach der Etablierung konstant und erlaubten die Quantifizierung mit geringen Fehlern. Die Beurteilung der ermittelten Daten über die Validierung wurden anhand von geltenden Regelwerken der pharmazeutischen Industrie entschieden. Es wurde ein Protokoll entwickelt, das im Rahmen der universitären Forschung eine vertrauenswürdige Aussage über Veränderungen von Metabolitenspiegeln in vielen Geweben der Maus und der Ratte geben kann.
The continuous conversion of natural wildlife habitats into agricultural areas, as well as the fragmentation of the last wildlife refuges, is increasing the interface between people and wildlife. When wildlife negatively impacts on people and vice versa, we speak about human-wildlife conflicts (HWCs). This definition includes losses on both sides and takes into consideration the rooting of most of these conflicts between different groups of interest, such as advocates for nature conservation and economic groups. The centres of highest biodiversity are located in developing countries, which are also characterized by poverty. In African and Asian countries, people living in the vicinity of national parks and other conservation areas mostly receive only little support through the government or conservation organisations. Especially for those people who are dependent on agriculture, damage to fields and harvests can have catastrophic consequences. If the species causing damage is protected by national or even international law, the farmer is not allowed to use lethal methods, but has to approach the authority in charge. If this agency, however, cannot offer appropriate support, resentment, anger or even hate develops, and the support for wildlife conservation activities declines. For this reason, HWCs were declared as one of the most important conservation topics today, being particularly relevant for large and threatened species such as the African and Asian elephant, hippopotamus and the greater one-horned rhino, as well as for large predators. Up to today, no general assessment scheme has been recommended for damage caused by protected wildlife species.
In my study, HWCs in Asia and Africa are compared, focussing on all herbivorous species identified which damaged crops. For the French NGO Awely, des animaux et des hommes, I developed a detailed assessment scheme suitable for all terrestrial ecosystems, and any type of HWCs and any species (Chapter 2). This HWC assessment scheme was used in four different study areas located in two African countries (South Luangwa/Zambia (SL), Tarangire/Tanzania (TA)) and two Asian countries (Bardia/Nepal (BA) and Manas/India (MA)). This scheme ran for six consecutive years (2009 to 2014) for Zambia, Nepal and India and two years (2010 to 2011) for Tanzania. To carry out the assessments, I trained local HWC officers (Awely Red Caps) to assess HWCs by field observations (measurement of damage, identification of species through signs of presence, landscape attributes etc.) and interviews with aggrieved parties (socio economic data). Results of this assessment are presented in Chapters 2-4.
To determine whether elephants prefer or avoid specific crop species, two field experiments were carried out, one in SL and one in BA (Chapter 5 and 6). For this, two test plots were set up and damage by elephants (and other herbivores) were quantified.
Within this doctoral thesis, 3306 damage events of 7408 aggrieved parties were analysed. In three out of the four study areas (SL, BA, MA), elephants caused the highest number of damage events compared to all other wildlife species, however, in TA, most fields were damaged by zebra. Furthermore, the greater one-horned rhino, hippopotamus, wild boar, bushpig, deer and antelope, as well as primates, caused damage to fields and harvests. Damage to houses and other property were nearly exclusively caused by elephants.
With this doctoral thesis I was able to show that season, crop availability, type and the phenological stage of the crop played an important role for crop damaging behavior of herbivores (Chapter 2). Elephants especially damaged rice, maize and wheat and preferred all crop types in a mature stage of growth. In contrast, rhinos preferred wheat to rice and similar to antelope and deer, they preferred crops at earlier stages of growth, before ripening. Crop damage by wildlife species varied strongly in size; most damages fell below 40% of the total harvest per farmer, but in several cases (3 to 8% depending on the study area), harvests were completely destroyed. Interestingly, during times of low nutritional availability in the natural habitat (dry season), crop damages in all four study areas were significantly less than during other seasons.
In all four study areas, crop protection strategies, such as active guarding in the fields, chasing wildlife with noise or fire torches or erecting barriers, were used. In some cases protection strategies were combined. Analysis of data revealed that traditional protection strategies did not reduce the costs of damage (Chapter 3). In some cases, costs of damage, on protected fields were even higher than for unprotected fields. Only in MA did strategic and cohesive guarding significantly reduce crop damage by wildlife species.
Besides damage in the fields, elephants also caused damage to properties in the villages. In search for stored staple crops, they damaged houses, grain stores and kitchens. Such damage was analysed in three study areas (SL, BA, MA) (Chapter 4). Although property damage occurred less frequently compared to crop damage in the fields, the mean cost of this damage was found to be double in BA/MA and four times higher in SL, compared to the costs of crop damage in the fields. It is further remarkable that property damage significantly increased towards the dry season, when the harvest was brought into the villages.
The findings of this study underpin the assumption that wildlife herbivores, especially elephants, are lured to fields and crops because the highly nutritional food (crop) being readily available. Traditional crop protection is cost and labour intensive and does not reduce the costs of damage. For this reason, crop types, which are thought to be not consumed by elephants were systematically tested on their attractiveness in field experiments in SL and BA (Chapter 5 and 6). In SL, lemon grass, ginger and garlic were proven to be less attractive to African elephants than maize and in BA, basil, turmeric, chamomile, coriander, mint, citronella and lemon grass were found to be less attractive to Asian elephants than rice.
The results of this doctoral thesis are relevant for the management of wildlife conservation as they can lead to new approaches to the mitigation of HWCs in African and Asian countries. Finally, specific needs for more scientific research in this field have been identified.
G-protein coupled receptors (GPCRs) are a predominant class of cell-surface receptors in eukaryotic life. They are responsible for the perception of a broad range of ligands and involved in a multitude of physiological functions. GPCRs are therefore of crucial interest for biological and pharmaceutical research. Molecular analysis and functional characterisation of GPCRs is frequently hampered by challenges in efficient large-scale production, non-destructive purification and long-term stability. Cell-free protein synthesis (CFPS) provides new production platforms for GPCRs by extracting the protein synthesis machinery of the cell in an open system that allows target-oriented modulations of the synthesis process and direct access to the nascent polypeptide chain. CFPS is fast, reliable and highly adaptable. Unfortunately, highly productive cell-free synthesis of GPCRs is often opposed by low product quality. This thesis was aimed to adapt and improve some of the new possibilities for the cell-free production of GPCRs in high yield and quality for structural and pharmaceutical analysis. An E. coli based CFPS system was applied to synthesise various turkey and human Beta-adrenergic receptor (Beta1AR) derivatives as well as human Endothelin receptors type A and B (ETA and ETB) constructs. Both receptor families are important drug targets and pharmacologically addressed in the treatment of several cardiovascular diseases. CF-synthesis was mainly performed in presence of nanodiscs (ND), which are reconstituted high density lipoprotein particles forming discoidal bilayer patches with a diameter varyring from 6 to approx. 15 nm. The supplementation of ND in the CF-synthesis reaction caused the co-translational solubilisation of the freshly synthesised GPCRs. The fraction of the solubilised GPCR that was correctly folded was analysed by the competence to bind its ligand alprenolol or Endothelin-1, respectively. Both the solubilisation efficiency and the ability to fold in a ligand binding competent state was strongly affected by the lipid composition of the supplied ND. Best results were generally achieved with lipids having phosphoglycerol headgroups and unsaturated fatty acid chains with 18 carbon atoms. Furthermore, thermostabilisation by introduction of point mutations had a large positive impact on the folding efficiency of both Beta1AR and ETB receptor. Formation of a conserved disulphide bridge in the extracellular region was additionally found to be crucial for the function of the ETB receptor. Disulphide bridge formation could be enhanced by applying a glutathione-based redox system in the CFPS. Further improvements in the quality of ETB receptor could be made by the enrichment of heat-shock chaperones in the CF-reaction. Depending on the receptor type and DNA-template, roughly 10 – 30 nmol (350 – 1500 µg) of protein could be synthesised in 1 ml of CF-reaction mixture. After the applied optimisation steps, the fractions of correctly folded receptor could be improved by several orders of magnitude and were finally in between 35% for the thermostabilised turkey Beta1AR, 9% for the thermostabilised ETB receptor, 6.5% for the non-stabilised ETB receptor, 1 - 5% for non-stabilised turkey Beta1AR and for human Beta1AR isoforms and 0.1% for ETA receptor. Therefore, between 2 and 120 µg of GPCR could be synthesised in a ligand binding competent form, depending on the receptor and its modifications. Correctly folded turkey Beta1AR and ETB receptors were thermostable at 30°C and could be stored at 4°C for several weeks after purification. Yields of the thermostabilised turkey Beta1AR were sufficient to purify the receptor in a two-step process by ligand-binding chromatography to obtain pure and correctly folded receptor in the lipid bilayer of a ND. Furthermore, a lipid dependent ligand screen could be demonstrated with the turkey Beta1AR and significant alterations in binding affinities to currently in-use pharmaceuticals were found. The established protocols are therefore suitable and highly competetive for a variety of applications such as screening of GPCR ligands, analysis of lipid effects on GPCR function or for the systematical biochemical characterisation of GPCRs. Most promising for future approaches appears to address the suspected bottlenecks of intial insertion of the GPCR-polypeptide chain in the ND bilayer and the thermal stability of the receptors. Nevertheless, the estabilised protocols for the analysed targets in this thesis are already highly competitive to previously published production protocols either in cell-based or cell-free systems with regard to yield of functional protein, speediness and costs. Moreover, the direct accessibility and other general characteristics of cell-free synthesis open a large variety of possible applications and this work can therefore contribute to the molecular characterisation of this important receptor type and to the development of new pharmaceuticals.
Cells within a tissue form highly complex, cellular interactions. This architecture is lost in two-dimensional (2D) cell cultures. To close the gap between 2D cell cultures and in vivo tissues, three-dimensional (3D) cell cultures such as spheroids or embryoid bodies were developed. To fully take advantage of the third dimension, imaging techniques are essential. The emerging field of "image-based systems biology" exploits the information in images and builds a connection between experimental and theoretical investigation of biological processes. Such interdisciplinary approaches strongly depend on the development of protocols to establish 3D cell cultures, innovations in sample preparation, well-suited imaging techniques and quantitative segmentation methods.
Although 3D cell cultures and image-based systems biology provide a great potential, 2D methods are still not completely replaced by 3D methods. This is mainly due to methodical and technical hurdles. Therefore, this thesis provides a significant contribution to overcome these hurdles and to further develop 3D cell cultures. I established computational and experimental methods related to 3D aggregates and investigated fundamental, cellular processes such as adhesion, growth and differentiation.
The automatic segmentation method "PAS" and "LoS" were developed in the context of this thesis. They extract essential biological properties such as the projected area or features of cell nuclei from 2D or 3D images of 3D aggregates. Both algorithms show their accuracy robustly over image data from different samples and different microscopes. In addition, the superior performance of PAS and LoS was proven in a comparison with state-of-the-art methods.
The PAS approach served as an essential basis for investigating cellular processes such as adhesion and growth which are tightly regulated to contribute to tissue integrity. These processes are involved in the formation of spheroids. The temporally resolved data of spheroid formation of three mammary epithelial cell lines revealed differences in their formation dynamics as well as in the onset of spheroid formation phases (aggregation, compaction and growth). Despite these differences, adhesion- and growth-associated proteins such as E-cadherin, actin, microtubules, and the focal adhesion kinase show similar importance in a particular phase. Notably, certain proteins (e.g. E-Cadherin) contribute differently to spheroid formation of cells from different cell types in terms of cell adhesion and growth. Overall, analyses of the individual phases of spheroid formation revealed the temporal coordination of fundamental tissue-specific processes. The results contribute to a better understanding of the maintenance and disruption of tissue integrity.
An important but yet unknown process is how cells accomplish to arrange themselves against the gravitational force to form a spheroid. Live imaging with light sheet-based microscopy provides the best solution for a temporally and in particular spatially resolved investigation of spheroid formation. Although the imaging possibilities increase with this particular microscopy technique, available sample preparation methods are rare. Therefore, I have significantly optimized "agarose beaker" as preparation method for 3D long-term imaging of spheroid formation. The data show that upward movement of the cells takes place early. This movement is initiated in the centre of the initially flat cell layer. Subsequently, the cells move from the periphery of the cell layer toward the centre. Cells rearrange within the spheroid which is followed by growth. It is very likely that 3D aggregates form by adopting an energetically favoured, spherical shape by increasing cell-cell or cell-matrix contacts.
Besides the knowledge gained from the examination of the self-assembly process in different contexts, fully formed cellular aggregates can serve as basis to investigate differentiation processes. Differentiation guide cell fate specification during early embryonic development (i.e. preimplantation) and is not fully understood yet. Due to the lack of an in vitro system for preimplantation, I have developed "blastoids". These are 3D multicellular aggregates of mouse embryonic stem cells which represent important phases of preimplantation and beyond. In qualitative and quantitative analyses, a strong similarity was proven between blastoids and the inner cell mass of in vivo mouse embryos. Further results strongly suggest that both, the cell number and the trophectoderm play a subordinate role for cell fate decision during preimplantation. Furthermore, 3D neighbourhood analyses have shown that both, blastoids and mouse embryos, do not show a random "salt-and-pepper" pattern during differentiation. Instead, they show a yet unknown local clustering of cells with identical fates, suggesting local cell interactions that influence cell fate decision. Furthermore, the data indicate that the maturation of the epiblast in the later stages of preimplantation is initiated by an interaction between cells of the epiblast and the primitive endoderm.
Using image-based systems biology, I have investigated fundamental cellular processes such as adhesion, growth and differentiation in the context of tissue integrity and early embryonic development using 3D cellular aggregates. This highly interdisciplinary work is a major contribution to 3D cell biology and demonstrates how cells bind and interact within a complex system. The main methods developed in this thesis as well as the biological findings can be used not only in further biological but also in medical and pharmacological studies. They have the potential to advance our understanding of complex biological systems and to provide new opportunities for practical applications.
Acute myeloid leukemia (AML) is a clonal malignancy of hematopoietic stem cells (HSCs) characterized by expansion of myeloid blasts in the bone marrow. It has been shown that autophagy is a degradative process, which delivers cytoplasmic components to lysosomes to prevent malignant transformation by maintaining HSC integrity. Besides its function as a bulk degradation machinery to recycle cytoplasmic components during limited energy supply, autophagy also serves as an intracellular quality control mechanism. Selective autophagy requires autophagy receptors such as p62 to specifically bridge the targeted cargos into autophagosomes. p62 is known as a central signaling hub involved in pro-oncogenic signaling pathways and autophagic degradation pathways. However, little is known about the role of p62 as a selective autophagy receptor in AML. This study aims to elucidate the precise function of p62 as an autophagy receptor in leukemia development and maintenance.
In silico analysis revealed that high p62 expression was significantly associated with poor overall survival of adult patients with de novo AML, suggesting that p62 may promote leukemia maintenance. To address the functional role of p62 in leukemia, genome editing by CRISPR/Cas9 was used to knockout p62 in four human AML cell lines. Importantly, p62 loss reduced cell proliferation in all four cell lines. This observation could be transferred to a murine leukemia cell model in which leukemic transformation of lineage-depleted bone marrow (ldMBM) cells was induced by overexpression of the human transcriptional coactivator MN1. Knockdown of p62 by shRNA in MN1-driven leukemia cells impaired proliferation and decreased colony forming ability without altering apoptosis. This indicates that p62 is crucial for leukemia proliferation in vitro. To further characterize the role of p62 in leukemia development and maintenance a murine AML transplantation model was established. Therefore, ldMBM cells isolated from WT and p62-/- mice were transduced with MN1 and transplanted into lethally irradiated mice. As expected, all mice developed fatal myeloid proliferation. Notably, p62 loss in MN1-driven leukemia significantly prolonged survival in mice and caused a more immature phenotype. Consistent with the in vitro results, ex vivo analysis of p62-/- leukemic cells displayed decreased colony-forming ability, although p62 loss did not affect composition and function of HSCs. Moreover, re-transplantation of primary MN1-driven leukemia cells attenuated leukemia progression upon p62 loss. These findings support a decisive role of p62 in leukemia development and maintenance.
To gain molecular insight into the function of p62 during myeloid transformation an interactome analysis of murine MN1-driven leukemia cells was performed. This revealed first that p62 predominantly interacts with mitochondrial proteins and second that inhibition of autophagic degradation causes accumulation of p62-bound mitochondria. This leads to the first assumption that loss of p62 may provoke mitochondrial accumulation with increasing mitochondrial damage and second that p62 may mediate degradation of mitochondria by mitophagy. Indeed, in the absence of p62, accumulation of dysfunctional mitochondria was detected by morphological changes of the mitochondria, increased mitochondrial ROS and impaired mitochondrial respiration capacity. Furthermore, induction of PINK1/Parkin-independent mitophagy revealed that loss of p62 caused impaired degradation of mitochondrial proteins and reduced translocation of damaged mitochondria into autophagosomes. Taken together, p62 is required for effective degradation of dysfunctional mitochondria by mitophagy in AML.
Due to the fact that p62 is a multifunctional protein, rescue experiments with different mutants of p62 were performed to clarify if p62-mediated mitophagy contributes to leukemia proliferation. Notably, the autophagy-deficient mutant (disabled to bind autophagosomes) reduced cell growth and colony-forming ability to the same extent as knockdown of p62, as the clustering-deficient mutant (disabled to form aggregates) displayed an intermediate phenotype. Strikingly, only the autophagy-deficient mutant failed to rescue mitophagy.
In conclusion, this study demonstrates the prominent role of p62 as a selective autophagy receptor for mitochondrial quality control which contributes to leukemia development and maintenance. Therefore, targeting selective autophagy opens new venues in the treatment of AML.