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Rhythmic changes in environmental lighting conditions have ever been the most reliable environmental cue for life on earth. Nature has therefore selected a genetically encrypted endogenous clock very early in evolution, as it provided cells and subsequently organisms with the ability to anticipate persevering periods of light and darkness. Rhythm generation within the mammalian circadian system is achieved by clock genes and their protein products. The mammalian endogenous master clock, which synchronizes the body to environmental time, is located in the suprachiasmatic nucleus (SCN) of the hypothalamus. As an integral part of the time-coding system, the pineal gland serves the need to tune the body to the temporal environment by the rhythmic nocturnal synthesis and immediate release of the hormone melatonin. In contrast to the transcriptional regulation of melatonin synthesis in rodents, a post-translational shaping is indicated in the human pineal gland. Another important mediator of circadian time and seasonality to the body is the pituitary gland. The aim of this work was to elucidate regulation of melatonin synthesis in the human pineal gland. Furthermore, presence and regulation of clock genes in the human pineal and pituitary gland, and in the SCN were analyzed. Therefore, human tissue, taken from regular autopsies, was analyzed simultaneously for different parameters involved in melatonin biosynthesis and circadian rhythm generation. Presented data demonstrate that post-mortem brain tissue can be used to detect the remnant profile of pre-mortem adaptive changes in neuronal activity. In particular, our results give strong experimental support for the idea that transcriptional mechanisms are not dominant for the generation of rhythmic melatonin synthesis in the human pineal gland. Together with data obtained for clock genes and their protein products in the pituitary, data presented here offer 1) a new working hypothesis for post-translational regulation of melatonin biosynthesis in the human pineal gland, and 2) a novel twist in the molecular competence of clock gene proteins, achieved by nucleo-cytoplasmic shuttling in neuronal and neuroendocrine human tissue. Furthermore, in this study, oscillations in abundance of clock gene proteins were demonstrated for the first time in the human SCN.
Eine Einschränkung des Hörvermögens durch Schäden der Sinnesrezeptoren im Innenohr gilt beim Menschen sowie bei allen anderen Säugetieren als irreversibel. Die Hörforschung ist an der Frage interessiert, ob durch Plastizität in zentralen Teilen des auditorischen Systems Kompensationsmechanismen die Folgen mildern können. Die vorliegende Arbeit befasst sich mit der Frage, ob und in welchem Umfang nach peripheren Hörschäden durch zentrale Kompensationsmechanismen eine Erholung des Hörvermögens auftritt auf der Basis von plastischen Änderungen der neuronalen Verarbeitung der Eingangssignale aus dem geschädigten Hörorgan. Schäden des Sinnesepithels im Innenohr, z.B. durch überlaute Beschallung oder ototoxische Substanzen, betreffen in der Regel zunächst die äußeren Haarzellen und führen zu einem Verlust der Empfindlichkeit und Frequenzspezifität des Hörvermögens. Eine primäre selektive Schädigung der inneren Haarzellen (IHZ) tritt im Tiermodell, aus unbekannten Gründen nur bei einer Spezies auf, dem Chinchilla (Chinchilla laniger) und zwar nach Gabe des antineoplastischen Medikament Carboplatin. Das gute Tieffrequenzhören der Chinchillas (0.1-20 kHz) ermöglicht außerdem Aussagen zur akustischen Signalverarbeitung in einem für das menschliche Gehör relevanten Frequenzbereich (0.02-16 kHz). Dieses Tiermodell bietet somit die Gelegenheit, die Veränderungen in zentralen Teilen des auditorischen Systems nach einer definierten sensorischen Schädigung zu untersuchen. Hierfür kommt u.a. das auditorische Mittelhirn, der Colliculus Inferior (IC) in Frage. Der IC wird als Hauptintegrationszentrum der Hörbahn angesehen weil er Eingänge von fast allen vor ihm liegenden auditorischen Kernen (z.B. Nucleus cochlearis, Nucleus olivaris und Leminscus lateralis) bekommt. Ein weiterer Grund für die Wahl des IC als Untersuchungsgebiet der vorliegenden Arbeit ist, die Frage zu beantworten, ob die auf der Ebene des auditorischen Kortex bereits nachgewiesene funktionelle Plastizität auch auf der Ebene des IC schon realisiert oder vorbereitet wird. Die vorliegende Arbeit untersucht das Antwortverhalten der Neurone im ICc an wachen Tieren vor und nach einem selektiven Teilverlust der IHZ bei Erhalt der äußeren Haarzellen. Die Arbeitshypothese ist, dass es nach einem abgeschwächten sensorischen Eingang zu Veränderungen der exzitatorischen und inhibitorischen Antwortfelder kommt, die als funktionelle Plastizität bzw. als Kompensation verstanden werden können. Anhand elektrophysiologischer Ableitungen im ICc von wachen, chronisch implantierten Tieren wurden die exzitatorischen und die inhibitorischen Antwortfelder der Neurone durch Einton- und Zweiton- Stimulation getrennt gemessen und bestimmt. Die Resultate zeigen, dass die exzitatorischen und inhibitorischen Antworteigenschaften im IC bei wachen und narkotisierten Tieren unterschiedlich sind. In wachen Tieren weist die Inhibition generell höhere Variation auf als in narkotisierten Tieren und ist unabhängiger von der Art der Exzitation. Eine Carboplatinbehandlung führte bei allen Tieren nach 3-7 Tagen zu einer Abnahme der Amplituden und einer Erhöhung der Schwellen der akustisch evozierten Hirnstammpotentiale (ABRs). Die histologische Untersuchung des Innenohres (10 Wochen nach Carboplatinbehandlung), zeigte bei allen Tieren Verluste der IHZ (zwischen 20 und 60%) entlang der gesamten Basilarmembran. Es wurden aber keine Verluste von ÄHZ festgestellt. Die Gehirn-Schnitte zeigten, dass die Registrierungen aus dem zentralen Teil des Colliculus Inferior stammen. Die physiologische Untersuchung der Antworteigenschaften der Neurone im IC 4-6 Wochen nach der carboplatinbedingten Schädigung der IHZ zeigte eine Reduktion der Inhibition, die u.a. deutlich an dem Verlauf der Intensitätskennlinien zu beobachten war. Nach dem Teilverlust der IHZ wurden viel weniger nichtmonotone Kennlinien gefunden als vor der Innenohrschädigung. Darüber hinaus beobachteten wir eine Reduzierung der inhibitorischen Regionen und eine signifikante Ausweitung der exzitatorischen Antwortfelder nach dem Teilverlust der IHZ. Die Resultate der vorliegenden Arbeit führen zu der Schlussfolgerung, dass nach einer Teilschädigung der inneren Haarzellen, unter Erhalt der ÄHZ nur ein geringer Sensitivitätsverlust in der zentralen Hörbahn auftritt. Der Verlust von 20-60% der IHZ und der damit einhergehende reduzierte afferente Informationsfluss führt zu physiologischen Veränderungen in der Hörbahn, die im IC von wachen Tieren vor allem durch eine Reduktion der Inhibition hervortritt. Dies deutet daraufhin, dass zentrale Kompensationsmechanismen bei peripheren Hörschäden nicht, wie bisher vermutet, erst in kortikalen sondern zum Teil bereits in subkortikalen Arealen (im Mittelhirn) stattfinden.
Compared to all other organisms with 1 to 3 heat stress transcription factors (Hsfs) or Hsf-related factors, plants have extraordinarily large Hsf families with more than 20 Hsfs. Plant Hsfs are classified into three classes according to their oligomerization domains which is built of hydrophobic heptad repeats (HR) in two parts, HR-A and HR-B. Both parts may be immediately adjacent (class B), or they are separated by insertion of 21 (class A) and 7 amino acid residues (class C). In plant Hsf family, detailed investigations are so far limited to Hsfs A1a, A2, A3, A4d, A9, and B1. They strongly indicate functional diversification to be the main reason for the coexistence of multiple Hsfs. As an example the functional triad of HsfA1a, HsfA2, and HsfB1 is essential for all three phases of the hs response, (i) the triggering of the response by HsfA1a as master regulator, (ii) the maintenance and high efficiency of hs gene transcription by cooperation of HsfA1a with Hsfs A2 and B1, and finally, (iii) the restoration of house-keeping gene transcription during the recovery phase mediated by HsfB1 in cooperation with house-keeping transcription factors. The results presented in this thesis for Hsfs A4 and A5 open completely different aspects of functional diversification and cooperation of Hsfs. HsfA4 and HsfA5 homooligomerize and bind to corresponding HSE motifs. But in contrast to the highly active HsfA4, HsfA5 is completely inactive as transcriptional activator. Yeast two hybrid and GST pull-down techniques showed that both Hsfs have strong tendency for heterooligomerization. Using fluorescence microscopy the HsfA4/A5 heterooligomers were found to localize in the nucleus. These complexes are transcriptionally inactive due to the impairment of DNA binding. The repressor function of HsfA5 requires only its OD and no additional factors, e.g. a putative co-repressor recruited by the C-terminal domain, are involved. Evidently, the repressor effect mainly results from the interference with the oligomeric state of HsfA4b, which is essential for efficient DNA binding and activator functions. EST database search revealed that plants have a single HsfA5 and usually two A4-type Hsfs. Using bioinformatics tools, Hsfs A4 and A5 were found to be phylogenetically closely related and clearly distinct from the other members of the Hsf family. On the basis of RT-PCR and Microarray data the representatives of the A4/A5 group are well expressed in different plant tissues albeit at very different levels which change with the developmental stages and stress conditions In rice and Arabidopsis, HsfA4 functions as an anti-apoptotic factor for stress induced oxidative damages. Based on my results, I hypothesize that HsfA5 functions as a novel type of selective repressor, regulating the function of A4-type Hsfs in plants. Considering the high sequence conservation with in plant Hsf family, it is tempting to speculate that this role of Hsf4/A5 pair is a fundamental feature of the Hsf system in plants.
Synaptopodin is the founding member of a family of actin-associated proline-rich proteins. It is present in a subset of telencephalic dendritic spines, where it is tightly associated with the dendritic spine apparatus, a putative calcium store. Synaptopodin-deficient mice lack the spine apparatus and show deficits in long-term potentiation and spatial memory. Thus, synaptopodin appears to play a role in synaptic plasticity. In the present thesis, three major questions were addressed: (1) What is the distribution of synaptopodin and the spine apparatus in identified hippocampal neurons? (2) Is the distribution of synaptopodin affected by denervation? (3) Is synaptopodin involved in the regulation of denervation-induced spine loss? The major findings of this thesis are: (1) Immunohistochemistry in the hippocampus of wildtype and EGFP-transgenic mice revealed significant layer-specific differences in the prevalence of synaptopodin at the level of individual neurons. (2) Light and electron microscopic analysis also revealed the presence of synaptopodin in axon initial segments of cortical and hippocampal principal neurons. There, it was found to be an essential component of the cisternal organelle, a putative axonal homologue of the dendritic spine apparatus. (3) Immunohistochemistry in the rat fascia dentata before and following entorhinal deafferentation revealed changes in synaptopodin expression in denervated and non-denervated layers of the hippocampus, suggesting that the distribution of synaptopodin in hippocampal neurons is regulated by presynaptic signals. (4) The dynamics of denervation-induced spine plasticity were studied in vitro using confocal live imaging of organotypic entorhino-hippocampal slice cultures. Whereas spines were remarkably stable under control conditions, spine loss and spine formation were seen following denervation. No significant differences were observed between cultures from wildtype and synaptopodin-deficient mice, suggesting that synaptopodin is not involved in lesion-induced spine plasticity. (5) Finally, a set of transgenic mice expressing fluorescently tagged synaptopodin were generated to facilitate future experiments on the dynamics and function of synaptopodin. In summary, this thesis presents novel findings on (1) the subcellular distribution of synaptopodin in spines and the axon initial segment, (2) the molecular composition of the cisternal organelle, and (3) the dynamics of spines and the spine apparatus organelle following deafferentation in vivo and in vitro.
Koalas are popular zoo animals, but difficult in husbandry. In addition to their specialised diet of eucalyptus leaves, they are prone to “stress” and disease. Particularly in European zoos, themonitoring of theirwell-being has high priority and they are protected from possible stressors. However, stress signs in koalas are vague and monitoring techniques like weighing might result in discomfort itself. Additionally, husbandry routines are planned according to keeper’s schedule, not to the endogenous rhythms of the koalas. Therefore it is necessary to investigate activity pattern in captive koalas and the signals influencing them. These signals have to be assessed on the strength and quality of their impact. A total of 17 koalas have been observed in three zoological gardens in Australia and Europe. Koalas kept in outdoor enclosures with little human contact (Koala Walkabout, Taronga Zoo, Sydney) showed a uniform activity pattern, which was clearly entrained by light. Activity levels were higher during the night, and there was a pronounced resting period in the morning which corresponds with low body temperature measured by Degabriele and Dawson (1979). Activity peaks were related to twilight and changed during the year related to day lengths. However, there was a clear influence from the introduction of fresh browse which resulted in a distinct feeding peak in the afternoon. With short day lengths, this stimulus competed with dusk. Activity patterns from koalas in indoor enclosures (Zoo Duisburg, Vienna Zoo) varied between individuals and in some cases lacked a detectable rhythm. Though activity peaks were related to light, entrainment to sunlight was weak. In winter, koalas reacted primarily to the artificial light, but some also showed activity peaks related to sunlight. Activity patterns in these koalas were less structured and differed severely from patterns expected according to literature. Activity was often related to the keeper’s presence and food introduction. Frequency of feeding bouts was considerably higher at Vienna Zoo compared to the other zoos and the bouts were shorter in duration. Time budgets of the koalas were within the range given in free-range studies. Feeding showed seasonal changes and was increased in lactating females. Koalas at Vinna Zoo had a high level of locomotor activity compared to the size of the enclosure. Koalas at Koala Walkabout were not used to handling, so they resisted the keeper. The koalas at the two European zoos were handled regularly and settled down quickly. However, handling took place in the morning; in most koalas, there was no activity prior to it. In Vienna, resting periods were interrupted daily due to weighing. Food introduction at KoalaWalkabout took place in the afternoon. It was preceded by locomotor activity and triggered a long feeding bout in the koalas. It is not clear, whether food had true Zeitgeber properties or masked the endogenous rhythm. In the two European zoos, food was introduced in the morning. The peaks related to this were smaller than those at Koala Walkabout. Activity was rarely observed prior to food introduction. The koalas at Koala Encounter, Taronga Zoo (Sydney),were regularly confronted with visitors, though no contact was allowed. Direct observation by the keepers did rarely show any stress signs. Activity patterns at night were strikingly similar to Koala Walkabout, but differed dramatically during the day. Food was introduced three times a day, which usually resulted in activity that interrupted a resting period. Generally, the koalas at Koala Encounter were more active than those at KoalaWalkabout. They also displayed a high level of locomotor activity, especially on the ground, which is an accepted sign of discomfort in koalas (Wood 1978; Zoological Society of San Diego 2001; Yusuf& Rosenthal unpublished data). In summary, this chronoethological study of the captive koalas showed that there are several problems with koala husbandry. Artificial light regimes for koalas are not sufficient for entrainment and result in unstructured activity pattern. This is especially the case in winter, when the day in Europe is artificially extended. Due to the mainly nocturnal behaviour of koalas, such an extension might not be necessary and therefore should be avoided. Handling in Europe took place during the physiological resting time of the koalas. Interruptions of resting times are considered as stressors (Wood 1978) and should be avoided. Handling in the afternoon would be more suitable for the koalas and triggered activity in the two koalas at Vienna Zoo. It is also arguable if daily weighing is necessary to monitor health in captive koalas or if the frequent interruption of resting countervail the advantages of constant monitoring. Frequent contact with visitors, evenwithout the so-called cuddling, has a considerable impact on activity patterns and time budget of koalas, even if no immediate stress signs are displayed. Such contact should therefore be reduced to a minimum and chronoethological observations of the koalas should be used. A study on koalas with direct visitor contact is also advisable to revise the current legislation on “koala cuddling”. Koalas frequently rested in living trees if they had access to it. Since no food-poisoning has been reported from koalas using living non-food trees, the provision of living trees with an appropriate canopy should be included in the husbandry guidelines. Increased locomotor activity has been shown to be related to conditions of discomfort or stress and possibly to oestrus. This is in accordance with literature (Wood 1978; Zoological Society of San Diego 2001). Further observation, combined with hormone analysis, are advisable to establish this parameter for evaluation of well-being. Chronoethology has proven to be useful for the evaluation of husbandry conditions and group dynamics. Different to other, traditional ethologicalmethods, it indicated problems and enabled me to advise more appropriate times for handling and food introduction. It is desirable that zoos already using 24-hour video observation include chronoethological aspects into their analysis.
Spatio-temporal dynamics of primary lymphoid follicles during organogenesis and lymphneogenesis
(2007)
Primary lymphoid follicles are structures which are important for adaptive immune responses in mammals. Within the follicles follicular dendritic cells (FDC) are maintained by constant stimuli provided by B cells. It is thought that the FDC are important for immune response. It is of interest to know how lymphoid follicles are regulated in order to understand their role in various autoimmune diseases in which these follicles are created ectopically. With the help of a tissue simulation relying on an agent-based cell model on top of a regular triangulation various scenarios suggested by the available experimental data have been investigated. In order to cope with the complexity in the simulation of immune tissue the regular triangulation has been implemented for the use on parallel computers. The algorithms for kinetic and dynamic regular triangulation have been created newly. Also the cell model underlying the simulation has been designed newly in many aspects. The simulations allowed to identify common factors that regulate the formation of lymphoid follicles normally during organogenesis in development and lymphneogenesis in the course of diseases. The generation of FDC from local stromal populations under the influence of B cell aggregates is shown to be possible with the given experimental parameters. The sequence of the organogenesis and lymphneogenesis can be described with regard to the morphology of the B and T zone. Tests for the stability of the primary lymphoid follicle system constraints the regulation of the B cell efflux. The required lymphatic vessels around the lymphoid follicle are shown to be negatively correlated with the FDC network. Moreover it is shown that the adjacent T zone consisting of its own stromal population and T cells has similar regulation principles. This easily explains the intermediate ring of B cells found around the T zone during development and certain signaling molecule deficiencies. A major result of this thesis is that the generation of FDC needs negative regulation while a number of other possible mechanisms is incompatible with the available experimental data. Moreover the observed microanatomy was brought into a functional relationship with data on the cellular level finally culminating in the proposal of new experiments that shed light on the dynamics of the primary lymphoid follicle. One conclusion is that the FDC directly or indirectly influence the angiogenesis and lymphangiogenesis processes in secondary lymphoid tissues. The work presented here may help to guide experiments with the help of computers in order to reduce the amount of experiments and design them in a way to maximize the amount of information about biological systems.
Bei inflammatorischen Schmerzen kann durch Hemmung der COX-2 im Rückenmark die zentrale Sensibilisierung reduziert werden. Da die Hemmung der gesamten COX-2 vermittelten Prostaglandinsynthese jedoch zahlreiche unerwünschte Nebenwirkungen verursacht, wird in jüngster Zeit diskutiert, ob eine selektive Hemmung der PGE2 Synthese auf Ebene der mPGES-1 für die Therapie passagerer Schmerzen sinnvoller ist. Um die funktionellen Rollen von COX-2 und mPGES-1 im Rückenmark zu charakterisieren, wurden in der vorliegenden Arbeit die Folgen einer COX-Inhibierung und mPGES-1-Deletion auf den spinalen Eicosanoidmetabolismus, die neuronale Erregbarkeit, die Synthese proinflammatorischer Zytokine und das nozizeptive Verhalten untersucht. Das proinflammatorische Zytokin TNFa induzierte in primären Rückenmarksneuronen eine COX-2- und mPGES-1-Expression und eine erhöhte PGE2 Synthese. Diese Induktion der PGE2 Synthese konnte durch den selektiven COX-2 Inhibitor Rofecoxib und den „selektiven COX-1 Inhibitor“ SC-560 gleichermaßen potent gehemmt werden. Da der Effekt von SC-560 unerwartet war, wurde sein Wirkmechanismus genauer untersucht. Es konnte gezeigt werden, dass SC-560 in Rückenmarkskulturen weder die COX-2 und mPGES-1 Expression, die PLA2 Aktivität, die mPGES-1 Aktivität noch den PGE2 Transport hemmte. Durch Experimente mit Zellen aus COX-1-/- Mäusen konnte gezeigt werden, dass SC-560 in Rückenmarkskulturen die COX-2 unabhängig von COX-1 in nanomolaren Konzentrationen inhibiert. Da dieses Ergebnis den postulierten COX-1-selektiven Eigenschaften von SC-560 widersprach, wurde nach der Ursache für den Verlust der COX-1-Selektivität gesucht. Es zeigte sich, dass SC-560 in einer zellfreien in vitro Synthese und im Vollbluttest mit klarer Selektivität COX-1 hemmt. In kultivierten Rückenmarkszellen, RAW-Makrophagen und Blutzellen (Monozyten und Thrombozyten) inhibiert SC-560 allerdings d beide COX-Isoformen potent. Es wurde dadurch deutlich, dass die zelluläre Einbindung von COX-2 sowie ein niedriger Proteingehalt im extrazellulären Medium die halbmaximalen Konzentrationen (IC50) für die COX-2-Hemmung durch SC-560 stark reduzieren kann und hierdurch die COX-1-Selektivität der Substanz verloren geht. Neben einer COX-2 Hemmung verursachte auch eine mPGES-1-Deletion in Rückenmarkskulturen sowie im adulten Rückenmark eine Reduktion der PGE2 Synthese. Überrachenderweise bewirkte jedoch die mPGES-1-Defizienz im Gegensatz zur COX-2 Hemmung durch Etoricoxib im Zymosanmodell keine Reduktion der mechanischen Hyperalgesie. Um die Ursache für die unterschiedliche antihyperalgetische Wirkung der COX-2-Hemmung und mPGES-1-Deletion zu finden, wurden zunächst die Konsequenzen für die gesamte Prostaglandinsynthese untersucht. Die Analyse mittels LC-MS/MS zeigte, dass im Rückenmark mPGES-1-defizienter Mäuse verstärkt PGI2, PGF2a und PGD2 synthetisiert wird. Da für alle drei Prostaglandine bereits pronozizeptive Effekte beschrieben wurden, wurde die Expression von den entsprechenden Rezeptoren im Rückenmark und die Konsequenzen der Rezeptoraktivierung auf die neuronale Erregbarkeit untersucht. Mittels „calcium imaging“ wurde demonstriert, dass selektive IP Rezeptoragonisten in Rückenmarksneuronen eine PKA und PKC vermittelte Phosphorylierung der NMDA Rezeptoren verursachen und die Aktivierbarkeit der NMDA Rezeptoren sensibilisieren. Eine Verstärkung des NMDA induzierten Calciumeinstromes konnte nach Applikation der anderen Prostaglandine nicht beobachtet werden. Die Ergebnisse zeigen daher, dass in mPGES-1-defizienten Mäusen durch die Umleitung der Prostaglandinsynthese zu Prostacyclin die exzitatorischen NMDA Rezeptoren sensibilisiert und hierdurch die antihyperalgitische Wirkung von PGE2-Synthesehemmung kompensiert werden kann. Zusammenfassend lässt sich aus den Ergebnissen schlussfolgern, dass mPGES-1 als Zielmolekül für die Schmerztherapie eher nicht eignet ist. mPGES-1-defiziente Tiere zeigten in inflammatorischen Schmerzmodellen ein normales nozizeptives Verhalten. Dies kann dadurch erklärt werden, dass es nach einer mPGES-1 Deletion im Rückenmark zwar zur Reduktion der PGE2 Synthese aber auch gleichzeitig zur verstärkten Synthese anderer pronozizeptiv wirkender Prostaglandine kommt.
Im Rahmen der vorliegenden Dissertation sollte der Sphingolipid-Biosyntheseweg der Hefe Pichia ciferrii näher charakterisiert werden, um die Entwicklung einer fermentativen Route zur Sphingosin-Produktion zu ermöglichen. Darüber hinaus galt es patentierbare Selektionssysteme für diese Hefe zu etablieren. Durch Sequenzvergleiche mit nahe verwandten Hefen und das Ableiten degenerierter Primer wurden elf für die Sphingolipid-Biosynthese von Pichia ciferrii relevante Gene isoliert und sequenziert: LCB1 (codiert für eine UE der Serin-Palmitoyltransferase), TSC10 (3-Ketosphinganin-Reduktase), LAG1 und LAF1 (Ceramid-Synthasen), LIP1 (UE der Ceramid-Synthasen), DES1 (Dihydroceramid-delta4-Desaturase), YXC1 (Ceramidase), 8DES (Sphingolipid-delta8-Desaturase), 9MTR (Sphingolipid-C9-Methyltransferase), GCS1 (Ceramid-Glycosyltransferase) und LCB4 (LCB-Kinase). Bioinformatische Analysen, sowie in vivo-Experimente dienten der Einordnung der korrespondierenden Genprodukte in den Stoffwechselweg. Die Bestimmung der Substratspezifität einzelner Enzyme aus der Sphingolipid-Biosynthese erfolgte durch Überexpression der korrespondierenden Gene und anschließende Analyse des Einflusses auf die Zusammensetzung der Sphingolipidfraktion von Pichia ciferrii. Zusammengenommen wurde durch die Ergebnisse ein deutlich geschärftes Bild der Biosynthese von Sphingolipiden in Pichia ciferrii erstellt. Die gewonnenen Erkenntnisse über die Sphingolipid-Biosynthese in Pichia ciferrii fanden Anwendung auf die rationale Stammentwicklung eines Sphingosin-Produzenten. Durch die kombinierte Überexpression der die Dihydroceramid-delta4-Desaturase aus Pichia ciferrii, die Ceramid-Synthase aus Coccolithovirus und eine alkalische Ceramidase aus Mus musculus kodierenden Gene wurde eine 8,5-fache Erhöhung der Sphingosin-Konzentration von 7,5 mg/L in vom Wildtyp abgeleiteten Syringomycin-E-resistenten Stämmen auf 64,0 mg/L erzielt. Die Codon-Optimierung der heterolog exprimierten Gene zur Anpassung an die sehr eingeschränkte Codon-Verwendung von Pichia ciferrii erwies sich hierbei als essentiell. Zur Nutzbarmachung von rekombinanten Pichia ciferrii-Stämmen für die industrielle Anwendung wurden darüber hinaus drei neue Selektionssysteme etabliert. Zum einen wurde eine codon-optimierte Form des nat1-Gens genutzt, um eine Nourseothricin-Resistenz zu vermitteln. Zum anderen wurden stabile Uracil- bzw. Lysin-auxotrophe Pichia ciferrii-Stämme erzeugt, die mittels eines entsprechenden Integrationsvektors mit den Auxotrophie-Markergenen URA3 bzw. LYS2 aus Pichia ciferrii zu prototrophen Stämmen komplementiert werden konnten. Zusammengenommen mit der ersten gezielten Disruption eines Gens in Pichia ciferrii (SYR2, codiert für die Sphinganin-Hydroxylase) konnte somit auch die molekularbiologische Handhabbarkeit von Pichia ciferrii deutlich verbessert werden.
Purification and characterization of heterologously produced cannabinoid receptor 1 and G proteins
(2007)
G protein coupled receptors form the largest group of transmembrane proteins, which are involved in signal transduction and are targeted directly or indirectly by 40-50% of the drugs in the market. Even though a lot of biochemical and pharmacological information was acquired for these receptors in the past decades, structural information is still insufficient. G protein coupled receptors are expressed in a very minute scale in the tissues. Purification of G protein coupled receptors, in amounts needed for structural studies, from native tissue is tedious and almost impossible. To overcome this first hurdle of insufficient protein, several heterologous protein expression systems are being used. Another difficulty in structural determination of a G protein coupled receptor is that it is a membrane protein. Membrane proteins are difficult targets for structural studies. One of the possible reasons is the little hydrophilic surface area on the membrane protein, reducing the chances of crystal contact between the molecules. The present work is an attempt to investigate possible ways to overcome these problems. Aim of the project was to use G proteins to increase the hydrophilic area of the G protein coupled receptor. G protein is a physiological partner to the G protein coupled receptor which makes the complex functionally relevant. In the present work five G alpha proteins were purified to homogeneity by a two step purification using metal affinity and ion-exchange chromatography. The G alpha subunits purified were tested for their detergent susceptibility. It was found that only some G proteins were active in the presence of detergent. Observation from contemporary reports also suggest that the G alpha proteins expressed in Escherichia coli, alone may not be sufficient to bind to the G protein coupled receptors in solution. So the project was extended towards expressing a G protein coupled receptor which was reported to exist in a complex with the G proteins, in the cells. Purifying such a functional complex could be more beneficial to use for crystallization. Cannabinoid receptors were chosen for heterologous expression and purification. Production of recombinant cannabinoid receptor 2 was investigated in Pichia pastoris. The protein obtained was highly heterogenous. There were several oligomeric forms as well as degradation products in the cell membranes. Most of the protein was lost in the purification steps leading to a poor yield. Several oligomeric forms and other impurities were still present in the protein sample after purification. Alternatively, a baculovirus mediated insect cell expression system was investigated, to produce the receptors. Cannabinoid receptor 1 was investigated in insect cell expression system because of its better biochemical understanding and pharmacological importance than cannabinoid receptor 2. Cannabinoid receptor 1 was produced in two forms, a full length and a distal carboxy terminal truncated version. All the several gene constructs made could be expressed in the Spodoptera frugiperda (Sf9) insect cells. Expression levels (Bmax) for the constructs with a decahistidine tag at the amino terminus and Strep-tagII at the carboxy terminus were 40 pmol/mg and 53 pmol/mg respectively, for full length and truncated versions. These expression levels are 2 fold higher than the levels reported till now in the literature. As was quite evident from previous experiences of other research groups, purification of this receptor was a challenge. Protein purified from immobilized metal affinity chromatography (Ni-nitrilo tri acetate)(Ni-NTA) was not even 50% pure. A second purification by immobilized monomeric avidin or Streptactin agarose, making use of Biotag and StreptagII respectively, drastically reduced the protein recovery. Later on, purification of receptor was investigated on different metal chelating resins. His-Select, a Ni-NTA based matrix from Sigma, with much lesser density than Ni-NTA from Qiagen, showed a better purification profile. Purification was optimized to get 80% homogeneity but with low yield (20%). Further efforts are needed to improve the yield and purity of the receptor, to use it for crystallization. Cannabinoid receptors are known to exist in a precoupled form to G proteins in the cells. The existence of such precoupled forms of the receptor was investigated using the fluorescence techniques. Guanosine-5-triphosphate binding assay on the cell membranes, in the absence of agonists confirmed the active precoupled form of the receptor. It was found that it is possible to co-immunoprecipitate the complex. These results show that the truncated cannabinoid receptor can be produced in functional form in insect cells in much higher yields than reported. This receptor exists as a complex with G proteins even in the absence of ligands. It was also shown that the receptor/G protein complex can be coimmunoprecipitated. Further work is required to investigate the possibility of purifying this complex to use it for co-crystallization.
Two types of proteins transport ions across the membrane – ion channels and ion pumps. Ion pumps transport ions against their electrochemical gradient by co-transporting another ion or a substrate molecule through a concentration gradient or by coupling this process to an energy source like ATP. Those that couple ATP hydrolysis to ion transport are called ion motive ATPases and can be classified as ‘V’, ‘F’ and ‘P’ types. In this thesis, two sub-classes of P-type ATPases, PIIIA and PIB were studied. Attempts were made to over-express and crystallize the plant proton pump AHA2 (a PIIIA-ATPase). Also, the two putative copper transporting ATPases, CtrA3 (CopB-like) and CtrA2 (CopA-like) from Aquifex aeolicus (both PIB pumps) were over-expressed in E. coli and characterized. PIIIA-type pumps transport protons across the membrane and are found exclusively in plants and fungi, and probably some archaea. One of the most characterized proton pump biochemically is the A. thaliana proton pump AHA2. An 8Å projection map of this enzyme is already available (Jahn 2001). PIBATPases, also called CPX type pumps transport heavy metal ions such as Cu+, Cu2+, Zn2+, Pb2+, Cd2+, Co2+ across biological membranes and play an important role in homeostasis and biotolerance of these metals. CopA and CopB are two such proteins that transport copper across cell membrane found in many prokaryotes. CopB-like proteins are found almost exclusively in bacteria, with CPH sequence motif, while CopA-like proteins have CPC sequence motif, also found in eukaryotic copper transporters including human ATP7A and ATP7B. CopB extrudes Cu2+ across the membrane. CopA is activated by and transports Cu+ but the direction of transport is debated. Attempts were made to over-express the plant proton pump AHA2 in yeast Pichia pastoris. However, the yeast expressed only a truncated protein, which could not be used for further studies. It can be concluded that P. pastoris strain SMD1163 is not a good host for expression of AHA2. Focus was then shifted to AHA2 that has been over-expressed and purified from S. cerevisiae strain RS72. Growth and purification protocols had to be changed from published methods because of laboratory constraints and this probably had an effect on the protein produced. The protein purified from S. cerevisiae could not be crystallized reproducibly for structural studies by electron microscopy. CtrA3 was expressed in E. coli and purified using Ni2+-NTA matrix. Like CopB of A. fulgidus (Mana Capelli 2003), it was active only in the presence of Cu2+ and to some extent in Ag+. The protein was maximally active at 75°C, at pH 7 and in presence of cysteine. Lipids were essential for the activity of CtrA3. However, when the protein was purified in Cymal-6, CtrA3 could not hydrolyze ATP, even when lipids were added to the reaction mixture. For reconstitution of CtrA3 into liposomes for 2D crystallization, several lipids were tested. To screen the lipids compatible for protein incorporation, CtrA3 was dialyzed with different lipids at a high lipid-to-protein ratio of 10:1 and centrifuged by sucrose density gradient. Protein incorporated in lipids localized with liposome fraction in the gradient. Most of the CtrA3 was incorporated into DPPC with no aggregation. This lipid was used for reconstitution of CtrA3 at low LPRs, and at an LPR of 0.3-0.5, the protein formed 2D crystals. A NaCl concentration of 50mM was necessary for the formation of crystals. However, salt removal by dialysis prior to harvesting was essential for obtaining wellordered lattices of CtrA3. Addition of preservatives like trehalose and tannin or direct plunging in liquid ethane for cryo-microscopy destroyed the crystal lattice. Similar to CtrA3, the gene responsible for expression of CtrA2 was amplified from genomic DNA of A. aeolicus and expressed in E. coli and purified by Ni2+-NTA. Functional characterization of CtrA2 was done by analyzing ATP hydrolysis activity of the enzyme. Similar to CopA of A. fulgidus (Mandal 2002), CtrA2 was activated in the presence of Ag+ and to some extent, Cu+. It is possible that both the copper ATPases of A. aeolicus have different ion selectivity- CtrA3, specific for Cu2+ and CtrA2, specific for Cu+. Maximal activity of CtrA2 was also at 75°C. Cysteine was essential for activity of CtrA2, but the protein was not dependent on addition of lipids for activation. Reconstitution of CtrA2 was done similar to CtrA3 for screening of lipids for 2D crystallization. Of the lipids tested, DOPC reconstituted the protein best. However, screening at low LPRs did not yield any crystals. Even though both CtrA3 and CtrA2 are similar heavy metal transporting Ptype ATPases from the same organism and have 36% identity, they behaved completely different in their expression levels in E. coli, purification profiles, activity and reconstitution in lipids.