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Sonstige beteiligte Institutionen
- Helmholtz Institute for RNA-based Infection Research (HIRI) (2)
- Rudolf Virchow Center for Integrative and Translational Bioimaging, University of Würzburg (2)
- Anthropology Department University of Tennessee, Knoxville (1)
- Bungando Medical Centre, Mwanza, Tanzania (1)
- CHC Würzburg (Comprehensive Hearing Center) (1)
- CUHAS Catholic university of health and allied science, Mwanza, Tanzania (1)
- Caritas-Krankenhaus Bad Mergentheim (1)
- Carl-Ludwig-Institut für Physiologie, Universität Leipzig (1)
- Center for Computational and Theoretical Biology (CCTB), Universität Würzburg (1)
- Chair of Experimental Biomedicine I (1)
Die Pyridoxal-5‘-Phosphat Phosphatase (PDXP), auch bekannt als Chronophin (CIN), ist eine HAD-Phosphatase, die beim Menschen ubiquitär exprimiert wird und eine entscheidende Rolle im zellulären Vitamin-B6-Metabolismus einnimmt. PDXP ist in der Lage Pyridoxal-5‘-Phosphat (PLP), die co-enzymatisch aktive Form von Vitamin B6, zu dephosphorylieren. In-vivo Studien mit Mäusen zeigten, dass die Abwesenheit von PDXP mit verbesserten kognitiven Leistungen und einem verringerten Wachstum von Hirntumoren assoziiert ist. Dies begründet die gezielte Suche nach einem pharmakologischen Inhibitor für PDXP. Ein Hochdurchsatz-Screen legte nahe, dass 7,8-Dihydroxyflavon (7,8-DHF) hierfür ein potenzieller Kandidat ist. Zahlreiche Studien beschreiben bereits vielfältige positive neurologische Effekte nach in-vivo Administration von 7,8-DHF, allerdings bleibt der genaue Wirkmechanismus umstritten und wird bis dato nicht mit PDXP in Zusammenhang gebracht. Ziel dieser Arbeit ist es, die Inhibition von PDXP durch 7,8-DHF näher zu charakterisieren und damit einen Beitrag zur Beantwortung der Frage zu leisten, ob PDXP an den 7,8-DHF-induzierten Effekten beteiligt ist.
Hierzu wurde der Effekt von 7,8-DHF auf die enzymatische Aktivität von rekombinant hergestelltem, gereinigtem PDXP in in-vitro Phosphatase-Assays charakterisiert. Um die Selektivität von 7,8-DHF gegenüber PDXP zu untersuchen, wurden fünf weitere HAD-Phosphatasen getestet. Unter den analysierten Phosphatasen zeigte einzig die dem PDXP nah verwandte Phosphoglykolat Phosphatase (PGP) eine geringer ausgeprägte Sensitivität gegen 7,8-DHF. Ein Vergleich von 7,8-DHF mit sechs strukturell verwandten, hydroxylierten Flavonen zeigte, dass 7,8-DHF unter den getesteten Substanzen die höchste Potenz und Effektivität aufwies. Außerdem wurde eine Co-Kristallisation von PDXP mit 7,8-DHF durchgeführt, deren Struktur bis zu einer Auflösung von 2,0 Å verfeinert werden konnte. Die in der Kristallstruktur identifizierte Bindungsstelle von 7,8-DHF an PDXP wurde mittels verschiedener, neu generierter PDXP-Mutanten enzymkinetisch bestätigt. Zusammenfassend zeigen die hier beschriebenen Ergebnisse, dass 7,8-DHF ein direkter, selektiver und vorwiegend kompetitiver Inhibitor der PDXP-Aktivität ist, mit einer IC50 im submikromolaren Bereich.
Die Ergebnisse dieser in-vitro Untersuchungen motivieren zu weiterer Forschung bezüglich der 7,8-DHF-vermittelten Inhibition der PDXP-Aktivität in Zellen, um die Frage beantworten zu können, ob PDXP auch in-vivo ein relevantes Target für 7,8-DHF darstellt.
The discovery, heterologous expression, and characterization of channelrhodopsin-2 (ChR2) – a light-sensitive cation channel found in the green alga Chlamydomonas reinhardtii – led to the success of optogenetics as a powerful technology, first in neuroscience. ChR2 was employed to induce action potentials by blue light in genetically modified nerve cells. In optogenetics, exogenous photoreceptors are expressed in cells to manipulate cellular activity. These photoreceptors were in the beginning mainly microbial opsins. During nearly two decades, many microbial opsins and their mutants were explored for their application in neuroscience. Until now, however, the application of optogenetics to plant studies is limited to very few reports. Several optogenetic strategies for plant research were demonstrated, in which most attempts are based on non-opsin optogenetic tools. Opsins need retinal (vitamin A) as a cofactor to generate the functional protein, the rhodopsin. As most animals have eyes that contain animal rhodopsins, they also have the enzyme - a 15, 15'-Dioxygenase - for retinal production from food-supplied provitamin A (beta-carotene). However, higher plants lack a similar enzyme, making it difficult to express functional rhodopsins successfully in plants. But plant chloroplasts contain plenty of beta-carotene. I introduced a gene, coding for a 15, 15'-Dioxygenase with a chloroplast target peptide, to tobacco plants. This enzyme converts a molecule of β-carotene into two of all-trans-retinal. After expressing this enzyme in plants, the concentration of all-trans-retinal was increased greatly. The increased retinal concentration led to increased expression of several microbial opsins, tested in model higher plants. Unfortunately, most opsins were observed intracellularly and not in the plasma membrane. To improve their localization in the plasma membrane, some reported signal peptides were fused to the N- or C-terminal end of opsins. Finally, I helped to identify three microbial opsins -- GtACR1 (a light-gated anion channel), ChR2 (a light-gated cation channel), PPR (a light-gated proton pump) which express and work well in the plasma membrane of plants. The transgene plants were grown under red light to prevent activation of the expressed opsins. Upon illumination with blue or green light, the activation of these opsins then induced the expected change of the membrane potential, dramatically changing the phenotype of plants with activated rhodopsins.
This study is the first which shows the potential of microbial opsins for optogenetic research in higher plants, using the ubq10 promoter for ubiquitous expression. I expect this to be just the beginning, as many different opsins and tissue-specific promoters for selective expression now can be tested for their usefulness. It is further to be expected that the here established method will help investigators to exploit more optogenetic tools and explore the secrets, kept in the plant kingdom.
This dissertation explores the local gazetteers of West Lake that were compiled by literati of the Ming dynasty. In 1547, the first West Lake gazetteer was published by the local literatus of Hangzhou, Tian Rucheng 田汝成. In the late sixteenth and early seventeenth centuries, accompanying the huge enthusiasm for West Lake and the flourishing of its tourism, the production of West Lake gazetteers reached its peak. This trend, however, was reduced by the turmoils in the last years of the Ming and the dynastic transition, a period when West Lake had also experienced destruction. Nevertheless, the practice was resumed in the first decades of the Qing dynasty by some literati who had survived the disasters. One prominent work of this period was compiled by the Ming loyalist and “remnant subject” Zhang Dai 張岱, who wrote an author’s preface in 1671. This dissertation can be divided into two parts. The first part focuses on the editorial principles of compilers, e.g., which materials are included, how they are organized and presented. It explores various possible intentions of the compilers, such as scholarly and documentary, practical and oriented toward tour-guiding, didactic and educational, and personal and nostalgic ones. The second part focuses on some of the perceptions, attitudes, and values of literati focusing on West Lake. The discourses analyzed in this part include West Lake as a hybrid between metropolitan city and sheer wilderness, as a national symbol and object of nostalgia of the lost dynasty, and as a place of pleasure-seeking and indulgence. While a discourse often had a long tradition and historical development, the emphasis of the study is on the late sixteenth and early seventeenth centuries, i.e., the late Ming.
Ziel dieser Studie war es, zu untersuchen, ob dendritische Zellen eine Rolle beim ischämischen Schlaganfall spielen. Zur Beantwortung dieser Fragestellung wurde ein Mausmodell gewählt, in dem es nach Administration von Diphterietoxin zur selektiven Depletion CD11c positiver Zellen kommt (C.FVB-Tg(Itgax-DTR/EGFP)57Lan/J). Hierbei wird der Diphterietoxinrezeptor unter dem CD11c Promotor (ITGAX) exprimiert. Aufgrund der Wiederherstellung dendritischer Zellen nach ca. 24 Stunden waren wiederholte Applikationen von Diphterietoxin notwendig. Die Zusammensetzung anderer Immunzellen wurde dabei im Wesentlichen nicht geändert.
Für eine Schlaganfallinduktion wurde eine tMCAO (transient middle cerebral artery occlusion) durchgeführt. Hierbei wird durch Okklusion der A. cerebri media mittels Verschlussfilament für 30 oder 60 Minuten ein Schlaganfall im Mediastromgebiet induziert.
Es wurden unterschiedliche Verschlusszeiten, Zeitpunkte und Depletionsraten untersucht. In keinem der Versuchsansätze kam es zu einer signifikanten Veränderung des Schlaganfallvolumens nach Depletion CD11c positiver Zellen.
Mittels quantitativer real-time PCR wurde die Expression unterschiedlicher Zytokine nach tMCAO und CD11c-Depletion untersucht. An Tag 1 nach Schlaganfallinduktion und hoher Depletionsrate ergab sich eine Verminderung der Expression von IL-1β und IL-6, während an Tag 3 und niedriger Depletionsrate die Expression dieser Zytokine nach CD11c-Depletion zunahm. Grund hierfür könnte die Expression dieser Zytokine durch andere Zellen des Immunsystems, wie etwa neutrophile Granulozyten oder Mikroglia/Makrophagen sein, die möglicherweise einer regulatorischen Funktion durch die Interaktion von Dendritischen Zellen und regulatorischen T-Zellen unterliegen. Weitere experimentelle Ansätze sind notwendig, um diese Fragestellung beantworten zu können.
TGF-β zeigte durchgehend in allen Versuchsanordnungen eine verminderte Expression nach der Depletion dendritischer Zellen. Es ist naheliegend, dass dieses neuroprotektiv-regulatorische Zytokin direkt einer Produktion durch dendritische Zellen oder von nachfolgend aktivierten T-Zellen unterliegt.
In immunhistochemischen Studien konnte des Weiteren keine Änderung des Immigrationsverhaltens von CD11b+ Zellen ins Gehirn gesehen werden.
Diese Studie unterliegt jedoch einigen Limitationen. So stellte sich im Laufe der Experimente heraus, dass die wiederholte Applikation von Diphterietoxin zu einer erhöhten Mortalität der Versuchstiere führte. Nach Fertigstellung der Experimente erschien hierzu eine Publikation, welche die wiederholte Administration von DTX und die Entwicklung einer Myokarditis im gewählten Mausmodell in Zusammenhang brachte.
Auditorische Hirnstammimplantate (ABI stellen die einzige Option der Hörrehabilitation bei bilateraler retrocochleärer Ertaubung dar. Die Implantate sind insbesondere in ihrer größten Nutzergruppe - Neurofibromatose Typ 2 Patienten - für ihr sehr variables Hörergebnis bekannt.
Die Evozierbarkeit und die Qualität der intraoperativ abgeleiteten elektrisch evozierten auditorischen Hirnstammantworten wird als möglicher Einflussfaktor auf das Outcome diskutiert. Bisher gelten weder für die Frage des Einsatzes an sich, noch für die Methodik oder die Analyse und Bewertung der EABR in der ABI-Chirurgie einheitliche Konzepte. Ziel dieser Studie ist die detaillierte Analyse der intraoperativ registrierten EABR während ABI-Implantation bei NF2-Patienten.
Zudem stellt Beurteilung der Hörfunktion mit ABI bei NF2-Patienten stellt aufgrund oftmals begleitender Symptomatik der Grunderkrankung eine besondere Herausforderung dar. Sprachtests allein spiegeln die Hörfunktion in dieser Patientengruppe nicht immer umfassend wider. Die in dieser Studie angewendete Würzburger Skala für Implantat-Hören soll dieser Problematik gerecht werden, indem Ergebnisse eines etablierten Sprachtests mit der klinischen Kommunikationsfähigkeit kombiniert werden.
Zusammenfassung der Hauptergebnisse:
Nach intraoperativer Stimulation mittels ABI zeigten sich EABR-Antworten mit null bis 3 Vertex-positiven Peaks (P1, P2, P3), welche in dieser Kohorte im Mittel nach 0,42 ms (P1), 1,43 ms (P2) bzw. 2,40 ms (P3) auftraten. Eine 2-Peak Wellenform war in dieser Studie die am häufigsten beobachtete Morphologie (78,8%). Bei der Stimulation unterschiedlicher Elektrodenkontakte zeigten sich Unterschiede in der EABR-Wellenmorphologie. Alle Antworten konnten in eine der fünf Kategorien der Würzburger EABR-Klassifikation eingeordnet werden.
Für die Latenz von P2 konnte eine statistisch signifikante Korrelation mit der Tumorausdehnung nach Hannover Klassifikation gezeigt werden.
Die Einstufung des Hörergebnisses mit ABI in NF2 nach Ergebnis im MTP-Test und nach Kommunikationsfähigkeit im Alltag unterschied sich in 7 von 22 Fällen (31,2%) um eine Kategorie. Bei der Einordnung in die Würzburger Skala für Implantat-Hören zeigte sich nach Diskussion der divergenten Fälle in 2 Fällen die Kategorisierung zugunsten des Ergebnisses im MTP-Test und in 5 Fällen zugunsten des Ergebnisses der Kommunikationsfähigkeit im Alltag.
Nützliches Hören mit ABI konnte in 95,5% der Patienten gezeigt werden, davon erzielten 68,2% Sprachverständnis.
Die Auslösbarkeit reproduzierbarer intraoperativer EABRs konnte in 95,5% Hörvermögen hervorsagen.
N-heterocyclic carbenes (NHC) are utilized for the stabilization of reactive compounds, for the activation of strong bonds, and as ligands in transition metal chemistry. In contrast to neutral NHCs, few examples of anionic or even dianionic NHCs are known. One approach for the synthesis of anionic carbenes is the deprotonation of neutral or anionic precursors, bearing Lewis acids instead of alkyl or aryl substituents. Following this strategy, novel anionic and dianionic NHCs, featuring weakly coordinating fluorinated borane and phosphorane substituents or coordinating tricyanoborane substituents were synthesized within the scope of this thesis. These carbenes possess unprecedented stabilities compared to related species. Furthermore, their electronic and steric properties can be directly adjusted by the type of Lewis acid attached. Their potential as ligands with highly shielding weakly coordinating substituents next to the carbene coordination center was demonstrated by the syntheses of the respective NHC selenium adducts and NHC gold(I) complexes. In contrast anionic NHCs with coordinating tricyanoborane moieties have an outstanding potential as ditopic ligands with coordination being possible at the carbene center and via the cyano groups. Their beneficial ligand properties were demonstrated by the syntheses of the respective NHC selenium adducts and NHC nickeltricarbonyl complexes. The combination of electronic properties, the large buried volume, the negative charge, the possibility to act as ditopic or ligands with weakly coordinating groups, and the ease of accessibility render borane- and phosphorane functionalized NHCs unique novel ligands. A further project of this PhD thesis deals with the steric properties of Lewis acids. Therefore, an easy-to-apply model was designed to quantify the steric demand of Lewis acids. Using the results of this evaluation, a second model was developed which judges the steric repulsion in Lewis acid/base adduct formation for arbitrary sets of acids and bases.
Aging is known to be a risk factor for structural abnormalities and functional decline in the nervous system. Characterizing age-related changes is important to identify putative pathways to overcome deleterious effects and improve life quality for the elderly. In this study, the peripheral nervous system of 24-month-old aged C57BL/6 mice has been investigated and compared to 12-month-old adult mice. Aged mice showed pathological alterations in their peripheral nerves similar to nerve biopsies from elderly human individuals, with nerve fibers showing demyelination and axonal damage. Such changes were lacking in nerves of adult 12-month-old mice and adult, non-aged humans. Moreover, neuromuscular junctions of 24-month-old mice showed increased denervation compared to adult mice. These alterations were accompanied by elevated numbers of macrophages in the peripheral nerves of aged mice. The neuroinflammatory conditions were associated with impaired myelin integrity and with a decline of nerve conduction properties and muscle strength in aged mice.
To determine the pathological impact of macrophages in the aging mice, macrophage depletion was performed in mice by oral administration of CSF-1R specific kinase (c-FMS) inhibitor PLX5622 (300 mg/kg body weight), which reduced the number of macrophages in the peripheral nerves by 70%. The treated mice showed attenuated demyelination, less muscle denervation and preserved muscle strength. This indicates that macrophage-driven inflammation in the peripheral nerves is partially responsible for the age-related neuropathy in mice.
Based on previous observations that systemic inflammation can accelerate disease progression in mouse models of neurodegenerative diseases, it was hypothesized that systemic inflammation can exacerbate the peripheral neuropathy found in aged mice. To investigate this hypothesis, aged C57BL/6 mice were intraperitoneally injected with a single dose of lipopolysaccharide (LPS; 500 μg/kg body weight) to induce systemic inflammation by mimicking bacterial infection, mostly via activation of Toll-like receptors (TLRs). Altered endoneurial macrophage activation, highlighted by Trem2 downregulation, was found in LPS injected aged mice one month after injection. This was accompanied by a so far rarely observed form of axonal perturbation, i.e., the occurrence of “dark axons” characterized by a damaged cytoskeleton and an increased overall electron density of the axoplasm. At the same time, however, LPS injection reduced demyelination and muscle denervation in aged mice. Interestingly, TREM2 deficiency in aged mice led to similar changes to LPS injection. This suggests that LPS injection likely mitigates aging-related demyelination and muscle denervation via Trem2 downregulation.
Taken together, this study reveals the role of macrophage-driven inflammation as a pathogenic mediator in age-related peripheral neuropathy, and that targeting macrophages might be an option to mitigate peripheral neuropathies in aging individuals. Furthermore, this study shows that systemic inflammation may be an ambivalent modifier of age-related nerve damage, leading to a distinct type of axonal perturbation, but in addition to functionally counteracting, dampened demyelination and muscle denervation. Translationally, it is plausible to assume that tipping the balance of macrophage polarization to one direction or the other may determine the functional outcome in the aging peripheral nervous system of the elderly.
The light-gated cation channel Channelrhodopsin-2 was discovered and characterized in 2003. Already in 2005/2006 five independent groups demonstrated that heterologous expression of Channelrhodopsin-2 is a highly useful and simply applicable method for depolarizing and thereby activating nerve cells. The application of Channelrhodopsin-2 revolutionized neuroscience research and the method was then called optogenetics. In recent years more and more light-sensitive proteins were successfully introduced as “optogenetic tools”, not only in neuroscience. Optogenetic tools for neuronal excitation are well developed with many different cation-conducting wildtype and mutated channelrhodopsins, whereas for inhibition of neurons in the beginning (2007) only hyperpolarizing ion pumps were available. The later discovered light-activated anion channels (anion channelrhodopsins) can be useful hyperpolarizers, but only at low cytoplasmic anion concentration. For this thesis, I optimized CsR, a proton-pumping rhodopsin from Coccomyxa subellipsoidea, which naturally shows a robust expression in Xenopus laevis oocytes and plant leaves. I improved the expression and therefore the photocurrent of CsR about two-fold by N-terminal modification to the improved version CsR2.0, without altering the proton pump function and the action spectrum. A light pulse hyperpolarised the mesophyll cells of CsR2.0-expressing transgenic tobacco plants (N. tabacum) by up to 20 mV from the resting membrane potential of -150 to -200 mV. The robust heterologous expression makes CsR2.0 a promising optogenetic tool for hyperpolarization in other organisms as well. A single R83H point-mutation converted CsR2.0 into a light-activated (passive) proton channel with a reversal potential close to the Nernst potential for intra-/extra-cellular H+ concentration. This light-gated proton channel is expected to become a further useful optogenetic tool, e.g. for analysis of pH-regulation in cells or the intercellular space. Ion pumps as optogenetic tools require high expression levels and high light intensity for efficient pump currents, whereas long-term illumination may cause unwanted heating effects. Although anion channelrhodopsins are effective hyperpolarizing tools in some cases, their effect on neuronal activity is dependent on the cytoplasmic chloride concentration which can vary among neurons. In nerve cells, increased conductance for potassium terminates the action potential and K+ conductance underlies the resting membrane potential in excitable cells. Therefore, several groups attempted to synthesize artificial light-gated potassium channels but 2 all of these published innovations showed serious drawbacks, ranging from poor expression over lacking reversibility to poor temporal precision. A highly potassium selective light-sensitive silencer of action potentials is needed. To achieve this, I engineered a light-activated potassium channel by the genetic fusion of a photoactivated adenylyl cyclase, bPAC, and a cAMP-gated potassium channel, SthK. Illumination activates bPAC to produce cAMP and the elevated cAMP level opens SthK. The slow diffusion and degradation of cAMP makes this construct a very light-sensitive, long-lasting inhibitor. I have successfully developed four variants with EC50 to cAMP ranging from 7 over 10, 21, to 29 μM. Together with the original fusion construct (EC50 to cAMP is 3 μm), there are five different light- (or cAMP-) sensitive potassium channels for researchersto choose, depending on their cell type and light intensity needs.
Neurodegeneration plays an essential role in Parkinson’s disease (PD). Several crucial neuronal pro-and antidegeneration markers were described to be altered in disease models accompanied by neurodegeneration. In the AAV1/2-A53T-aSyn PD rat model progressive time-dependent motor impairment and neurodegeneration in the nigrostriatal tract starting from 2 weeks after PD model induction could be found. Downregulation of Nrf2 in SN and nigrostriatal axon localization, a trend of Tau downregulation in SN and upregulation in axon localization in the AAV1/2-A53T-aSyn PD rat model were observed, indicating potential therapeutic value of these two molecular targets in PD. No alterations of SARM1 and NMNAT2 could be detected, indicating little relevance of these two molecules with our AAV1/2-A53T-aSyn rat model.
RNA is one of the most abundant macromolecules and plays essential roles in numerous biological processes. This doctoral thesis consists of two projects focusing on RNA structure and RNA-RNA interactions in viral genome packaging. In the first project I developed a method called Functional Analysis of RNA Structure (FARS-seq) to investigate structural features regulating genome dimerization within the HIV-1 5’UTR. Genome dimerization is a conserved feature of retroviral replication and is thought to be a prerequisite for binding to the viral structural protein Pr55Gag during genome packaging. It also plays a role in genome integrity and evolution through recombination, and is linked to a structural switch that may regulate genome packaging and translation within cells. Despite its importance for HIV-1 replication, the RNA signals regulating genome dimerization, and the molecular mechanism leading to the selection of the genome dimer over the monomer for packaging are incompletely understood. The FARS-seq method combines RNA structural information obtained by chemical probing with single nucleotide resolution profiles of RNA function obtained by mutational interference. In this way, we found nucleotides that were critical for dimerization, especially within the well-characterized dimerization motif within stem-loop 1 (SL1). We also found stretches of nucleotides that enhanced genome dimerization upon mutation, suggesting their role in negatively regulating dimerization. A structural analysis identified distinct structural signatures within monomeric and dimeric RNA. The dimeric conformation displayed the canonical transactivation response (TAR), PolyA, primer binding site (PBS), and SL1-SL3 stem-loops, and contained a long range U5-AUG interaction. Unexpectedly, in monomeric RNA, SL1 was reconfigured into long- and short-range base-pairings with PolyA and PBS, respectively. Intriguingly, these base pairings concealed the palindromic sequence needed for dimerization and disrupted the internal loop in SL1 previously shown to contain the major packaging motif for Pr55Gag. We therefore rationally introduced mutations into PolyA and PBS, and showed how these regions regulate genome dimerization, and the binding of Pr55Gag in vitro, as well as genome packaging into virions. These findings give insights into late stages of the HIV-1 life cycle and a mechanistic explanation for the link between RNA dimerization and packaging.
In the second project, I developed a proximity ligation and high-throughput sequencing-based method, RNA-RNA seq, which can measure direct (RNA-RNA) and indirect (protein-mediated) interactions. In contrast to existing methods, RNA-RNA seq is not limited by specific protein or RNA baits, nor to a particular crosslinking reagent. The genome of influenza A virus contains eight segments, which assemble into a “7+1” supramolecular complex. However, the molecular details of genome assembly are poorly understood. Our goal is to use RNA-RNA seq to identify the sites of interaction between the eight genomic RNAs of influenza, and to use this information to define the quaternary RNA architecture of the genome. We showed that RNA-RNA seq worked on model substrates, like the HIV-1 Dimerization Initiation Site (DIS) RNA and purified ribosome, as well as influenza A virus infected cells.