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Institute
- Graduate School of Life Sciences (45) (remove)
Sonstige beteiligte Institutionen
Die invasive Aspergillose (IA) z¨ ahlt zu den seltenen, bei immunsupprimierten Patienten
jedoch mit einer hohen Letalit¨ at verbundenen Infektionskrankheiten. Sie wird, wie alle
Aspergillosen, durch den humanpathogenen Schimmelpilz Aspergillus fumigatus ausgel¨ ost.
Bis heute ist die oft nicht effektive Therapie einer IA mit hohen Nebenwirkungen und
Kosten verbunden. Die Entwicklung von Pathogen-spezifischen Immuntherapien soll durch
die Forschung im Bereich der immunologischen Infektionsbiologie vorangetrieben werden.
Fur neuen Erkenntnisse wird die Interaktion von humanen Immunzellen mit ¨ A. fumigatus
analysiert.
In der vorliegenden Studie wurde mit dendritischen Zellen (DCs) gearbeitet, da diese
Pilzmorphologien von A. fumigatus phagozytieren k¨ onnen und uber Antigenpr ¨ ¨ asentation
das adaptive Immunsystem aktivieren. Es wurden aus humanen Monozyten differenzierte DCs (moDCs) verwendet, mit welchen viele Forschergruppen aufgrund ihrer verfugbar ¨
großen Anzahl arbeiten. Allerdings dauert die Generierung von moDCs funf Tage. Aus ¨
dem peripheren Blut entstammende CD1c-positive myeloide DCs (mDCs) oder CD303-
positive plasmazytoide DCs (pDCs) k¨ onnen dagegen direkt nach der Isolation verwendet
werden. Die beiden DC-Populationen werden aus verschiedenen Vorl¨ auferzellen des h¨ amatopoetischen Systems im Knochenmark gebildet. Ihr Ph¨ anotyp und ihre Immunfunktionen
unterscheiden sich untereinander und auch von denen der moDCs.
In Interaktionsstudien konnte analysiert werden, dass die drei verwendeten DC-Subtypen
(moDCs, mDCs, pDCs) unterschiedlich auf A. fumigatus reagieren. moDCs und mDCs reiften in direktem Kontakt zu Aspergillus, sie sekretierten ein relativ ¨ ahnliches Zytokinprofil
und exprimierten die bekannten Aspergillus-Rezeptoren Dectin-1, TLR2 und TLR4. Im
Kontrast dazu verblieben pDCs trotz Aspergillus-Kontakt unreif und sekretierten nahezu
keine Zytokine. Da moDCs und mDCs eine Immunreaktion auf den Pilz zeigten, wurden
sie mit verschiedenen Aspergillus-Antigenen beladen und n¨ aher untersucht.
Bevor verschiedene Aspergillus-Antigene zur Beladung der DCs eingesetzt werden konnten, wurden diese analysiert und aufgereinigt. Hierfur wurde ein routinierter Arbeitsprozess ¨
etabliert. Zwei der vier verfugbaren Proteinantigene waren mit Endotoxin kontaminiert. ¨
Da schon geringe Mengen an Endotoxinen auf DCs einen stimulatorischen Effekt ausubten, ¨
wurden die Proteine mittels Affinit¨ atschromatografie von den verunreinigenden Endotoxinen befreit.
In den Stimulationsexperimenten wirkten die beiden Proteinantigene CcpA und SHMT
immunogen auf moDCs und mDCs. CcpA induzierte eine st¨ arkere Maturierung und Zytokinfreisetzung als SHMT. Auff¨ allig war, dass mDCs im Vergleich zu moDCs die Expression
von MHC Klasse II st¨ arker erh¨ ohten und mehr IL18 freisetzten. Die mit CcpA oder SHMT
beladenen moDCs und mDCs aktivierten autologe T-Zellen zur IFNg Sekretion und zur
Proliferation. Zudem wurden durch die beiden Proteine Aspergillus-spezifische, CD154-
positive T-Zellen induziert. Diese Aspergillus-spezifische Immunogenit¨ at von CcpA und
SHMT macht die beiden Proteine zu interessanten Kandidaten fur einen Vakzinierungs- ¨
Cocktail einer DC-Immuntherapie. Aspergillus Lysat induzierte als weiteres Antigen eine
T-Zell Immunantwort mit CD154-positiven T-Zellen. Zudem war die Proliferation und
IFNg Sekretion von T-Zellen induziert, obwohl moDCs und mDCs nicht reiften und nur
wenige Zytokine sekretierten. Die beiden Aspergillus-Proteine CpcB und fg-gap induzierten die Reifung und Zytokinsekretion von moDCs und mDCs nicht. Demzufolge sind CpcB
und fg-gap fur eine DC-Immuntherapie nicht empfehlenswert. ¨
Ein Vakzinierungs-Cocktail enth¨ alt in der Regel Adjuvantien, welche die Immunreaktion
verst¨ arken. Adjuvante Effekte auf moDCs konnten die getesteten Aspergillus-RezeptorLiganden Zymosan, Pam3CSK4, LPS ultrapur und R848 ausl¨ osen. Hyalurons¨ aure konnte keine Verbesserung der Reifung oder Vitalit¨ at von moDCs und mDCs bewirken. Die
Antigen-bedingte Reifung der DCs fur n ¨ ¨ otige Restimulationen w¨ ahrend der Therapie konnte mittels einer tiefgekuhlten Lagerung in CryoStor Einfriermedium stabil beibehalten ¨
werden.
Die beiden immunogenen Aspergillus-Proteine, die adjuvanten Rezeptor-Agonisten und
die stabile Lagerung in CryoStor k¨ onnen als elementare Grundsteine fur einen Vakzinierungs- ¨
Cocktail einer anti-fungalen DC-Immuntherapie mit moDCs oder mDCs angesehen werden.
Early life stress, including exposure to prenatal stress (PS), has been shown to affect the developing brain and induce severe effects on emotional health in later life, concomitant with an increased risk for psychopathology. However, some individuals are more vulnerable to early-life stress, while others adapt successfully, i.e. they are resilient and do not succumb to adversity. The molecular substrates promoting resilience in some individuals and vulnerability in other individuals are as yet poorly investigated. A polymorphism in the serotonin transporter gene (5HTT/SLC6A4) has been suggested to play a modulatory role in mediating the effects of early-life adversity on psychopathology, thereby rendering carriers of the lower-expressing short (s)-allele more vulnerable to developmental adversity, while long (l)-allele carriers are relatively resilient. The molecular mechanisms underlying this gene x environment interaction (GxE) are not well understood, however, epigenetic mechanisms such as DNA methylation and histone modifications have been discussed to contribute as they are at the interface of environment and the genome. Moreover, developmental epigenetic programming has also been postulated to underlie differential vulnerability/resilience independent of genetic variation.
The present work comprises two projects investigating the effects of prenatal maternal restraint stress in 5-HTT deficient mice. In the first study, we examined to which extent previously observed changes in behavior and hippocampal gene expression of female 5-Htt+/- prenatally stressed (PS) offspring were associated with changes in DNA methylation patterns. Additionally, we investigated the expression of genes involved in myelination in hippocampus and amygdala of those animals using RT-qPCR. The genome-wide hippocampal DNA methylation screening was performed using methylated-DNA immunoprecipitation (MeDIP) on Affymetrix GeneChip® Mouse Promoter 1.0R arrays. In order to correlate individual gene-specific DNA methylation, mRNA expression and behavior, we used hippocampal DNA from the same mice as assessed before. 5-Htt genotype, PS and their interaction differentially affected the DNA methylation signature of numerous genes, a part of which were also differentially expressed. More specifically, we identified a differentially methylated region in the Myelin basic protein (Mbp) gene, which was associated with Mbp expression in a 5-Htt-, PS- and 5-Htt x PS-dependent manner. Subsequent fine-mapping linked the methylation status of two specific CpG sites in this region to Mbp expression and anxiety-related behavior. We furthermore found that not only the expression of Mbp but of large gene set associated with myelination was affected by a 5-Htt x PS interaction in a brain-region specific manner. In conclusion, hippocampal DNA methylation patterns and expression profiles of female PS 5-Htt+/- mice suggest that distinct molecular mechanisms, some of which are associated with changes in gene promoter methylation, and processes associated with myelination contribute to the behavioral effects of the 5-Htt genotype, PS exposure, and their interaction.
In the second study, we aimed at investing the molecular substrates underlying resilience to PS. For this purpose, we exposed 5-Htt+/+ dams to the same restraint stress paradigm and investigated the effects of PS on depression- and anxiety-like behavior and corticosterone (CORT) secretion at baseline and after acute restraint stress in female 5-Htt+/+ and 5-Htt+/- offspring. We found that PS affected the offspring’s social behavior in a negative manner. When specifically examining those PS animals, we grouped the PS offspring of each genotype into a social, resilient and an unsocial, vulnerable group. While anxiety-like behavior in the EPM was reduced in unsocial, but not social, PS 5-Htt+/+ animals when compared to controls, this pattern could not be found in animals of the other genotype, indicating that social anxiety and state anxiety in the EPM were independent of each other. We then assessed genome-wide hippocampal gene expression profiles using mRNA sequencing in order to identify pathways and gene ontology (GO) terms enriched due to 5-Htt genotype (G), PS exposure (E) and their interaction (GxE) as well as enriched in social, but not unsocial, PS offspring, and vice versa. Numerous genes were affected by 5-Htt genotype, PS and most of all a GxE-interaction. Enrichment analysis using enrichr identified that the genotype affected mitochondrial respiration, while GxE-interaction-affected processes associated primarily with myelination and chromatin remodeling. We furthermore found that 5-Htt+/- mice showed profound expression changes of numerous genes in a genomic region located 10 mio kb upstream of the 5 Htt locus on the same chromosome. When looking at social vs. unsocial mice, we found that a much higher number of genes was regulated in 5 Htt+/- animals than in 5-Htt+/+ animals, reflecting the impact of GxE-interaction. Double the number of genes was regulated in social PS vs. control mice when compared to unsocial PS vs. control in both genotypes, suggesting that the successful adaption to PS might have required more active processes from the social group than the reaction to PS from the unsocial group. This notion is supported by the up-regulation of mitochondrial respiration in social, but not in unsocial, PS 5-Htt+/- mice when compared to controls, as those animals might have been able to raise energy resources the unsocial group was not. Next to this, processes associated with myelination seemed to be down-regulated in social 5-Htt+/- mice, but not in unsocial animals, when compared to controls. Taken together, PS exposure affected sociability and anxiety-like behavior dependent on the 5-Htt genotype in female offspring. Processes associated with myelination and epigenetic mechanisms involved in chromatin remodeling seemed be affected in a GxE-dependent manner in the hippocampus of these offspring. Our transcriptome data furthermore suggest that mitochondrial respiration and, with this, energy metabolism might be altered in 5-Htt+/- offspring when compared to 5-Htt+/+ offspring. Moreover, myelination and mitochondrial respiration might contribute to resilience towards PS exposure in 5-Htt+/- offspring, possibly by affecting brain connectivity and energy capabilities.
Fulminant myocarditis is rare but a potentially life-threatening disease. Acute or mild myocarditis following acute ischemia is generally associated with a profound activation of the host’s immune system. On one hand this is mandatory to protect the host’s heart by fighting the invading agents (i.e., bacteria, viruses or other microbial agents) and/or to induce healing and repair processes in the damaged myocardium. On other hand, uncontrolled activation of the immune system may result in the generation of auto-reactive (not always beneficial) immune cells.
Myocarditis or inflammatory cardiomyopathy is characterized by focal or diffuse infiltrates, myocyte necrosis and/or apoptosis and subsequent fibrotic replacement of the heart muscle. In humans, about 30% of the myocarditis-patients develop dilated cardiomyopathy. As the clinical picture of myocarditis is multifaceted, it is difficult to diagnose the disease. Therefore, the main goal of the present work was to test and further develop novel non-invasive methods for the detection of myocardial inflammation by employing both contrast enhanced MRI techniques as well as novel nuclear tracers that are suitable for in vivo PET/ SPECT imaging.
As a part of this thesis, a pre-clinical animal model was successfully established by immunizing female Lewis rats with whole-porcine cardiac myosin (CM). Induction of Experimental Autoimmune Myocarditis (EAM) is considered successful when anti-myosin antibody titers are increased more than 100-fold over control animals and pericardial effusion develops. In addition, cardiac tissues from EAM-rats versus controls were analyzed for the expression of various pro-inflammatory and fibrosis markers. To further exploit non-invasive MRI techniques for the detection of myocarditis, our EAM-rats were injected either with (1) ultra-small Paramagnetic iron oxide particles (USPIO’s; Feraheme®), allowing for in vivo imaging , (2) micron sized paramagnetic iron oxide particles (MPIO) for ex vivo inflammatory cell-tracking by cMRI, or (3) with different radioactive nuclear tracers (67gallium citrate, 68gallium-labeled somatostatin analogue, and 68gallium-labeled cyclic RGD-peptide) which in the present work have been employed for autoradiographic imaging, but in principle are also suitable for in vivo nuclear imaging (PET/SPECT). In order to compare imaging results with histology, consecutive heart sections were stained with hematoxylin & eosin (HE, for cell infiltrates) and Masson Goldner trichrome (MGT, for fibrosis); in addition, immuno-stainings were performed with anti-CD68 (macrophages), anti-SSRT2A (somatostatin receptor type 2A), anti-CD61 (β3-integrins) and anti-CD31 (platelet endothelial cell adhesion molecule 1).
Sera from immunized rats strongly reacted with cardiac myosin. In immunized rats, echocardiography and subsequent MRI revealed huge amounts of pericardial effusion (days 18-21). Analysis of the kinetics of myocardial infiltrates revealed maximal macrophage invasion between days 14 and 28. Disappearance of macrophages resulted in replacement-fibrosis in formerly cell-infiltrated myocardial areas. This finding was confirmed by the time-dependent differential expression of corresponding cytokines in the myocardium. Immunized animals reacted either with an early or a late pattern of post-inflammation fibrosis. Areas with massive cellular infiltrates were easily detectible in autoradiograms showing a high focal uptake of 67gallium-citrate and 68gallium labeled somatostatin analogues (68Ga DOTA-TATE). Myocardium with a loss of cardiomyocytes presented a high uptake of 68gallium labeled cyclic RGD-peptide (68Ga NOTA-RGD). MRI cell tracking experiments with Feraheme® as the contrast-agent were inconclusive; however, strikingly better results were obtained when MPIOs were used as a contrast-agent: histological findings correlated well with in vivo and ex vivo MPIO-enhanced MRI images.
Imaging of myocardial inflammatory processes including the kinetics of macrophage invasion after microbial or ischemic damage is still a major challenge in, both animal models and in human patients. By applying a broad panel of biochemical, histological, molecular and imaging methods, we show here that different patterns of reactivity may occur upon induction of myocarditis using one and the same rat strain. In particular, immunized Lewis rats may react either with an early or a late pattern of macrophage invasion and subsequent post-inflammation fibrosis. Imaging results achieved in the acute inflammatory phase of the myocarditis with MPIOs, 67gallium citrate and 68gallium linked to somatostatin will stimulate further development of contrast agents and radioactive-nuclear tracers for the non-invasive detection of acute myocarditis and in the near future perhaps even in human patients.
The recently discovered human DREAM complex (for DP, RB-like, E2F and MuvB complex) is a chromatin-associated pocket protein complex involved in cell cycle- dependent gene expression. DREAM consists of five core subunits and forms a complex either with the pocket protein p130 and the transcription factor E2F4 to repress gene expression or with the transcription factors B-MYB and FOXM1 to promote gene expression.
Gas2l3 was recently identified by our group as a novel DREAM target gene. Subsequent characterization in human cell lines revealed that GAS2L3 is a microtubule and F-actin cross-linking protein, expressed in G2/M, plays a role in cytokinesis, and is important for chromosomal stability.
The aim of the first part of the study was to analyze how expression of GAS2L3 is regulated by DREAM and to provide a better understanding of the function of GAS2L3 in mitosis and cytokinesis.
ChIP assays revealed that the repressive and the activating form of DREAM bind to the GAS2L3 promoter. RNA interference (RNAi) mediated GAS2L3 depletion demonstrated the requirement of GAS2L3 for proper cleavage furrow ingression in cytokinesis. Immunofluorescence-based localization studies showed a localization of GAS2L3 at the mitotic spindle in mitosis and at the midbody in cytokinesis. Additional experiments demonstrated that the GAS2L3 GAR domain, a putative microtubule- binding domain, is responsible for GAS2L3 localization to the constriction zones in cytokinesis suggesting a function for GAS2L3 in the abscission process.
DREAM is known to promote G2/M gene expression. DREAM target genes include several mitotic kinesins and mitotic microtubule-associated proteins (mitotic MAPs). However, it is not clear to what extent DREAM regulates mitotic kinesins and MAPs, so far. Furthermore, a comprehensive study of mitotic kinesin expression in cancer cell lines is still missing.
Therefore, the second major aim of the thesis was to characterize the regulation of mitotic kinesins and MAPs by DREAM, to investigate the expression of mitotic kinesins in cancer cell line panels and to evaluate them as possible anti-cancer targets.
ChIP assays together with RNAi mediated DREAM subunit depletion experiments demonstrated that DREAM is a master regulator of mitotic kinesins. Furthermore, expression analyses in a panel of breast and lung cancer cell lines revealed that mitotic kinesins are up-regulated in the majority of cancer cell lines in contrast to non-transformed controls. Finally, an inducible lentiviral-based shRNA system was developed to effectively deplete mitotic kinesins. Depletion of selected mitotic kinesins resulted in cytokinesis failures and strong anti-proliferative effects in several human cancer cell lines.
Thus, this system will provide a robust tool for future investigation of mitotic kinesin function in cancer cells.
The oncogenic MYC protein is a transcriptional regulator of multiple cellular processes and is aberrantly activated in a wide range of human cancers. MYC is an unstable protein rapidly degraded by the ubiquitin-proteasome system. Ubiquitination can both positively and negatively affect MYC function, but its direct contribution to MYC-mediated transactivation remained unresolved.
To investigate how ubiquitination regulates MYC activity, a non-ubiquitinatable MYC mutant was characterized, in which all lysines are replaced by arginines (K-less MYC). The absence of ubiquitin-acceptor sites in K-less MYC resulted in a more stable protein, but did not affect cellular localization, chromatin-association or the ability to interact with known MYC interaction partners.
Unlike the wild type protein, K-less MYC was unable to promote proliferation in immortalized mammary epithelial cells. RNA- and ChIP-Sequencing analyses revealed that, although K-less MYC was present at MYC-regulated promoters, it was a weaker transcriptional regulator. The use of K-less MYC, a proteasomal inhibitor and reconstitution of individual lysine residues showed that proteasomal turnover of MYC is required for MYC target gene induction. ChIP-Sequencing of RNA polymerase II (RNAPII) revealed that MYC ubiquitination is dispensable for RNAPII recruitment and transcriptional initiation but is specifically required to promote transcriptional elongation. Turnover of MYC is required to stimulate histone acetylation at MYC-regulated promoters, which depends on a highly conserved region in MYC (MYC box II), thereby enabling the recruitment of BRD4 and P-TEFb and the release of elongating RNAPII from target promoters. Inhibition of MYC turnover enabled the identification of an intermediate in MYC-mediated transactivation, the association of MYC with the PAF complex, a positive elongation factor, suggesting that MYC acts as an assembly factor transferring elongation factors onto RNAPII. The interaction between MYC and the PAF complex occurs via a second highly conserved region in MYC’s amino terminus, MYC box I.
Collectively, the data of this work show that turnover of MYC coordinates histone acetylation with recruitment and transfer of elongation factors on RNAPII involving the cooperation of MYC box I and MYC box II.
The correct regulation of cell growth and proliferation is essential during normal animal development. Myc proteins function as transcription factors, being involved in the con-trol of many growth- and proliferation-associated genes and deregulation of Myc is one of the main driving factors of human malignancies.
The first part of this thesis focuses on the identification of directly regulated Myc target genes in Drosophila melanogaster, by combining ChIPseq and RNAseq approaches. The analysis results in a core set of Myc target genes of less than 300 genes which are mainly involved in ribosome biogenesis. Among these genes we identify a novel class of Myc targets, the non-coding small nucleolar RNAs (snoRNAs). In vivo studies show that loss of snoRNAs not only impairs growth during normal development, but that overexpression of several snoRNAs can also enhance tumor development in a neu-ronal tumor model. Together the data show that Myc acts as a master regulator of ribo-some biogenesis and that Myc’s transforming effects in tumor development are at least partially mediated by the snoRNAs.
In the second part of the thesis, the interaction of Myc and the Zf-protein Chinmo is described. Co-immunoprecipitations of the two proteins performed under endogenous and exogenous conditions show that they interact physically and that neither the two Zf-domains nor the BTB/POZ-domain of Chinmo are important for this interaction. Fur-thermore ChIP experiments and Myc dependent luciferase assays show that Chinmo and Myc share common target genes, and that Chinmo is presumably also involved in their regulation. While the exact way of how Myc and Chinmo genetically interact with each other still has to be investigated, we show that their interaction is important in a tumor model. Overexpression of the tumor-suppressors Ras and Chinmo leads to tu-mor formation in Drosophila larvae, which is drastically impaired upon loss of Myc.
Das Empfinden von Schmerz ist für uns überlebenswichtig. Chronischer Schmerz hingegen hat seine physiologische Bedeutung verloren und wird als eigenes Krankheitsbild angesehen. Schmerzempfindung beginnt mit der Nozizeption. Die Zellkörper nozizeptiver Neurone befinden sich in den Spinalganglien (Hinterwurzelganglion, dorsal root ganglion DRG) und Trigeminalganglien (TG). In den DRG-Neuronen macht der Zwei-Poren-Kaliumkanal (K2P) TRESK die Hauptkomponente eines Kaliumstromes, des „standing outward currents“ IKSO, aus. Die physiologische Hauptaufgabe der TRESK-Kanäle liegt in der Regulation der zellulären Erregbarkeit nozizeptiver Neurone. Während einer Entzündungsreaktion werden Entzündungsmediatoren wie Histamin, Bradykinin, Serotonin und Lysophosphatidsäure (LPA) ausgeschüttet und können durch die Aktivierung ihrer G-Protein gekoppelten Rezeptoren (GPCR) oder direkte Interaktion mit Ionenkanälen die nozizeptive Erregung beeinflussen. Durch Anwendung von RT-PCR und eines neu entwickelten Antikörpers wurde die Ko-Expression von TRESK-Kanälen zusammen mit Kanälen der Transient-Receptor-Potential-Kationenkanalfamilie (TRP) und LPA-Rezeptoren in DRG-Neuronen nachgewiesen.
Durch rekombinante Ko-Expression von TRESK-Kanälen und LPA2-Rezeptoren in Xenopus Oozyten konnte durch Zugabe von LPA eine fast 10-fache Aktivierung des basalen K+-Stromes erzielt werden. Die Auswertung der Dosis-Wirkungskurve ergab einen EC50-Wert von 0,2 µM LPA. Die LPA-induzierte TRESK-Stromaktivierung konnte durch die Verwendung des mutierten Kanals TRESK[PQAVAD] oder durch die Zugabe des Phospholipase C (PLC) Inhibitors U73122 verhindert werden. Dies zeigt die Beteiligung des PLC-Signalwegs und die Bindung von Calcineurin an den TRESK-Kanal bei der Stromaktivierung. TRESK ist das einzige Mitglied der K2P-Familie, das eine LPA-induzierte Aktivierung des Stromes zeigt. TREK- und TASK-1-Ströme werden durch LPA inhibiert. In DRG-Neuronen mit kleinem Durchmesser wird Nozizeption durch die Aktivierung von TRPV1-Kanälen durch Hitze oder Capsaicin, dem Inhaltsstoff des Chilis, und zusätzlich durch die Substanz LPA verursacht. Ein weiteres Mitglied der TRP-Familie, der TRPA1-Kanal, ist bei der verstärkten Nozizeption während einer Entzündung involviert. Werden TRESK- und TRP-Kanäle in Xenopus Oozyten ko-exprimiert, verursacht LPA gleichzeitig einen Kationeneinwärts- wie auch -auswärtsstrom. Unter diesen Bedingungen verschob sich das Umkehrpotenzial in einen Bereich zwischen den Umkehrpotenzialen von Oozyten, die nur den K+-Kanal exprimieren und von Oozyten, die nur den unspezifischen Kationenkanal exprimieren. Durch diese Experimente konnte gezeigt werden, dass die LPA-induzierte Ko-Aktivierung von TRP-Kanälen und TRESK zu einer Begrenzung des exzitatorischen Effekts führen kann.
Die DRG-ähnlichen F11-Zellen exprimieren keine TRESK-Kanäle. Sie sind in der Lage durch Strompulse Aktionspotenziale zu generieren. Mit TRESK transfizierte F11-Zellen zeigten eine Verschiebung des Umkehrpotenzials in negative Richtung, einen größeren Auswärtsstrom und den Verlust von spannungsgesteuerten Natriumkanälen. Auch hohe Strompulse konnten keine Aktionspotenziale mehr auslösen.
Bei Spannungs-Klemme-Messungen von primären DRG-Neuronen von TRESK[wt]-Mäusen erhöhte sich der IKSO nach Zugabe von LPA um über 20 %. Im Gegensatz dazu zeigten DRG-Neurone von TRESK[ko]-Mäusen unter diesen Bedingungen eine leichte Hemmung des IKSO von etwa 10 %. In Neuronen, die TRPV1 exprimieren, führte LPA nicht nur zum Anstieg des IKSO, sondern auch zur Aktivierung eines Einwärtsstromes (TRPV1). Im Vergleich dazu wurde in TRESK[ko]-Neuronen durch LPA nur der Einwärtsstrom aktiviert.
In Strom-Klemme-Experimenten führte LPA-Applikation zur Entstehung von Aktionspotenzialen mit höherer Frequenz in Zellen von TRESK[ko]-Mäusen im Vergleich zu Zellen von TRESK[wt]-Mäusen. Zusätzlich wurde die Erregung, die durch Strompulse von 100 pA ausgelöst wurde, in den beiden Genotypen durch LPA unterschiedlich moduliert. Die Aktionspotenzialfrequenz in TRESK[wt]-Neuronen wurde gesenkt, in TRESK[ko]-Neuronen wurde sie erhöht.
Die vorliegende Arbeit zeigt, dass die Erregung nozizeptiver Neurone durch LPA aufgrund der Ko-Aktivierung der TRESK-Kanäle abgeschwächt werden kann. Die Erregbarkeit von sensorischen Neuronen wird strak durch die Aktivität und Expression der TRESK-Kanäle kontrolliert. Deswegen sind TRESK-Kanäle gute Kandidaten für die pharmakologische Behandlung von Schmerzkrankheiten.
Abstract
Background
HLA-G is a non-classical MHC class I molecule which exerts strong immunosuppressive effects on various immune cells. Several membrane-bound and soluble isoforms are known. Physiologically, HLA-G is predominantly expressed in the placenta, where it contributes to protecting the semi-allogeneic embryo from rejection by the maternal immune system. However, HLA-G is also often upregulated during tumourigenesis, such as in ovarian cancer. The aim of this thesis is to investigate how soluble HLA-G may contribute to local immunosuppression in ovarian carcinomas, and to characterize HLA-G expression in different ovarian carcinoma subtypes and metastases.
Results
As reported by others, physiological HLA-G expression is restricted to few tissues, such as placenta and testes. Here, HLA-G was also detected in the medulla of the adrenal gland. In contrast, HLA-G expression was frequently detected in tumours of all assessed subtypes of ovarian carcinomas (serous, mucinous, endometrioid and clear cell). Highest expression levels were detected in high-grade serous carcinomas. In primary tumours, expression of HLA-G correlated with expression of classical MHC class I molecules HLA-A, -B and -C. Surprisingly, high levels of HLA-G were also detected on dendritic cells in local lymph nodes. As no expression of HLA-G was inducible in monocytes or dendritic cells from healthy donors in response to IL-10 or IL-4, we speculated that tumour-derived soluble HLA-G might be transferred to dendritic cells via the lymphatic system. Accordingly, high levels of tumour-derived soluble HLA-G were detected in ovarian cancer ascites samples. In vitro, dendritic cells expanded in the presence of IL-4, IL-10 and GM-CSF (DC-10) were particularly prone to binding high amounts of soluble HLA-G via ILT receptors. Furthermore, HLA-G loaded DC-10 cells inhibited the proliferation of CD8 effector cells and induced regulatory T cells, even when the DC-10 cells had been fixed with paraformaldehyde.
Conclusion
The immunosuppressive molecule HLA-G is overexpressed in high-grade serous ovarian carcinomas, which account for the majority of ovarian cancers. In particular tumours with a high mutational burden and intact expression of classical, immunogenic MHC class Ia molecules may use HLA-G to escape from immunosurveillance. Additionally, tumour-derived soluble HLA-G may inhibit adaptive immune responses by binding to dendritic cells in local lymph nodes. Dendritic cells usually play a decisive role in the initiation of adaptive anti-tumour immune responses by presenting tumour antigens to cytotoxic T cells. In contrast, dendritic cells loaded with soluble HLA-G inhibit the proliferation of effector T cells and promote the induction of regulatory T cells. Thus, soluble HLA-G that is transferred to dendritic cells via lymphatic vessels may enable ovarian carcinomas to remotely suppress anti-tumour immune responses in local lymph nodes. This novel immune-escape mechanism may also exist in other solid tumours that express HLA-G.
Das invasive Potential maligner Gliome beeinflusst maßgeblich die schlechte Prognose dieser Tumorentität. Migration und Invasion von Tumorzellen werden entscheidend durch die Cofilin-vermittelte Umstrukturierung des Aktin-Zytoskeletts geprägt, die durch die Aktivität antagonistischer Cofilin-Kinasen und -Phosphatasen reguliert wird.
Im Rahmen der vorliegenden Arbeit konnte ein progressiver Expressionsverlust der Cofilin-Phosphatase Chronophin mit ansteigendem Malignitätsgrad astrozytärer Gliome aufgezeigt werden, der mit einer Zunahme der Phosphorylierung von Cofilin einhergeht. In den entsprechenden Gewebeproben gelang gleichzeitig der Nachweis einer gesteigerten Expression der Cofilin-Kinase LIMK-2.
Genetische und epigenetische Analysen des Chronophin-Locus konnten eine Hypermethylierung im Bereich der Promotorregion der Phosphatase identifizieren, die möglicherweise dem Verlust von Chronophin in Glioblastom-Gewebeproben zugrunde liegt.
In Glioblastom-Zelllinien, die unterschiedliche Expressionsmuster von Chronophin aufwiesen, konnten hingegen keine molekularen Alterationen festgestellt werden.
Untersuchungen des Einflusses von ROCK- und LIMK-Inhibitoren auf Glioblastomzellen konnten ausgeprägte Veränderungen der Zellmorphologie dokumentieren, wobei erstmals die Induktion eines stellate cell-Phänotyps unter Einfluss des LIMK-Inhibitors BMS-5 beschrieben wird. Während ROCK- und LIMK-Inhibitoren keinen Einfluss auf die 2D-Motilität der Tumorzellen hatten, wiesen die Glioblastomzellen in Abhängigkeit ihrer basalen Cofilin-Aktivität eine verstärkte bzw. verminderte 3D-Invasivität auf.
Die Erkenntnisse dieser Arbeit unterstreichen die Bedeutung des Cofilin-Signalweges für die Migration und Invasion von Gliomzellen, zeigen neue Angriffspunkte in der Therapie maligner Gliome auf und warnen zugleich vor einem unkritischen Einsatz neuer Wirkstoffe.
The learned helplessness phenomenon is a specific animal behavior induced by prior exposure to uncontrollable aversive stimuli. It was first found by Seligman and Maier (1967) in dogs and then has been reported in many other species, e.g. in rats (Vollmayr and Henn, 2001), in goldfishes (Padilla, 1970), in cockroaches (Brown, 1988) and also in fruit flies (Brown, 1996; Bertolucci, 2008). However, the learned helplessness effect in fruit flies (Drosophila melanogaster) has not been studied in detail. Thus, in this doctoral study, we investigated systematically learned helplessness behavior of Drosophila for the first time.
Three groups of flies were tested in heatbox. Control group was in the chambers experiencing constant, mild temperature. Second group, master flies were punished in their chambers by being heated if they stopped walking for 0.9s. The heat pulses ended as soon as they resumed walking again. A third group, the yoked fly, was in their chambers at the same time. However, their behavior didn’t affect anything: yoked flies were heated whenever master flies did, with same timing and durations. After certain amount of heating events, yoked flies associated their own behavior with the uncontrollability of the environment. They suppressed their innate responses such as reducing their walking time and walking speed; making longer escape latencies and less turning around behavior under heat pulses. Even after the conditioning phase, yoked flies showed lower activity level than master and control flies. Interestingly, we have also observed sex dimorphisms in flies. Male flies expressed learned helplessness not like female flies. Differences between master and yoked flies were smaller in male than in female flies. Another interesting finding was that prolonged or even repetition of training phases didn’t enhance learned helplessness effect in flies.
Furthermore, we investigated serotonergic and dopaminergic nervous systems in learned helplessness. Using genetic and pharmacological manipulations, we altered the levels of serotonin and dopamine in flies’ central nervous system. Female flies with reduced serotonin concentration didn’t show helpless behavior, while the learned helplessness effect in male flies seems not to be affected by a reduction of serotonin. Flies with lower dopamine level do not display the learned helplessness effect in the test phase, suggesting that with low dopamine the motivational change in learned helplessness in Drosophila may decline faster than with a normal dopamine level.