Impacto do tratamento do Helicobacter pylori na ansiedade e depressão em pacientes dispépticos funcionais

Milbradt, Tobias Cancian

January 2013

Background – A associação da infecção pela bactéria Helicobacter pylori com algumas doenças gástricas, como por exemplo, a úlcera gástrica e o câncer gástrico, é bem definida. No entanto, a associação da bactéria com outras doenças, especialmente extragástricas não está estabelecida. Métodos – Foi realizada avaliação da ansiedade e depressão e pesquisa do Helicobacter pylori com endoscopia em participantes de um estudo que avaliou os efeitos da erradicação do Helicobacter pylori sobre a dispepsia funcional. Pacientes com infecção por Helicobacter pylori dispepsia funcional foram randomizados para receber omeprazol, amoxicilina e claritromicina (grupo antibiótico) ou omeprazol mais placebo (grupo controle) por 10 dias. Os pacientes foram avaliados na baseline e 12 meses após. O principal desfecho do estudo foi avaliar a mudança no status de ansiedade e depressão após 12 meses nos dois grupos. Resultados – Foram incluídos 234 pacientes, 115 no grupo antibiótico e 119 no grupo controle. As informações do Hospital Anxiety and Depression Scale e pesquisa da bactéria foram obtidas de 213 pacientes (91,03%) na visita de 12 meses. Com respeito à avaliação da ansiedade após 12 meses os resultados foram: no grupo antibiótico 66,3%(69/104) não modificaram o status da ansiedade, 13,5% (14/104) que não apresentavam passaram a apresentar ansiedade, 20,2%(21/104) que apresentavam ansiedade passaram a não apresentar; no grupo controle 70,6% (77/109), 7,3% (8/109) e 22,0% (24/109) respectivamente. Resultando em um valor de P de 0,340. Quanto a depressão após 12 meses os resultados foram: no grupo antibiótico 71,2%(74/104) não modificaram o status da depressão, 18,3% (19/104) que não apresentavam passaram a apresentar depressão, 10,6%(11/104) que apresentavam depressão passaram a não apresentar; no grupo controle 69,7% (76/109), 10,1% (11/109) e 20,2% (22/109) respectivamente. Resultando em um valor de P de 0,057. Conclusão – Não foi observada relação estatística significativa entre o tratamento do Helicobacter pylori e a mudança de status de ansiedade e depressão nos sujeitos. / Background – The association of infection due to Helicobacter pylori bacteria with some gastric diseases, such as gastric ulcer and gastric cancer, is well defined. However, the association of the bacterium with other diseases, especially extra gastric ones, is not. Methods – We evaluated anxiety and depression and the presence of Helicobacter pylori through endoscopy, in subjects who participated in a study assessing the effects of Helicobacter pylori eradication, in functional dyspepsia. Subjects with Helicobacter pylori infection, suffering functional dyspepsia, were randomized to receive omeprazol, amoxicillin and claritromicin (antibiotic group) or omeprazol plus placebos (control group) during 10 days. Subjects were evaluated at baseline and after 12 months. The main outcome of the study was to assess the anxiety and depression change of status, after 12 months, in both groups. Results – We included 234 subjects: 115 in the antibiotic group and 119 in the control group. We obtained HADS information and bacteria research from 213 subjects (91.03%) at the 12 months visit. Regarding the 12-month anxiety assessment the results were: 66.3% (69/104) did not modify the anxiety status, 13.5% (14/104) who did not present previous signs of anxiety began showing signs of anxiety and 20.2% (21/104) who presented anxiety, ceased to present the condition in the antibiotic group; in the control group the results was 70.6% (77/109), 7.3% (8/109) and 22.0% (24/109) respectively, resulting in a P value of 0,340. As for depression, after 12 months, the results were: 71.2% (74/104) did not modify the depression status, 18.3% (19/104) who did not present previous signs of anxiety began showing signs of depression and 10.6% (11/104) who presented depression, ceased to present the condition in the antibiotic group; in the control group the results was 69.7% (76/109), 10.1% (11/109) and 20.2% (22/109) respectively, resulting in a P value of 0,057. Conclusion – No significant statistical value was observed between the treatment for Helicobacter pylori and the changing status of anxiety and depression in the subjects.

Interferon alfa

Farmacocinética

Depressão

Ansiedade

Helicobacter pylori

Modelling and analysis of macrophage activation pathways

Raza, Sobia

January 2011

Macrophages are present in virtually all tissues and account for approximately 10% of all body mass. Although classically credited as the scavenger cells of innate immune system, ridding a host of pathogenic material and cellular debris though their phagocytic function, macrophages also play a crucial role in embryogenesis, homeostasis, and inflammation. De-regulation of macrophage function is therefore implicated in the progression of many disease states including cancer, arthritis, and atherosclerosis to name just a few. The diverse range of activities of this cell can be attributed to its exceptional phenotypic plasticity i.e. it is capable of adapting its physiology depending on its environment; for instance in response to different types of pathogens, or specific cocktail of cytokines detected. This plasticity is exemplified by the macrophages capacity to adjust rapidly its transcriptional profile in response to a given stimulus. This includes interferons which are a group of cytokines capable of activating the macrophage by interacting with their cognate receptors on the cell. The different classes of interferons activate downstream signalling cascades, eventually leading to the expression (as well as repression) of hundreds of genes. To begin to fully understand the properties of a dynamic cell such as the macrophage arguably requires a holistic appreciation of its constituents and their interactions. Systems biology investigations aim to escape from a gene-centric view of biological systems. As such this necessitates the development of better ways to order, display, mine and analyse biological information, from our knowledge of protein interactions and the systems they form, to the output of high throughput technologies. The primary objectives of this research were to further characterise the signalling mechanisms driving macrophages activation, especially in response to type-I and type- II interferons, as well as lipopolysaccharide (LPS), using a ‘systems-level’ approach to data analysis and modelling. In order to achieve this end I have explored and developed methods for the executing a ‘systems-level’ analysis. Specifically the questions addressed included: (a) How does one begin to formalise and model the existing knowledge of signalling pathways in the macrophage? (b) What are the similarities and differences between the macrophage response to different types of interferon (namely interferon-β (IFN-β) and interferon-γ (IFN-γ))? (c) How is the macrophage transcriptome affected by siRNA targeting of key regulators of the interferon pathway? (d) To what extent does a model of macrophage signalling aid interpretation of the data generated from functional genomics screens? There is general agreement amongst biologists about the need for high-quality pathway diagrams and a method to formalize the way biological pathways are depicted. In an effort to better understand the molecular networks that underpin macrophage activation an in-silico model or ‘map’ of relevant pathways was constructed by extracting information from published literature describing the interactions of individual constituents of this cell and the processes they modulate (Chapter-2). During its construction process many challenges of converting pathway knowledge into computationally-tractable yet ‘understandable’ diagrams, were to be addressed. The final model comprised 2,170 components connected by 2,553 edges, and is to date the most comprehensive formalised model of macrophage signalling. Nevertheless this still represents just a modest body of knowledge on the cell. Related to the pathway modelling efforts was the need for standardising the graphical depiction of biology in order to achieve these ends. The methods for implementing this and agreeing a ‘standard’ has been the subject of some debate. Described herein (in Chapter-3) is the development of one graphical notation system for biology the modified Edinburgh Pathway Notation (mEPN). By constructing the model of macrophage signalling it has been possible to test and extensively refine the original notation into an intuitive, yet flexible scheme capable of describing a range of biological concepts. The hope is that the mEPN development work will contribute to the on-going community effort to develop and agree a standard for depicting pathways and the published version will provide a coherent guide to those planning to construct pathway diagrams of their biological systems of interest. With a desire to better understand the transcriptional response of primary mouse macrophages to interferon stimulation, genome wide expression profiling was performed and an explorative-network based method applied for analysing the data generated (Chapter-4). Although transcriptomics data pertaining to interferon stimulation of macrophages is not entirely novel, the network based analysis of it provided an alternative approach to visualise, mine and interpret the output. The analysis revealed overlap in the transcriptional targets of the two classes of interferon, as well as processes preferentially induced by either cytokine; for example MHC-Class II antigen processing and presentation by IFN-γ, and an anti-proliferative signature by IFN-β. To further investigate the contribution of individual proteins towards generating the type-I (IFN-β) response, short interfering RNA (siRNA) were employed to repress the expression of selected target genes. However in macrophages and other cells equipped with pathogen detection systems the act of siRNA trasfection can itself induce a type-I interferon response. It was therefore necessary to contend with this autocrine production of IFN-β and optimise an in vitro assay for studying the contribution of siRNA induced gene-knock downs to the interferon response (described in Chapter-5). The final assay design incorporated LPS stimulation of the macrophages, as a means of inducing IFN-β autonomously of the transfection induced type-I response. However genome-wide expression analysis indicated the targeted gene knock-downs did not perturb the LPS response in macrophages on this occasion. The optimisation process underscored the complexities of performing siRNA gene knockdown studies in primary macrophages. Furthermore a more thorough understanding of the transcriptional response of macrophages to stimulation by interferon or by LPS was required. Therefore the final investigations of this thesis (Chapter-6) explore the transcriptional changes over a 24 hour time-course of macrophage activation by IFN-β, IFN-γ, or LPS and the contribution of the macrophage pathway model in interpreting the response to the three stimuli. Taken together the work described in this thesis highlight the advances to be made from a systems-based approach to visualisation, modelling and analysis of macrophage signalling.

571.96

A retrospective study characterizing the complete s open reading frame of hepatitis B virus from black children with membranous nephropathy treated with interferon alpha-2b

Gous, Natasha Myrna

06 August 2008

ABSTRACT In sub-Saharan Africa a causal relationship has been established between hepatitis B virus (HBV) infection and membranous nephropathy (MN), especially in Black children. The most common method of treatment is interferon therapy, which is however, only effective in 30-40% of patients. The reason for this is unclear. The objective of this pilot study was to determine whether mutations in the complete surface gene of HBV isolated from Black children with HBV-associated MN before, during and after treatment with interferon, had any effect on treatment response and vice versa. HBV DNA was extracted from the serum of a responder, reverter and non-responder patient before, during (4 and 16 weeks) and after (40 weeks) IFN treatment. The preS1/preS2/S region was amplified and cloned, and the clones sequenced. Sequence analyses revealed the preS2 region to be the most variable in the reverter and non-responder and HBsAg was the most variable in the non-responder. Phylogenetic analysis showed that the viral population dynamics between the responder strains and the reverter/non-responder strains differed as a result of various mutations found within the surface gene. Thus the presence of mutations in preS2 and HBsAg of the non-responding patients may carry predictive markers for nonresponse but further investigation would be needed to conclusively prove this.

hepatitis B virus

membranous nephropathy

interferon alpha

Therapie kutaner Tumoren : Identifizierung molekularer Biomarker der ex vivo Chemosensitivität des malignen Melanoms und Evaluierung der Wirkungsweise von Interferonen und Artemisininen auf das Merkelzellkarzinom / Treatment of cutaneous tumors

Willmes, Christoph

January 2013

Für Patienten mit malignem Melanom im Stadium der Fernmetastasierung gibt es bis heute lediglich Therapieoptionen mit sehr eingeschränkten Erfolgsaussichten. Diese Tatsache bestätigt die Notwendigkeit von Biomarkern zur Vorhersage des Erfolgs verschiedener Therapien. Der ATP-basierende ex vivo Chemosensitivitätsassay hat sich als erfolgreiche Methode zur individuellen Vorhersage eines Chemotherapieerfolgs herausgestellt. Tatsächlich zeigte der Assay ein heterogenes Sensitivitätsprofil gegen verschiedene Chemotherapeutika und ließ in getesteten Patienten ein ex vivo wirksames Chemotherapieregime identifizieren, das anschließend auch klinische Therapieerfolge bei Verwendung der Therapie mit dem besten individuellen Chemosensitivitätsindex(BICSI) zeigte. Um diesen sehr aufwendigen Assay zukünftig zu umgehen, sollten in der vorliegenden Arbeit prädiktive molekulare Biomarker der Chemosensitivität identifiziert werden. Hierfür wurden im Voraus durch einen Microarray die Kandidaten Secernin 1 (SCRN1), Lysyl oxidaselike 1 (LOXL1), Thymosin beta 4 X-linked (TMSB4X), Vesicle-associated membrane protein 5 (VAMP5) und Serine protease inhibitor B1 (SERPINB1) als differentiell exprimierte Gene in chemosensitivem gegenüber chemoresistentem Gewebe identifiziert. Die relative Expression dieser Kandidatengene wurde daraufhin in bis zu 128 verschiedenen Melanomgeweben mit dem Chemosensitivitätsindex verschiedener Chemotherapeutika korreliert. Hierbei konnte eine signifikante Korrelation zwischen SerpinB1 mit der Chemosensitivität gegenüber der Therapiekombination mit Paclitaxel und Cisplatin auf Gen- aber nicht auf Proteinebene identifiziert werden. Weiterhin konnte eine differentielle Expression ebenfalls in chemosensitiven und -resistenten Melanomzelllinien nachgewiesen werden, die allerdings im Vergleich mit dem analysierten Gewebe in gegensätzlicher Richtung verlief. Zusammenfassend lässt sich sagen, dass SerpinB1 ein vielversprechender Marker für die Chemosensitivität gegenüber Paclitaxel und Cisplatin ist, dessen funktionelle Bedeutung aber unklar bleibt. Das Merkelzellkarzinom (MCC) ist ein seltener und hoch aggressiver Tumor der mit dem Merkelzellpolyomavirus (MCV) in Zusammenhang steht. Da MCC Zelllinien zur Aufrechterhaltung ihrer Viabilität die MCV T-Antigene benötigen, könnte der Einsatz von Interferonen (IFN) ein möglicher therapeutischer Ansatz zur Behandlung dieser Krebserkrankung sein. In der vorliegenden Arbeit haben wir daher die Effekte von IFNs auf MCC Zelllinien, mit besonderer Berücksichtigung der MCV+ Linien, untersucht. IFNs vom Typ I (hier Multiferon, ein Mix verschiedener IFN α Subtypen, und IFN β) wirkten stark inhibierend auf die zelluläre Viabilität. Die Zellzyklusanalyse zeigte eine Erhöhung des sub-G Anteils der Zellen nach Behandlung mit IFN, was auf Apoptose als ausschlagebenden Grund schließen ließ. Diese Effekte waren für die Behandlung mit IFN β weniger stark ausgeprägt. Der inhibitorische Effekt von Typ I IFNs auf MCV+ MCC Zelllinien war assoziiert mit einer verringerten Expression des viralen großen T-Antigens (LTA) und einer Erhöhung in der Expression von promyelocytic leukemia protein (PML), das dafür bekannt ist, die Funktion des LTA störend zu beeinflussen. Zusätzlich führte die intratumorale Anwendung von Multiferon in vivo zu einer Regression im Wachstum von MCV+, aber nicht MCV- MCC Xenotransplantaten. Die Ergebnisse zeigen das Typ I IFNs einen starken antitumoralen Effekt haben, der zum Teil durch die Regulierung des LTA herbeigeführt wird. Neben diesen direkten Effekten der IFNs auf die Zellproliferation induzieren diese auch die Expression von MHC Klasse I Molekülen in MCC Zelllinien. Die Durchflusszytometrie zeigte eine Induktion der MHC Klasse I Expression in drei MHC I negativen MCC Zelllinien und eine Erhöhung der Expression, die vor der Behandlung eine geringe Menge an MHC I aufwiesen. Diese Effekte konnten auch in den in vivo Xenotransplantaten beobachtet werden. Die Ergebnisse zeigen, dass die Behandlung mit IFN sowohl direkte als auch indirekte Effekte auf das MCC hat und eine breite Anwendung in Patienten mit MCV+ und MCV- Tumoren finden kann. Neben IFNs sind auch Artemisinin und seine Derivate bekannt für ihre antitumoralen und antiviralen Eigenschaften. Daher haben wir den Effekt des Artemisininderivats Artesunate auf MCV+ und MCV- MCC Zelllinien getestet. Tatsächlich konnten wir auch hier einen antiproliferativen Effekt des Stoffes nachweisen, der stärker auf MCV+ als auf MCV- Zelllinien wirkte und bei ersteren wiederum mit einer reduzierten LTA Expression einherging. Im Vergleich dazu blieben Fibroblasten von der Behandlung unbeeinflusst. Das verringerte Tumorwachstum konnte ebenfalls für in vivo Xenotransplantationsmodelle gezeigt werden. Auf Grundlage dieser Erkenntnis sollte eine genauere Untersuchung dieses alten Naturheilstoffes für die Behandlung von MCC Patienten in Betracht gezogen werden. / For melanoma patients with distant metastases all available therapeutic options demonstrate only very limited efficacy up to date. This fact substantiates the need of predictive markers for therapy response. For example, ex-vivo chemosensitivity testing by an ATP-based luminescence assay is a promising tool to predict the individual outcome of different chemotherapy regimens. Indeed, this assay demonstrates a heterogeneous chemosensitivity against different cytotoxic drugs which correlates with chemotherapy outcome in terms of therapy response and overall survival; for the treatment of the patient the drug with the best individual chemosensitivity index(BICSI) is used. To circumvent this elaborate assay in the future, we want to identify and characterize predictive molecular biomarkers of specific chemosensitivity. Initially, predictive biomarker aspirants were identified by a microarray comparing chemosensitive and chemoresistant melanoma cell lines. To this end, we found Secernin 1 (SCRN1), Lysyl oxidaselike 1 (LoxL1), Thymosin beta 4 X-linked (TMSB4X), Vesicleassociated membrane protein 5 (Vamp 5) and Serine protease inhibitor B1 (SerpinB1) as differential expressed in chemosensitive versus chemoresistant melanoma cells. Furthermore, we correlated the relative expression of our candidates with the chemosensitivity index of different chemotherapy regimes in up to 128 melanoma tissues so far. Importantly, we found a significant correlation between SerpinB1 gene but not protein expression and chemosensitivity towards Paclitaxel and Platin. Moreover, we also detected a differential expression of SerpinB1 in melanoma cell lines which however was running in reverse direction compared to the analyzed tissues. In conclusion, SerpinB1 seems to be a promising biomarker for prediction of Paclitaxel and Platin chemosensitivity. Merkel cell carcinoma (MCC) is a rare and highly aggressive skin cancer associated with the Merkel cell polyomavirus (MCV). As MCC cell lines demonstrate oncogene addiction to the MCV T-antigens, pharmacological interference of the large T-antigen(LTA) may represent an effective therapeutic approach for this deadly cancer. In this study, we investigated the effects of interferons (IFNs) on MCC cell lines, especially on MCV positive (MCV+) lines. Type I IFNs (i.e. Multiferon, a mix of different IFN α subtypes, and IFN β) strongly inhibited the cellular viability. Cell cycle analysis demonstrated increased sub-G fractions for these cells upon IFN treatment indicating apoptotic cell deathν these effects were less pronounced for IFN β. Notably, this inhibitory effect of type I IFNs on MCV+ MCC cell lines was associated with a reduced expression of the MCV LTA as well as an increased expression of promyelocytic leukemia protein (PML), which is known to interfere with the function of the LTA. In addition, the intra-tumoural application of multiferon resulted in a regression of MCV+ but not MCV- MCCs in vivo. Together, our findings demonstrate that type I IFNs have a strong antitumour effect, which is at least in part explained by modulation of the virally encoded LTA. Moreover, in addition to directly affecting MCC cell proliferation, IFNs strongly reinduce MHC class I expression in MCC cells. Flowcytometry demonstrated a re-induction of MHC class I expression upon IFN treatment in three MHC class I- MCV+ cell lines and an increase in MHC class I expression in cell lines that were characterized by a weak expression prior to treatment. Importantly, the increase or induction of MHC class I expression could also be demonstrated in vivo in xenotransplantation models. These results imply that IFN treatment has both a direct and an indirect effect in MCC and should be applicable in a general manner, i.e. irrespective of the MCV status of the patient. Beside IFN, Artemisinins are also known for their antitumoral and antiviral properties. In consequence, we tested the effect of Artesunate, i.e., an Artemisinin drivate, on MCV+ and MCV- MCC cell lines. In this regard, we could demonstrate an antiproliferative effect which was stronger on MCV+ cell lines, and which was associated with a reduced expression of the viral LTA. In contrast, fibroblasts were uneffected by Artenusate treatment. The reduced tumor growth could also be shown in vivo by intra-tumoral injection of Artesunate in MCV+ xenotransplantation models. According to these findings, a more detailed investigation of this ancient natural drug for the treatment of MCC patients should be considered.

Interferon

Melanom

Qinghaosu

Merkel-Zellkarzinom

ddc:570

Glycosylation by Chinese Hamster Ovary Cells in Dolichol Phosphate-Supplemented Cultures

Yuk, Inn Huam Yvonne., Wang, Daniel I.C.

01 1900

N-linked glycosylation often imparts important properties to protein therapeutics. An essential step in this intracellular process is the transfer of oligosaccharide from dolichol monophosphate (Dol-P) to a potential glycosylation site. Variability in the success rate of this reaction affects the extent of protein glycosylation. The critical role of Dol-P suggests that its availability may influence the extent of glycosylation by limiting the pool of lipid-linked oligosaccharides (LLOs), the glycosyl donor. To test this hypothesis, the impact of Dol-P supplementation on protein glycosylation in Chinese hamster ovary (CHO) cells was investigated. Although exogenous Dol-P was incorporated by CHO cells and processed into LLOs in a dose-dependent manner, Dol-P supplementation had no marked effects on LLO or overall cellular glycosylation levels. While concentrations of exogenous Dol-P exceeding 100 µg/ml were detrimental to CHO cell viability, maximum non-toxic supplemental doses of Dol-P had no significant impact on the glycosylation of recombinant interferon-γ produced by batch cultures of CHO cells. These results show that glycosylation in CHO cells cannot be readily enhanced by Dol-P feeding under normal culture conditions. / Singapore-MIT Alliance (SMA)

batch culture

interferon-γ

lipid-linked oligosaccharide

Transcriptional control of interferon gamma synthesis by natural killer cells

Becknell, Michael B.

January 2006

Thesis (Ph. D.)--Ohio State University, 2006. / Full text release at OhioLINK's ETD Center delayed at author's request

Identification of Mutations in the NS1 Gene That Control Influenza A Virus Virulence in the Mouse Model

Dankar, Samar

03 October 2012

The genetic requirements for Influenza virus to infect and adapt to new species is largely unknown. To understand the evolutionary steps required by a virus to become virulent, a human virus (A/HK/1/68) (HK), avirulent in mice, was subjected to 20 and 21 serial lung-to-lung passages in mouse. Sequence analysis revealed the emergence of eleven mutations within the NS1 gene of the new virulent strains, many of which occurred in binding sites for transcriptional and translational cellular factors. In the present study we have rescued viruses containing each of the NS1 mouse adapted mutations onto A/PR/8/34 (PR8) backbone. We found 9 of 16 NS1 mutants were adaptive by inducing mortality, body weight loss in BALB/c mice and enhanced virus replication in MDCK cells with properties of host cell interferon transcription inhibition. Sequence comparisons with the highly pathogenic A/Hong Kong/156/1997 (H5N1) and the most severe pandemic A/Brevig Mission/1/1918 (H1N1) NS1 genes showed convergent evolution with some of the mouse adapted viruses for F103L plus M106I and V226I plus R227K mutations respectively. The F103L and M106I mutations in the HK NS1 gene were shown to be adaptive by assessment with respect to replication, early viral protein synthesis, interferon-β antagonism and tropism in the mouse lung. We extended the study and proved increased virulence associated with F103L+M106I mutations in their respective H5N1 NS1 gene on the PR8 and HK backbones, as well as the PR8 NS1 gene and the H9N2 (A/Ck/Bj/1/95) gene in the PR8 and A/WSN/33 backbones respectively. However the V226I and R227K mutations in their respective HK and 1918 NS1 genes slightly enhanced virulence and viral growth at later stages of infection. This study demonstrates that NS1 is a virulence factor; involved in multiple viral processes including interferon antagonism and viral protein synthesis. Furthermore, NS1 mutations acquired during mouse adaptation are proven to be adaptive in human, mouse and avian NS1 genes.

Influenza A virus

NS1

Virulence

Adaptation

Interferon

Epistasis

Functional Roles of the SWI/SNF ATPase Brahma Related Gene 1 (BRG1) and Special AT-Rich Binding Protein (SATB1) in Virus Response and Innate Immunity

Torti, Dax

31 August 2012

The innate immune response is a primary transcriptional defence network activated by interferons (IFNs) α/ β in response to viral infection. A cell must have the capability to detect the virus, activate signalling cascades, and engage transcriptional anti-viral networks. IFNs trigger the Signal Transducer and Activator of Transcription (STAT) family, which in turn induce anti-viral gene expression. Recruitment of STATs to IFN stimulated gene (ISG) promoters and the ensuing gene induction requires Brahma Related Gene 1 (BRG1), the catalytic component of the SWI/ SNF chromatin remodelling (or BAF) complex. Cell lines with high BRG1 expression are hyper-responsive to IFN induced transcription, conversely BRG1 low cells exhibit impaired induction. However, BRG1 high cells that are resistant to Encephalomyocarditis virus infection did not require signalling through the IFN receptor complex for anti-viral immunity. This suggested 2F-BRG1 cells must rely on BRG1 dependent non-ISGs or an as yet uncharacterized subset of basally expressed BRG1-dependent ISGs that do not require IFN enhanced expression for anti-viral activity. Utilizing genome wide microarrays we identified five genes with potent anti-viral activity. These genes may restrict viral infection through alterations in integrin signalling, endosomal trafficking, and activation of host transcriptional responses. We also investigated the role of Special AT-Rich Binding Protein (SATB1) in regulation of IFN responsive genes. The loss of this chromatin binding protein is associated with transcriptional changes in the MHC locus that mimic IFNγ induced expression. Through microarray analysis we discovered a remarkable 47% of IFNα regulated genes were co-regulated by SATB1; 42% of IFNα induced genes were induced by SATB1 knock down, while 63% of IFNα repressed genes were SATB1 dependent. Functionally, knock down of SATB1 protected cells from EMCV induced cell death at low multiplicity of infection (MOI), and increased the cytoprotective effect of IFNα against EMCV at higher MOIs. Analysis of IFNα, SATB1 and BRG1 regulated genes revealed a subset of core genes regulated by all three factors that may be critical to robust anti-viral immunity. The potent immunosuppressive properties of SATB1 suggest this protein may be involved in complex immunopathologies. The immuno-modulatory properties of SATB1 and BRG1 established in this thesis provide substantive evidence for the development of pharmaceutical therapies targeting these proteins.

BRG1

SATB1

Interferon

Innate Immunity

0307

Functional Roles of the SWI/SNF ATPase Brahma Related Gene 1 (BRG1) and Special AT-Rich Binding Protein (SATB1) in Virus Response and Innate Immunity

Torti, Dax

31 August 2012

The innate immune response is a primary transcriptional defence network activated by interferons (IFNs) α/ β in response to viral infection. A cell must have the capability to detect the virus, activate signalling cascades, and engage transcriptional anti-viral networks. IFNs trigger the Signal Transducer and Activator of Transcription (STAT) family, which in turn induce anti-viral gene expression. Recruitment of STATs to IFN stimulated gene (ISG) promoters and the ensuing gene induction requires Brahma Related Gene 1 (BRG1), the catalytic component of the SWI/ SNF chromatin remodelling (or BAF) complex. Cell lines with high BRG1 expression are hyper-responsive to IFN induced transcription, conversely BRG1 low cells exhibit impaired induction. However, BRG1 high cells that are resistant to Encephalomyocarditis virus infection did not require signalling through the IFN receptor complex for anti-viral immunity. This suggested 2F-BRG1 cells must rely on BRG1 dependent non-ISGs or an as yet uncharacterized subset of basally expressed BRG1-dependent ISGs that do not require IFN enhanced expression for anti-viral activity. Utilizing genome wide microarrays we identified five genes with potent anti-viral activity. These genes may restrict viral infection through alterations in integrin signalling, endosomal trafficking, and activation of host transcriptional responses. We also investigated the role of Special AT-Rich Binding Protein (SATB1) in regulation of IFN responsive genes. The loss of this chromatin binding protein is associated with transcriptional changes in the MHC locus that mimic IFNγ induced expression. Through microarray analysis we discovered a remarkable 47% of IFNα regulated genes were co-regulated by SATB1; 42% of IFNα induced genes were induced by SATB1 knock down, while 63% of IFNα repressed genes were SATB1 dependent. Functionally, knock down of SATB1 protected cells from EMCV induced cell death at low multiplicity of infection (MOI), and increased the cytoprotective effect of IFNα against EMCV at higher MOIs. Analysis of IFNα, SATB1 and BRG1 regulated genes revealed a subset of core genes regulated by all three factors that may be critical to robust anti-viral immunity. The potent immunosuppressive properties of SATB1 suggest this protein may be involved in complex immunopathologies. The immuno-modulatory properties of SATB1 and BRG1 established in this thesis provide substantive evidence for the development of pharmaceutical therapies targeting these proteins.

BRG1

SATB1

Interferon

Innate Immunity

0307

Role and Importance of NS1 Protein of Avian Influenza Virus to Grow in the Presence of Interferon and Evaluation of the NS1 Mutant Viruses as Potential DIVA Vaccines

Brahmakshatriya, Vinayak

2009 August 1900

A proper vaccination program can play a critical role in prevention and control of avian influenza (AI) in commercial poultry. Low pathogenic avian influenza viruses (LPAIV) of H5 and H7 AI subtypes cause serious economic losses to the poultry industry and have the potential to mutate to highly pathogenic AI (HPAI) strains. Due to trade implications, differentiation of infected from vaccinated animals (DIVA) is an important issue in the control of AI. Therefore, the development and characterization of vaccine candidates with DIVA properties is critical in improving vaccination programs. Keeping these aspects in mind, we investigated the role of an NS1 mutant virus as a potential live attenuated DIVA vaccine. The NS1 protein of influenza virus plays a major role in blocking the host's antiviral response. Using an eight-plasmid reverse genetics system, we recovered the low pathogenic parental (H5N3) and NS1 mutant (H5N3/NS1/144) viruses. H5N3/NS1/144 expresses only the first 144 amino acids of the NS1 protein compared to the 230 of the parental H5N3. The growth properties of H5N3 and H5N3/NS1/144 were compared in cell culture and in different age embryonated chicken eggs. Our results confirmed that NS1 is involved in down regulation of interferon as shown by IFN-beta mRNA expression analysis and by the inability of H5N3/NS1-144 to efficiently grow in older age, interferon competent, chicken embryos. However with regards to safety the virus reverted to virulence within five back passages in chickens and was therefore not a safe vaccine candidate. However the killed form of H5N3/NS1-144 was a safer alternative and it also induced antibody titers and protection not significantly different from the parental H5N3 as vaccine. To further understand the reversion of H5N3/NS1/144 to virulence, we carried out 3 independent serial passages of H5N3/NS1/144 in increasing age of embryonated chicken eggs and examined the NS1 gene for presence of mutations. RT-PCR and sequence analysis of the NS gene in all three lineages showed the presence of a 54 amino acid deletion resulting in the generation of a 87 amino acids long NS1 ORF with a point mutation (L80V) at the site of deletion. In addition, the NS1 ORF in lineages L2 and L3 presented two additional point mutations in the RNA binding domain (Q40R and T73M). To determine if these mutations played a role in increased virulence, recombinant viruses expressing these mutant NS1 proteins in the background of parental virus were generated by reverse genetics and their replication properties and pathogenicity was examined in vitro, in ovo and in vivo systems. Our results showed that the 87 amino acid long NS1 protein clearly increased virus replication and virulence specifically in interferon competent systems. In addition, the two point mutations in the RNA binding domain of NS1 ORF expressing 87 a protein slightly increased the virus virulence. Overall this study reinforces the role of NS1 in influenza virus pathogenicity and supports the use of killed inactivated NS1 mutant virus vaccines as potential DIVA vaccines.

DIVA

Influenza

Avian Influenza

Chickens

Interferon

NS1