Interakce myšího polyomaviru s Toll-like receptory / Interactions of mouse polyomavirus with Toll-like receptors

Pokorná, Karolína

January 2017

Toll-like receptors (TLRs) are important receptor family of innate immunity. They enable fast recognition of infection through so called pathogen associated molecular patterns (PAMPs). In this thesis, we studied interaction of mouse polyomavirus (MPyV) with TLRs of mouse embryonic fibroblasts (MEF cells). We observed that inhibition of TLR4 signaling abolished response of MEF cells to MPyV. This suggested that TLR4 plays a role in MEF cells recognition of MPyV. To detect response of MEF cell to MPyV, we measured IL-6 production by ELISA. Next, we investigated effect of TLR4 signalization on MPyV infection. Inhibition of TLR4 signaling with CLI-095 inhibitor did not affect number of infected cells. Presence of TLR4 antagonist, LPS-RS, led to significant decrease in quantity of infected cells 20 hours post infection. Decrease in number of infected cells was also observed in presence of LPS. Viral infection was also inhibited by TLR9 antagonist ODN 2088. We also investigated role of MAP kinases in MPyV infection. We tested, whether inhibition of selected MAP kinases would affect number of infected cells. Inhibition of kinase p38 did not affect infection. On the other hand, inhibition of MEK kinase or JNK resulted in decrease of number of cells infected by MPyV.

Interakce polyomavirových struktur v endoplasmatickém retikulu a na cestě do jádra / Interactions of polyomavirus structures in the endoplasmic reticulum and on the path to the nucleus

Svobodová, Terezie

January 2017

Mouse polyomavirus is a member and model virus of Polyomaviridae family. In order to infect cells and produce viral progeny, the viral chromosome must be transported to the nucleus. Several studies suggest that virions are transporeted to the endoplasmic reticulum, from which they are transferred to the cytosol with assistace of host proteins. Two of these proteins are the chaperon, BiP (binding immunoglobulin protein) and the cochaperone, DNAJ B14. Polyomaviruses probably enter the nucleus through nuclear pores with the assistence of importins. These processes were mainly studied with SV40. In this work, we show that MPyV infection induces a change in distribution of the DNAJ B14 protein, which became clustered into foci, where it co-localizes with the viral capsid protein, VP1. The occurrence of foci varies during infection. With use of proximity ligation assay, we have shown that during an early fase of MPyV infection, DNAJ B14 and BiP get in the close proximity with VP1. It is suggested that negatively charged amino acids at the N-terminus of the minor capsid protein, VP2, are required for targeting virions to translocon and proteins associated with ERAD. We created MPyV with VP2 mutated in these amino acids. The negatively charged amino acid at position 17 is not necessary for successful...

Studium vlastností virových kapsidových proteinů a vývoj rekombinantních vakcín a diagnostických komponent založených na umělých virových strukturách / Studies of properties of viral capsid proteins and development of recombinant vaccines and diagnostic components based on artificial viral structures

Fraiberk, Martin

January 2017

The aim of this study was to develop a system for easy production of different veterinary chimeric vaccines based on stable mouse polyomavirus (MPyV) structures. The system is designed for antigens that are problematic in production or stability. First, universal vectors for baculovirus-directed production of chimeric MPyV VLPs or pentamers based on the major capsid protein VP1 were designed to be exploited as vaccines against other pathogens. The different strategies used in this study are based on: A) exposure of selected immunogenic epitopes on the surface of MPyV VLPs by inserting them into a surface loop of the VP1 protein, B) insertion of foreign protein molecules inside the VLPs, or C) fusion of a foreign protein or its part with the C-terminus of VP1 protein, thus forming giant pentamers of a chimeric protein. Candidate vaccine antigens against porcine circovirus 2 (PCV2), the causative agent of porcine circovirus 2 systemic diseases (PCV2-SD) which causes significant economic losses in swine breeding, were prepared using the constructed vectors. All candidate vaccines induced the production of antibodies against the capsid protein of PCV2 after immunization of mice. The candidate vaccine Var C based on fusion of MPyV and PCV2 capsid proteins, is able to induce production of antibodies with...

Cílení virových nanočástic na CD44 receptor pomocí kyseliny hyaluronové / Targeting of Viral Nanoparticles to CD44 via Hyaluronic Acid

Hustedová, Anna

January 2020

Hyaluronic acid (HA) is widely studied as a targeting moiety to CD44 overexpressing cancer cells. Various types of nanoparticles (NPs) were modified by HA. Virus-like particles (VLPs) derived from mouse polyomavirus are an interesting class of NPs that can be modified by various targeting agents to increase their potential as gene or drug delivery vehicles for e.g. theragnostic purposes. HA has not been tested as a targeting moiety on VLPs, hence this was the focus of the current study. HA (~14 kDa) was attached to the VLPs via a bispecific Bodipy-derived fluorescent probe. To test the targeting potential of HA on comparable non-viral NPs, nanodiamonds were prepared in a similar manner. NPs functionalized with HA, together with Bodipy-labeled control variants, were tested on interactions with MDA-MB-231 cells overexpressing CD44. The NP-cell interaction via CD44 was assessed by a competitive cell-binding assay, where non-labeled HA competed for HA-binding sites at CD44 with the NPs. CD44 specific cell interactions were detected in studies with HA functionalized nanodiamonds, whereas VLP-HA* associated with cells in a less specific manner. Control VLPs with polyethylene glycol (PEG) did not interact with the cells. Results indicate that the HA targeting strategy for the VLPs requires optimization to...

Innate Signaling Pathways in the Maintenance of Serological Memory: A Dissertation

Raval, Forum M.

21 June 2012

Long-term antiviral antibody responses provide protection from re-infection and recurrence of persistent viruses. Using a polyomavirus (PyV) mouse model, our lab has shown that MyD88-deficient mice generate low levels of virus-specific IgG after the acute phase of infection and that these IgG responses have a skewed isotype distribution with low levels of IgG2a/c. Moreover MyD88-deficient mice have reduced numbers of long-lived plasma cells in the bone marrow. These studies suggest an important role of MyD88-mediated signaling in long-term antiviral responses. Our lab has shown that T cell-deficient mice can also maintain long-term virus-specific IgG responses following PyV infection. The goal of this thesis is to evaluate the role of innate signaling pathways in maintaining serological memory to persistent virus infection and to elaborate on how long-term antiviral responses can be maintained in an immunocompetent or partially immune compromised, T cell-deficient host. Regarding T cell-dependent B cell responses, I set out to investigate the upstream and downstream components of the MyD88-mediated pathways required for normal antibody isotype and long-term humoral responses. IgG2a is a predominant immunoglobulin isotype in most virus infections. Wild type mice, in response to PyV infection, primarily induce antiviral IgG2a with some IgG1. MyD88-deficient mice in response to PyV infection display attenuated levels of virus-specific IgG2a, but normal levels of IgG1. Using Unc93B1 mutant mice (3d mice), which are defective in TLRs 3, 7 and 9 signaling, I show that 3d mice also generated low levels of virus-specific IgG2a following PyV infection. Studies in individual TLR3-/-, TLR7-/- or TLR9-/- mice displayed PyV-specific IgG2a responses similar to wild type responses. TLR7 and TLR9 double deficient mice generated similar skewed antibody isotype responses, where virus-specific IgG2a was reduced compared to wild type mice. This shows that TLR7 and TLR9-MyD88 mediated pathways are important in regulating IgG2a responses during a PyV infection. To investigate what components downstream of MyD88 are involved in mediating IgG2a responses, I worked with IRF5-deficient mice. IRF5 is a transcription factor that is activated upon stimulation of TLR7 or TLR9-MyD88-mediated pathways. Moreover, IRF5-deficient mice cannot generate autoantibodies specifically of the IgG2a isotype in a mouse lupus model, suggesting that IRF5 plays an important function in mediating class switching to IgG2a. In vitro studies where IRF5-/- B cells were stimulated with TLR7 or TLR9 ligands also generated low levels of γ2a germ-line transcripts, suggesting a B cell-intrinsic role for IRF5 in regulating γ2a germ-line transcription. PyV infection of IRF5-deficient mice resulted in similar skewed isotypes as observed in MyD88-deficient and 3d mice. To investigate a B cell-intrinsic role for IRF5 in regulating IgG2a responses in vivo upon PyV infection, I transferred IRF5-/- B cells and WT T cells into RAG KO mice prior to infection and compared the responses of these mice with mice reconstituted with wild type B6 B and T cells. Diminished numbers of IgG2a+ B cells and reduced levels of virus-specific IgG in mice reconstituted with IRF5-/- B cells were seen compared to mice reconstituted with wild type B cells. Regarding the defect in long-term IgG production in MyD88-/- mice upon PyV infection, I conducted studies in IRF5-/-, 3d, single TLR3-/-, TLR7-/-, TLR9-/- and TLR7/9 double deficient mice. These studies reveal an important and redundant role for TLR7- and TLR9-MyD88 signaling in maintaining long-term anti-PyV IgG responses. To determine how MyD88 signaling affects the generation of long-lived plasma cells and memory B cells, I investigated germinal center (GC) responses in MyD88-deficient mice. A defect in GC B cell numbers is observed in MyD88-deficient mice after the acute phase of infection. The GC reaction is essential for the generation and maintenance of long-lived plasma cells and memory B cells. T follicular helper (TFH) cells are absolutely required to generate normal GC. l found reduced numbers of TFH cells in MyD88-deficient mice. Lower numbers of T FH cells suggests that poor T cell help may contribute to the diminished number of GC B cells. However, interaction with B cells is required for the formation of fully differentiated TFH cells. Along with B cell function, MyD88 signaling can affect T cell and dendritic cell function as well. Thus, it is not clear at this point whether the requirement for intact MyD88 signaling for the formation and maintenance of long-term B cell populations is completely B cell-intrinsic. Some viruses can induce T cell-independent B cell responses, perhaps due to their complex arrays of repetitive antigenic epitopes on virions, coupled with the induction of innate cytokines. Nevertheless, T cell help is usually necessary for generating long-term antibody responses in the form of long-lived plasma cells and memory B cells. In contrast, our lab has found that T cell-deficient mice infected with PyV develop long-lasting, protective antiviral IgG responses. I questioned whether these mice could generate TI B cell memory cells or long-lived plasma cells. I show that long-lasting anti-PyV antibody in T cell-deficient mice was not due to the presence of long-lived plasma cells or memory B cell responses. TCRβδ deficient mice, which lack both CD4 and CD8 T cells, had ~10 a times higher virus load persisting in various organs. Therefore, I hypothesized that the high level of persistent PyV antigen, in completely T cell-deficient mice, may activate naïve B cell populations continuously, thereby maintaining the long-lasting IgG responses. Prior to PyV infection, T cell-deficient mice received wild type CD8 T cells, which reduced PyV loads, and this was associated with decreased levels of antiviral serum IgG over time. As in TCRβδ deficient mice, high PyV loads were detected in the bone marrow, which is the site for B cell lymphopoiesis, I questioned how B cells develop in the presence of PyV antigen and still stay responsive to PyV, generating long-term antiviral IgG responses in the periphery. Studies have shown that self-antigens that trigger both B cell receptor signaling and TLR-MyD88 signaling pathways in the bone marrow lead to the breaking of B cell tolerance and production of autoantibody in the periphery. Thus, we hypothesized that high PyV levels in the bone marrow signal through both B cell-receptors and TLRs, allowing continuous antiviral antibody production by B cells. Using mice that are deficient in T cells and MyD88 signaling, I found that PyV-specific TI IgG levels gradually decreased, supporting this hypothesis. Thus, high PyV loads and innate signaling together can break B cell tolerance. During a persistent virus infection this can result in sustaining long-term protective T cell-independent IgG responses.

Immunity

Innate

Serology

Polyomavirus

Polyomavirus Infections

Immunoglobulin G

Amino Acids, Peptides, and Proteins

Animal Experimentation and Research

Hemic and Immune Systems

Immunology and Infectious Disease

Virus Diseases

Viruses

Příprava experimentálního systému pro studium životního cyklu myšího polyomaviru / Experimental system for the mouse polyomavirus life cycle study

Pergner, Jiří

January 2010

Experimental system for the mouse polyomavirus life cycle study Abstract: Murine polyomavirus (MPyV) is the prototype of the Polyomaviridae family. This family includes also some important human pathogens (BKV, JCV, Merkel cell polyomavirus). Due to their specific properties viruses within this family may serve as versatile vectors for gene therapy or recombinant vaccine production. New methodological approaches may help to understand some yet unknown facts about MPyV life cycle. Clarification of some processes during murine polyomavirus life cycle may be also important to fully exploit polyomaviruses for therapeutic purposes. The aim of this diploma thesis was to preparare two innovative experimental systems that extend possibilities of studying the life cycle of MPyV. The first part of the diploma thesis focusses on construction of recombinant MPyV which expresses yellow fluorescent protein (EYFP) in the early stages of infection. Such virus can be very useful for studying the infection spreading by live- cell imaging and Fluorescence-Activated Cell Sorting (FACS) and can be employed for co- localization studies of YFP-tagged LT antigen with certain cellular proteins. Second part of the diploma thesis describes preparation of a hybrid cell line prepared by fusion of mouse and monkey cells. This new cell...

Analysis of cellular transcriptomic changes induced by Merkel cell polyomavirus miRNA

Akhbari, Pouria

January 2017

Merkel cell carcinoma (MCC) is a highly aggressive skin cancer with rising global incidence. Merkel cell polyomavirus (MCV) was discovered in 2008 in 80% of MCC samples and since then a causal link between MCV and the majority of MCC cases has been established. microRNAs (miRNA, miR) are a family of small non-coding RNAs which play a key role in post-transcriptional regulation of gene expression and are considered significant players in disease and development in many species. Whilst the focus of MCV research has thus far been on the oncogenic MCV early proteins, large tumour (LT) and small tumour (sT) antigens, there is a knowledge gap regarding MCV miRNA and its functional significance in MCV pathogenesis. Given the emerging importance of viral miRNAs in virus-host interaction and pathogenesis, the aim of this doctoral research project was to investigate alterations in host cell transcripts induced by MCV miRNA and determine any functional significance these might have on virus-host cell interaction. RNA sequencing (RNA-Seq) in the presence and absence of MCV miRNA uncovered a multitude of downregulated cellular transcripts. Gene ontology analysis revealed that MCV miRNA targets transcripts associated with multiple cellular processes, however, regulation of immune response was overrepresented in our datasets. Validation of RNA-Seq data using MCV miRNA mimics and a synthetic, fully replicative MCV genome (MCVSyn) confirmed RNA-Seq data at mRNA and protein expression level for several targets, including the cytokine stimulating gene, SP100, and the neutrophil stimulator chemokine, CXCL8. Moreover, dual luciferase assays revealed that SP100 and MAPK10 (a member of mitogen-activated protein kinases (MAPK) family which is involved in regulation of CXCL8 expression) are directly and specifically targeted and downregulated by MCV miRNA. The MCV miRNA-dependent dysregulation of CXCL8 secretion is associated with impaired neutrophil migration, suggesting that the virus miRNA may be implicated in evasion of the host immune response.

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An investigation into BK Polyomavirus and host-virus interactions

Caller, Laura Grace

January 2018

The potentially oncogenic human pathogen BK Polyomavirus (BKPyV) was first identified in 1971 and has since been associated with a number of diseases primarily in immunosuppressed patients. Infection is established in early life and by adulthood up to 90% of populations show seroconversion for the major capsid protein VP1. Despite this infections are rarely cleared, maintaining a silent asymptomatic persistence punctuated with periods of viral shedding in the urine. The virus is non-enveloped and comprises a simple ~5.2 Kb dsDNA genome which expresses just seven known proteins, necessitating a heavy reliance on, and interactions with, host mechanisms in order to efficiently replicate and disseminate within a population. The poorly understood lifelong persistence and failure to clear infection highlights our lack of understanding of the viral life cycle and viral interactions with host processes and responses to infection. Indeed, non-enveloped viruses are thought to spread solely through infected cell lysis but such large-scale lysis should trigger an acute inflammatory response, which is rarely seen in healthy immunocompetent individuals. The research conducted for this thesis first investigates the egress of BKPyV in a non-lytic manner, presenting evidence for an active non-lytic method of viral egress that is dependent on cellular anion homeostasis. Moreover, data generated for this thesis suggests that virions egress via an unconventional secretion pathway which traffics directly from the endoplasmic reticulum (ER) to the plasma membrane in single-membraned vesicles. Further research undertook a whole cell quantitative temporal viromic (QTV) approach, post-experimentally tagging whole cell lysate peptides with isobaric labels (Tandem Mass Tagging, TMT) to provide a greater understanding of host cell proteomic changes throughout BKPyV infection in two primary human cell types over 72 hours of infection. Such an approach identified ~9000 cellular proteins, of which a surprisingly small number changed significantly in abundance in response to BKPyV infection. Of those that were changed in abundance a large proportion were related to cell cycle, revealing that BKPyV infection induces a pseudo-G2 arrest, similar to the G2/M checkpoint. Validation of TMT results in both cell types provided confidence in this robust data set, and further studies highlighted the importance of not only cell cycle status, but the activity of CDK1 for efficient viral infection and replication. Additionally, TMT generated data emphasised the lack of innate immune induction in response to BKPyV infection, suggesting BKPyV exhibits a sophisticated evasion of pathogen recognition.

Prevalence and risk factors for polyomavirus reactivation in solid-organ transplantation.

Zanwar, Preeti. Butel, Janet S. Piller, Linda Beth., Rowan, Paul J.,

January 2009

Source: Masters Abstracts International, Volume: 47-06, page: 3444. Advisers: Janet S. Butel; Linda B. Piller. Includes bibliographical references.

Complete genome sequence of a novel avian polyomavirus isolated from Gouldian finch

Heenemann, Kristin, Sieg, Michael, Rueckner, Antje, Vahlenkamp, Thomas W.

21 September 2015

A novel polyomavirus was identified in a fatally diseased Gouldian finch (Erythrura gouldiae). The new polyomavirus, strain VL 1209, was detected using a broad-spectrum nested PCR.

Polyomaviridae

Krankheit

Erythrura gouldiae

polyomavirus

disease

Erythrura gouldiae

ddc:610

ddc:616