Influenza A Virus PB1-F2 Protein: its Role in Pathogenesis

Deventhiran, Jagadeeswaran

31 July 2015

Influenza A virus (IAV) causes annual seasonal epidemics and occasional pandemics resulting in significant levels of mortality and socio-economic costs worldwide. PB1-F2 is a small non-structural protein encoded by an alternate +1 open reading frame in the PB1 gene. PB1-F2 is considered to play important roles in primary influenza virus infection and post-influenza secondary bacterial pneumonia in mice. It is a multifunctional and enigmatic protein with diverse functions attributed to it and the precise contribution of PB1-F2 to the IAV life cycle in avian and mammalian hosts remains largely unknown. In the triple-reassortant H3N2 (TR H3N2) swine influenza virus (SIV) background, we found that PB1-F2 expression did not affect nasal shedding, lung viral load, immunophenotypes, and lung pathology in pigs. On the other hand, in turkeys, deletion of PB1-F2 resulted in early induction of clinical disease and effective transmission among the turkey poults. Interestingly, the virulence associated 66S mutation in PB1-F2 abolished the ability of the IAV to successfully infect turkeys and transmit to in-contacts. These results highlight the strain- and species-specific role of PB1-F2 protein. We also demonstrated that specific amino acid residues in the C-terminal of PB1-F2 determine the pathogenicity of 2009 swine-origin pandemic H1N1 virus in a mouse model. The C-terminal residues 73K, 75R, and 79R together with 66S increased virus replication, decreased type I interferon response, increased infiltration of neutrophils and myeloperoxidase production in lungs resulting in acute respiratory distress syndrome (ARDS) in mice with characteristic clinical and pathological features of acute lung injury (ALI). Further, we found that PB1-F2 induces mitochondrial superoxide production and mitochondrial damage in a sequence dependent manner in IAV-infected lung epithelial cells. PB1-F2-mediated mitochondrial damage promotes Parkin-mediated mitophagy but suppresses the autophagic degradation of damaged mitochondria in the infected lung epithelial cells. Accumulated dysfunctional mitochondria likely to aggravate host cell death and inflammatory responses. Taken together, the present findings enhance our understanding of PB1-F2 protein as a virulence determinant in IAV infection in a species- and strain-specific manner and provide new insights into the impact of genetic changes in PB1-F2 on the host pathogenesis of virulent IAV strains. / Ph. D.

Influenza A virus

PB1-F2 protein

Virulence determinants

Immunopathogenesis

Cell death

Interferon antagonism

Mitophagy

Cells of the haemostatic system as targets for pathogenic hantaviruses

Lütteke, Nina

25 November 2010

Hantaviren sind einzelsträngige RNA-Viren, die zur Familie der Bunyaviridae gehören. In den letzten Jahren haben sie immer mehr Aufmerksamkeit als “emerging viruses” auf sich gezogen, welche zunehmend Relevanz als humanpathogene Erreger gewinnen. Sie verursachen, abhängig vom Hantavirustyp, zwei verschiedene Krankheitsbilder: das hämorrhagische Fieber mit renalem Syndrom (HFRS) und das kardiopulmonale Syndrom (HCPS). Beide Syndrome sind mit Veränderungen in der vaskulären Permeabilität, akutem Abfall der Blutplättchen (Thrombozytopenie) und Koagulationsdefekten verbunden. Die zugrundeliegenden Mechanismen sind noch immer kaum verstanden. Hantaviren infizieren zwar Endothelzellen, bisher aber konnte kein zytopathischer Effekt nachgewiesen werden. Diese Doktorarbeit untersucht in vitro, ob und auf welche Weise Hantaviren mit Zellen des hämostatischen Systems interagieren. Zu diesen gehören insbesondere Megakaryozyten, die Thrombozyten generieren und die Thrombozyten selbst. Wir zeigen, dass das pathogene Hantaan Virus (HTNV), im Gegensatz zu dem weniger pathogenen Tula Virus (TULV) und Prospect Hill Virus (PHV), megakaryozytäre Zellen infiziert. Interessanterweise erhöht sich nach Induktion der Differenzierung in den infizierten megakaryozytären Zellen die Virusrepliaktion drastisch. Das Überleben der Zellen und der Verlauf der Differenzierung wird dadurch jedoch nicht beeinflusst. Ähnlich, wie bereits früher für Endothelzellen gezeigt, haben demnach pathogene Hantaviren keinen direkten zytopathischen Effekt auf Megakaryozyten. Weiterhin verdeutlicht die vorliegende Doktorarbeit, dass HTNV mit humanen Thrombozyten interagiert. Dies resultiert in einer Herunterregulation von essentiellen Oberflächenmarkern, die wichtig für die Aggregation und das Signalling sind. / Hantaviruses are single stranded (ss) RNA viruses belonging to the family Bunyaviridae. Over the past years they attracted more and more attention as “emerging viruses”, increasingly gaining relevance as human pathogens. Depending on the hantavirus type they cause haemorrhagic fever with renal syndrome (HFRS) or hantavirus cardiopulmonary syndrome (HCPS). Both syndromes are associated with changes in vascular permeability, acute thrombocytopenia, and defects in platelet function. The underlying mechanisms are still poorly understood. Although hantaviruses infect endothelial cells, no viral cytopathic effect after infection was observed. This thesis investigates in vitro whether and how hantaviruses target cells of the haemostatic system. In particular megakaryocytes (MKs), which generate platelets, and platelets themselves. We show that pathogenic Hantaan virus (HTNV), in contrast to less pathogenic Tula virus (TULV) and Prospect Hill virus (PHV), infects megakaryocytic cells. Intriguingly, after induction of differentiation megakaryocytic cells switch from low-level to high-level HTNV production without reduction in cell survival or alteration in differentiation. Thus, there is no direct viral pathogenic effect on megakaryocytic cells as previously observed for endothelial cells. Furthermore, this study demonstrates that HTNV interacts with human platelets, resulting in downregulation of essential adhesion markers, which are important for platelet aggregation and signalling.

Hantaviren

Megakaryozyten

Thrombozyten

Immunopathogenese

hantaviruses

megakaryocytes

platelets

immunopathogenesis

570 Biowissenschaften, Biologie

32 Biologie

WF 3500

ddc:570

Resposta imune a antígenos de Mycobacterium leprae e apresentação clínica da hanseníase como perspectiva para o desenvolvimento de ferramentas para prognóstico e imunoprofilaxia / Imune response to Mycobacterium leprae antigens and the clinical presentation of leprosy as a perspective to the development of tools for disease prognostic and immunoprophylaxis

Santos, Márcio Bezerra

24 April 2017

Leprosy is a chronic infectious disease caused by Mycobacterium leprae. It is estimated that less than 1% of the individuals infected with M. leprae develop the disease. Several authors suggest that the genetic pattern and variations in the mechanisms of the patient's immune response influence the susceptibility or resistance to disease. The most recent studies have established the role of Th1, Th2 and Treg cell responses in immunopathogenesis of leprosy. However, several mechanisms of the immune response that act in clinical evolution still lack clarification, such as the role of Th17 cells, and the innate immune response. The objective of this study was to evaluate the role of the immune response in the clinical presentation of leprosy and the use of M. leprae recombinant antigens as a perspective for the development of prognostic and immunoprophylaxis tools. To investigate the involvement of immune response in the pathogenesis of leprosy, we analyzed the cytokine profile in lesions, in serum, and peripheral blood mononuclear cells (PBMC) stimulated with M. leprae antigens in leprosy patients and household contactants (HHC). CD4+IL-17+ T cells expressing IL-17A, IFN-γ and IL-10 were evaluated by confocal microscopy in lesions from patients with tuberculoid (TT, n = 09) and lepromatous leprosy (LL, n = 08). Inflammatory cytokines were measured in serum samples from 23 paucibacillary (PB) patients, 28 multibacillary (MB) and 23 HHC, using the Luminex technique. The phenotype of lymphocytes producing IL-17A and IFN-γ was determined by flow cytometry. In addition, PBMC from leprosy patients and HHC were stimulated with crude M. leprae (MLCS) and M. tuberculosis (PPD) and a recombinant antigen of M. leprae (ML2028), and the cytokine profile and the CD4+ and CD8+ multifunctional T cells (producing IFN-γ, IL-2 or TNF-α) of effector and central memory were analyzed. We observed that TT lesions expressed more CD4+IL-17A+ cells than LL. Higher levels of IFN-γ were detected in PB patients, but also in MB patients who presented leprosy reactions (LR) at the time of evaluation (MB LR+). Significantly, higher concentrations of IL-17A and IL-1β were observed in serum from PB than in from MB patients. Ex vivo cell analysis by flow cytometry revealed higher frequency of Th17 cells in TT than LL patients, and it is not high in LL patients with LR. These results indicate that the Th17 cells are associated with an effective inflammatory response that occurs in PB presentation of leprosy but were not associated with the inflammatory response in LR. Th1 response was also associated with PB presentation. However, high levels of IFN-γ were also associated with LR. Multiparameter analyzes by flow cytometry revealed a higher frequency of multifunctional T cells specific for M. leprae antigens in HHC than in leprosy patients, and it might explain the absence of disease in these individuals. These data indicate that these antigens are capable of inducing a more effective immune response and multifunctional T cell memory against M. leprae infection, and open perspectives for the future development of immunoprophylaxis with M. leprae antigens. Additionally, this study suport the attempt to induce a Th1 and Th17 response in individuals at risk of acquiring the disease, even considering this could induce only a partial protection, because it would protect against the most severe MB forms of leprosy, and reduce the disease transmission. This Thesis includes one paper accepted for publication, about the role of Th1 and Th17 cells in subjects with different clinical forms of leprosy, and another paper submitted about the immune response to M. leprae crude and recombinant antigens. / A Hanseníase é uma doença infecciosa crônica e de evolução lenta causada pelo Mycobacterium leprae. A literatura sugere que menos de 1% dos indivíduos infectados pelo bacilo evolui com a doença. O padrão genético dos indivíduos e diferenças nos mecanismos da resposta imune do paciente influenciam na susceptibilidade ou resistência à infecção e apresentação clínica da doença. Os estudos mais recentes estabeleceram o papel das respostas de células Th1, Th2 e Treg na imunopatogênese da hanseníase. No entanto, diversos mecanismos das células Th17 e o papel da resposta imune inata na doença ainda não estão bem estabelecidos. Diante disso, este estudo teve como objetivo avaliar o papel da resposta imune na apresentação clínica da hanseníase e o uso de antígenos brutos e recombinante de M. leprae como perspectiva para o desenvolvimento de ferramentas de prognóstico e imunoprofilaxia. Para investigar o envolvimento das células da resposta imune na patogênese da hanseníase, analisamos o perfil de citocinas em lesões, nos soros, e em células mononucleares do sangue periférico (PBMC) estimuladas com antígenos de M. leprae em pacientes com hanseníase e controles contactantes sadios (CCS). As células T CD4+IL-17+ e que expressam IL-17A, IFN- e IL-10 foram avaliadas por microscopia confocal em biópsias de lesões de pacientes com hanseníase tuberculóide (HT, n = 9) e virchowiana (HV, n = 8). As citocinas inflamatórias foram dosadas em amostras de soro de 23 paucibacilares (PB), 28 multibacilares (MB) e em 23 CCS, pela técnica de Luminex. O fenótipo de linfócitos produtores de IL-17A e IFN-γ foi determinado por citometria de fluxo. Além disso, PBMC de pacientes com hanseníase e de CCS foram estimuladas com os antígenos brutos de M. leprae (MLCS), M. tuberculosis (PPD) e recombinante de M. leprae, (ML2028), e o perfil de citocinas e o fenótipo das células T CD4+ e CD8+ multifuncionais (produtoras de IFN-γ, IL-2 ou TNF-α) de memória efetora e central foram analisados. Observamos que as lesões de HT expressaram mais células CD4+IL-17A+ do que as de HV. Níveis mais elevados de IFN-γ sérico foram detectados em pacientes com as formas HT e em MB que apresentavam reações hansênicas (MB RH+). Concentrações mais elevadas de IL-17A e IL-1β foram observadas nos soros de pacientes PB do que em MB. As análises das células ex vivo por citometria de fluxo revelaram maior frequência de células Th17 nos pacientes com hanseníase tuberculóide (HT) em comparação com aqueles com hanseníase virchowiana (HV). Estes resultados indicam que a resposta Th17 está associada a uma resposta inflamatória efetiva que se apresenta nas formas PB, mas não estão associadas à resposta inflamatória durante as reações hansênicas. A resposta Th1 também está associada às formas PB, entretanto altos níveis de IFN-γ foram associados também aos episódios de reação hansênica. As análises multiparamétricas por citometria de fluxo revelaram maior frequência de células T multifuncionais antígeno-específicas em CCS, do que em pacientes com hanseníase. Nossos dados indicam que controles contactantes, quando estimulados com antígenos brutos e com o ML2028 recombinante, produziram mais células T multifuncionais e isto sugere que estas células proporcionam uma resposta imunológica mais eficaz contra a infecção por M. leprae, podendo explicar a ausência de doença nesses indivíduos. Estes dados sugerem que esses antígenos são capazes de induzir uma resposta protetora e indutora de células T multifuncionais de memória e abrem perspectivas para o desenvolvimento futuro de imunoprofilaxia com estes antígenos de M. leprae. Além disso, o estudo dá suporte à busca de induzir uma resposta Th1 e Th17 em indivíduos em risco de adquirir a doença, mesmo que haja uma proteção parcial, pois neste caso haveria uma proteção contra formas mais graves MB, e reduziria também a transmissão da doença. Esta tese é composta por um artigo aceito para publicação sobre a resposta de células Th17 e Th1 nas formas clínicas da hanseníase e outro submetido sobre a resposta a antígenos recombinantes de M. leprae na indução de células T multifuncionais.

Hanseníase

Células Th17

Células T multifuncionais

Antígenos recombinantes

Imunopatogênese

Leprosy

Th17 cells

Multifunctional T cells

Recombinant antigens

Immunopathogenesis

CIENCIAS DA SAUDE

Resposta imune a antígenos de Mycobacterium leprae e apresentação clínica da hanseníase como perspectiva para o desenvolvimento de ferramentas para prognóstico e imunoprofilaxia / Imune response to Mycobacterium leprae antigens and the clinical presentation of leprosy as a perspective to the development of tools for disease prognostic and immunoprophylaxis

Santos, Márcio Bezerra

24 April 2017

Leprosy is a chronic infectious disease caused by Mycobacterium leprae. It is estimated that less than 1% of the individuals infected with M. leprae develop the disease. Several authors suggest that the genetic pattern and variations in the mechanisms of the patient's immune response influence the susceptibility or resistance to disease. The most recent studies have established the role of Th1, Th2 and Treg cell responses in immunopathogenesis of leprosy. However, several mechanisms of the immune response that act in clinical evolution still lack clarification, such as the role of Th17 cells, and the innate immune response. The objective of this study was to evaluate the role of the immune response in the clinical presentation of leprosy and the use of M. leprae recombinant antigens as a perspective for the development of prognostic and immunoprophylaxis tools. To investigate the involvement of immune response in the pathogenesis of leprosy, we analyzed the cytokine profile in lesions, in serum, and peripheral blood mononuclear cells (PBMC) stimulated with M. leprae antigens in leprosy patients and household contactants (HHC). CD4+IL-17+ T cells expressing IL-17A, IFN-γ and IL-10 were evaluated by confocal microscopy in lesions from patients with tuberculoid (TT, n = 09) and lepromatous leprosy (LL, n = 08). Inflammatory cytokines were measured in serum samples from 23 paucibacillary (PB) patients, 28 multibacillary (MB) and 23 HHC, using the Luminex technique. The phenotype of lymphocytes producing IL-17A and IFN-γ was determined by flow cytometry. In addition, PBMC from leprosy patients and HHC were stimulated with crude M. leprae (MLCS) and M. tuberculosis (PPD) and a recombinant antigen of M. leprae (ML2028), and the cytokine profile and the CD4+ and CD8+ multifunctional T cells (producing IFN-γ, IL-2 or TNF-α) of effector and central memory were analyzed. We observed that TT lesions expressed more CD4+IL-17A+ cells than LL. Higher levels of IFN-γ were detected in PB patients, but also in MB patients who presented leprosy reactions (LR) at the time of evaluation (MB LR+). Significantly, higher concentrations of IL-17A and IL-1β were observed in serum from PB than in from MB patients. Ex vivo cell analysis by flow cytometry revealed higher frequency of Th17 cells in TT than LL patients, and it is not high in LL patients with LR. These results indicate that the Th17 cells are associated with an effective inflammatory response that occurs in PB presentation of leprosy but were not associated with the inflammatory response in LR. Th1 response was also associated with PB presentation. However, high levels of IFN-γ were also associated with LR. Multiparameter analyzes by flow cytometry revealed a higher frequency of multifunctional T cells specific for M. leprae antigens in HHC than in leprosy patients, and it might explain the absence of disease in these individuals. These data indicate that these antigens are capable of inducing a more effective immune response and multifunctional T cell memory against M. leprae infection, and open perspectives for the future development of immunoprophylaxis with M. leprae antigens. Additionally, this study suport the attempt to induce a Th1 and Th17 response in individuals at risk of acquiring the disease, even considering this could induce only a partial protection, because it would protect against the most severe MB forms of leprosy, and reduce the disease transmission. This Thesis includes one paper accepted for publication, about the role of Th1 and Th17 cells in subjects with different clinical forms of leprosy, and another paper submitted about the immune response to M. leprae crude and recombinant antigens. / A Hanseníase é uma doença infecciosa crônica e de evolução lenta causada pelo Mycobacterium leprae. A literatura sugere que menos de 1% dos indivíduos infectados pelo bacilo evolui com a doença. O padrão genético dos indivíduos e diferenças nos mecanismos da resposta imune do paciente influenciam na susceptibilidade ou resistência à infecção e apresentação clínica da doença. Os estudos mais recentes estabeleceram o papel das respostas de células Th1, Th2 e Treg na imunopatogênese da hanseníase. No entanto, diversos mecanismos das células Th17 e o papel da resposta imune inata na doença ainda não estão bem estabelecidos. Diante disso, este estudo teve como objetivo avaliar o papel da resposta imune na apresentação clínica da hanseníase e o uso de antígenos brutos e recombinante de M. leprae como perspectiva para o desenvolvimento de ferramentas de prognóstico e imunoprofilaxia. Para investigar o envolvimento das células da resposta imune na patogênese da hanseníase, analisamos o perfil de citocinas em lesões, nos soros, e em células mononucleares do sangue periférico (PBMC) estimuladas com antígenos de M. leprae em pacientes com hanseníase e controles contactantes sadios (CCS). As células T CD4+IL-17+ e que expressam IL-17A, IFN- e IL-10 foram avaliadas por microscopia confocal em biópsias de lesões de pacientes com hanseníase tuberculóide (HT, n = 9) e virchowiana (HV, n = 8). As citocinas inflamatórias foram dosadas em amostras de soro de 23 paucibacilares (PB), 28 multibacilares (MB) e em 23 CCS, pela técnica de Luminex. O fenótipo de linfócitos produtores de IL-17A e IFN-γ foi determinado por citometria de fluxo. Além disso, PBMC de pacientes com hanseníase e de CCS foram estimuladas com os antígenos brutos de M. leprae (MLCS), M. tuberculosis (PPD) e recombinante de M. leprae, (ML2028), e o perfil de citocinas e o fenótipo das células T CD4+ e CD8+ multifuncionais (produtoras de IFN-γ, IL-2 ou TNF-α) de memória efetora e central foram analisados. Observamos que as lesões de HT expressaram mais células CD4+IL-17A+ do que as de HV. Níveis mais elevados de IFN-γ sérico foram detectados em pacientes com as formas HT e em MB que apresentavam reações hansênicas (MB RH+). Concentrações mais elevadas de IL-17A e IL-1β foram observadas nos soros de pacientes PB do que em MB. As análises das células ex vivo por citometria de fluxo revelaram maior frequência de células Th17 nos pacientes com hanseníase tuberculóide (HT) em comparação com aqueles com hanseníase virchowiana (HV). Estes resultados indicam que a resposta Th17 está associada a uma resposta inflamatória efetiva que se apresenta nas formas PB, mas não estão associadas à resposta inflamatória durante as reações hansênicas. A resposta Th1 também está associada às formas PB, entretanto altos níveis de IFN-γ foram associados também aos episódios de reação hansênica. As análises multiparamétricas por citometria de fluxo revelaram maior frequência de células T multifuncionais antígeno-específicas em CCS, do que em pacientes com hanseníase. Nossos dados indicam que controles contactantes, quando estimulados com antígenos brutos e com o ML2028 recombinante, produziram mais células T multifuncionais e isto sugere que estas células proporcionam uma resposta imunológica mais eficaz contra a infecção por M. leprae, podendo explicar a ausência de doença nesses indivíduos. Estes dados sugerem que esses antígenos são capazes de induzir uma resposta protetora e indutora de células T multifuncionais de memória e abrem perspectivas para o desenvolvimento futuro de imunoprofilaxia com estes antígenos de M. leprae. Além disso, o estudo dá suporte à busca de induzir uma resposta Th1 e Th17 em indivíduos em risco de adquirir a doença, mesmo que haja uma proteção parcial, pois neste caso haveria uma proteção contra formas mais graves MB, e reduziria também a transmissão da doença. Esta tese é composta por um artigo aceito para publicação sobre a resposta de células Th17 e Th1 nas formas clínicas da hanseníase e outro submetido sobre a resposta a antígenos recombinantes de M. leprae na indução de células T multifuncionais.

Hanseníase

Células Th17

Células T multifuncionais

Antígenos recombinantes

Imunopatogênese

Leprosy

Th17 cells

Multifunctional T cells

Recombinant antigens

Immunopathogenesis

CIENCIAS DA SAUDE