Cell-mediated Antiviral Immunity and Host Responses to CD8 T-cell Vaccines and Respiratory Virus Infection PDF Download
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Languages : en
Pages : 0
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The immunobiology of respiratory virus infection is complex, and immunity depends upon the successful integration of contributions from the innate, humoral, and cell-mediated branches of the immune system. This dissertation focuses on cell-mediated immunity to respiratory viruses, and was motivated by 3 main questions 1) how and under what circumstances can the novel vaccine adjuvant Adjuplex® generate CD8 T-cell responses to non-replicating antigens, 2) what are the key gaps in our knowledge of anti-viral CD4 T-cell memory, and 3) can a systems biology analysis be used to elucidate the complex biology of ferret host responses to pandemic influenza viruses. We found that the vaccine adjuvant Adjuplex® can elicit potent CD8+ T-cell responses to non-replicating antigens in mice, and can be administered by multiple routes. We also found that systemic and intranasal vaccinations with Adjuplex® generate similar CD8+ T-cell recall responses in the lung after influenza challenge. However, only intranasal vaccines are protective, and protection correlates with increased effector and resident memory populations in the lung. Importantly, intranasal vaccination also results in potent heterosubtypic immunity. Mechanistically, Adjuplex® functions through complex interactions with innate cells in vivo and in vitro, including alterations in recruitment and activation of antigen-presenting cells, as well as antigen up-take and processing. Next, we identified important functionally distinct subsets of CD4 T cells that differ in their phenotype, trafficking patterns, and intrinsic abilities to differentiate into memory cells, and proposed a new integrated model for understanding CD4 T-cell memory generation that accounts for phenotypic plasticity. Lastly, we characterized and validated a complex systems-biology approach to analyzing host immune responses to infection with influenza, and in doing so identified new associations between histologic lesions, virus subtypes, gene expression patterns, and changes in abundance of lipids, metabolites, and proteins during the course of infection. This research provides critical insights into the mechanisms by which vaccine adjuvants can be used to generate protective CD8 T-cell immunity to non-replicating antigens, outlines a new model for understanding CD4 T cell memory generation, and validates the use of systems biology approaches to gain critical insights into the complex host responses to influenza virus infection.
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Languages : en
Pages : 0
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Book Description
The immunobiology of respiratory virus infection is complex, and immunity depends upon the successful integration of contributions from the innate, humoral, and cell-mediated branches of the immune system. This dissertation focuses on cell-mediated immunity to respiratory viruses, and was motivated by 3 main questions 1) how and under what circumstances can the novel vaccine adjuvant Adjuplex® generate CD8 T-cell responses to non-replicating antigens, 2) what are the key gaps in our knowledge of anti-viral CD4 T-cell memory, and 3) can a systems biology analysis be used to elucidate the complex biology of ferret host responses to pandemic influenza viruses. We found that the vaccine adjuvant Adjuplex® can elicit potent CD8+ T-cell responses to non-replicating antigens in mice, and can be administered by multiple routes. We also found that systemic and intranasal vaccinations with Adjuplex® generate similar CD8+ T-cell recall responses in the lung after influenza challenge. However, only intranasal vaccines are protective, and protection correlates with increased effector and resident memory populations in the lung. Importantly, intranasal vaccination also results in potent heterosubtypic immunity. Mechanistically, Adjuplex® functions through complex interactions with innate cells in vivo and in vitro, including alterations in recruitment and activation of antigen-presenting cells, as well as antigen up-take and processing. Next, we identified important functionally distinct subsets of CD4 T cells that differ in their phenotype, trafficking patterns, and intrinsic abilities to differentiate into memory cells, and proposed a new integrated model for understanding CD4 T-cell memory generation that accounts for phenotypic plasticity. Lastly, we characterized and validated a complex systems-biology approach to analyzing host immune responses to infection with influenza, and in doing so identified new associations between histologic lesions, virus subtypes, gene expression patterns, and changes in abundance of lipids, metabolites, and proteins during the course of infection. This research provides critical insights into the mechanisms by which vaccine adjuvants can be used to generate protective CD8 T-cell immunity to non-replicating antigens, outlines a new model for understanding CD4 T cell memory generation, and validates the use of systems biology approaches to gain critical insights into the complex host responses to influenza virus infection.
Author: Megan McAfee
Publisher:
ISBN:
Category : T cells
Languages : en
Pages : 202
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Book Description
Vaccination remains one of the most effective means for preventing infectious diseases. During viral infection, activated CD8 T cells differentiate into cytotoxic effector cells that directly kill infected cells and produce anti-viral cytokines. Further T cell differentiation results in a population of memory CD8 T cells that have the ability to self-renew and rapidly proliferate into effector cells during secondary infections. However during persistent viral infection, T cell differentiation is disrupted due to sustained antigen stimulation resulting in a loss of T cell effector function. Despite the development of vaccines for a wide range of viral diseases, efficacious vaccines for persistent viral infections have been challenging to design. Immunization against virus T cell epitopes has been proposed as an alternative vaccination strategy for persistent viral infections, such as HIV. However, vaccines that selectively engage T cell responses can result in inappropriate immune responses that increase, rather than prevent, disease. Quantitative models of virus infection and immune response were used to investigate how virus and immune system variables influence pathogenic versus protective T cell responses generated during persistent viral infection. It was determined that an intermediate precursor frequency of virus-specific memory CD8 T cells prior to LCMV infection resulted in maximum T cell mediated pathology. Increased pathology was independent of antigen sensitivity or the diversity of TCR in the CD8 T cell response, but was dependent on CD8 T cell production of TNF and the magnitude of initial virus exposure. The threshold for exhaustion of responding CD8 T cells ultimately influences the precursor frequency that causes enhanced disease. In addition, viral infection can occur in the context of co-infection by heterologous pathogens that modulate immune responses and/or disease. Co-infection of two unrelated viruses in their natural host, Ectromelia virus (ECTV) and Lymphocytic Choriomeningitis virus (LCMV) infection in mice, were studied. ECTV infection can be a lethal infection in mice due in part to the blockade of antiviral cytokines, including Type I Interferons (IFN-I). It was determined that ECTV/LCMV co-infection results in decreased ECTV viral load and amelioration of ECTV-induced disease, presumably due to IFN-I induction by LCMV. However, immune responses to LCMV in ECTV co-infected mice were also lower compared to mice infected with LCMV alone and biased toward effector-memory cell generation. Thus, providing evidence for bi-directional effects of viral co-infection that modulate disease and immunity. Together the results suggest heterogeneity in T cell responses during vaccination with viral vectors may be in part due to heterologous virus infection or vaccine usage and that TNF-blockade may be useful for minimizing pathology while maintaining protection during virus infection. Lastly, quantitative mathematical models of virus and T cell immunity can be useful to generate predictions regarding which molecular and cellular pathways mediate T cell protection versus pathology.
Author: David S. Hui
Publisher: European Respiratory Society
ISBN: 1849840709
Category : Medical
Languages : en
Pages : 148
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Book Description
Viral respiratory tract infections are important and common causes of morbidity and mortality worldwide. In the past two decades, several novel viral respiratory infections have emerged with epidemic potential that threaten global health security. This Monograph aims to provide an up-to-date and comprehensive overview of severe acute respiratory syndrome, Middle East respiratory syndrome and other viral respiratory infections, including seasonal influenza, avian influenza, respiratory syncytial virus and human rhinovirus, through six chapters written by authoritative experts from around the globe.
Author: B.A. Askonas
Publisher: Springer Science & Business Media
ISBN: 1468457128
Category : Medical
Languages : en
Pages : 298
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Book Description
Virus diseases continue to represent serious health problems in most parts of the world. In spite of the fact that diseases such as polio myelitis and measles have been controlled in the industrialized countries by vaccination, vaccines now in use in tropical countries have proved not to be optimal. Further research is needed to develop new vaccines that will be effective in all countries. To do so we need to understand better the immune response to different viruses so that we may be able to maxi mize the protective response of new vaccines and minimize their potential immunopathologic effect. An exciting new discovery which is now being further developed is the possibility of being able to use some viruses (e.g. vaccinia, adenoviruses, etc.), as carriers for other antigens. This may open up the way for the production of vaccines that will be inexpensive and that will confer long lasting immunity after only one injection. This meeting has also served to review our present knowledge of virus diseases which are still of great importance such as hepatitis, dengue and influenza.
Author: Ricardo Martín Gómez
Publisher: Frontiers Media SA
ISBN: 2889636488
Category :
Languages : en
Pages : 179
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Author: Andrea Sant
Publisher: Frontiers Media SA
ISBN: 2889458849
Category :
Languages : en
Pages : 183
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Book Description
Author: Paraskevi C. Fragkou
Publisher: Frontiers Media SA
ISBN: 2832540457
Category : Medical
Languages : en
Pages : 156
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Book Description
Author: Hiroshi Kiyono
Publisher: Elsevier
ISBN: 0080537057
Category : Medical
Languages : en
Pages : 501
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Book Description
This comprehensive, authoritative treatise covers all aspects of mucosal vaccines including their development, mechanisms of action, molecular/cellular aspects, and practical applications. The contributing authors and editors of this one-of-a-kind book are very well known in their respective fields. Mucosal Vaccines is organized in a unique format in which basic, clinical, and practical aspects of the mucosal immune system for vaccine development are described and discussed. This project is endorsed by the Society for Mucosal Immunology. Provides the latest views on mucosal vaccines Applies basic principles to the development of new vaccines Links basic, clinical, and practical aspects of mucosal vaccines to different infectious diseases Unique and user-friendly organization
Author: Neal Nathanson
Publisher: Elsevier
ISBN: 0080471056
Category : Medical
Languages : en
Pages : 279
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Book Description
Based on the highly successful reference work Viral Pathogenesis published in 1997, this concise, economical version can be used both as an introductory text or for self-education by medical students and biologists alike. This latest edition provides a completely revised overview of the subject with new chapters on innate immunity, emerging viral diseases, and antiviral therapy in a format that is easy to understand without continually referring to additional information. Used by the author in his graduate classes at the University of Pennsylvania, it sets forth the essential principles and discusses the details of how the immune system responds to viral invasion including the treatment and prevention of infection. Illustrated by pertinent examples it is one of the only books devoted exclusively to this topic. * Offers almost a 20% expansion over the first edition * Focuses specifically on viral pathogenesis unlike other texts where only a few chapters are devoted to the topic* Neal Nathanson is one of the primary authorities in the field and has authored chapters on viral pathogenesis in two of the most well known virology and microbiology titles Field's Virology and Topley and Wilson's Microbiology* Now in four color throughout!
Author: Alessio Mazzoni
Publisher: Frontiers Media SA
ISBN: 2832551955
Category : Medical
Languages : en
Pages : 318
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Book Description
COVID-19 is a recently emerged infectious disease caused by the novel coronavirus SARS-CoV-2. The immune system has a primary role in pathogen elimination and a rapid and effective response can limit disease severity. In this context, T cells play the major role in cell mediated adaptive immune response. The protective role of CD4+ and CD8+ T cells has been inferred from studies on patients who recovered from SARS and MERS and accumulating data are now showing their relevance in SARS-CoV-2 infection. Moreover, memory T cells induced by previous pathogens can shape the susceptibility to, and the clinical severity of other infections, but the complete picture has yet to be elucidated. If the virus is not rapidly eliminated, COVID-19 may progress towards a secondary inflammatory phase that is directly responsible for a worsening in clinical symptoms and immune system impairment. Besides marked lymphopenia, COVID-19 patients’ T cell compartment displays several alterations involving different subpopulations of T cells in terms of phenotype, metabolic profile and functionality.
