Upon infection or vaccination, naïve CD8+ T cells clonally expand and differentiate into antigen-specific effector cell populations, which turn into phenotypically diverse memory CD8+ T cell... Show moreUpon infection or vaccination, naïve CD8+ T cells clonally expand and differentiate into antigen-specific effector cell populations, which turn into phenotypically diverse memory CD8+ T cell subsets that differ in their cytokine polyfunctionality, cytolytic capacity and homing properties. The circulating memory CD8+ T cell pool can be largely classified in two major subsets: effector memory T (TEM) and central memory T (TCM) cells. Contrary to the classical view that lymphocytes continuously recirculate, tissue-resident memory T (TRM) cells have been discovered as cells with the unique ability to reside in tissues with limited recirculation through the blood. Antigen-specific CD8+ TRM cells are induced upon antigen encounter and localize to many different tissues, including barrier tissues, where they play a crucial role in protection against infectious and malignant disease. Within these major circulating and resident T cell subsets a variety of phenotypes and functions exists. However, the development of the heterogeneous populations of memory T cells is not fully understood. In this thesis we dissect the development and heterogeneity of antigen-specific circulating and tissue-resident CD8+ T cells upon vaccination and infection, study their protective capacity in infectious and malignant disease and use this information to improve vaccination and immunotherapeutic strategies. Show less
Preface: The content of this thesis is based on research that was conducted at the travel and vaccination clinic at Leiden University Medical Centre (LUMC). This clinic provides pre-travel care to... Show morePreface: The content of this thesis is based on research that was conducted at the travel and vaccination clinic at Leiden University Medical Centre (LUMC). This clinic provides pre-travel care to the general population, and to special groups of travellers, such as patients who use immunosuppressants or who have chronic diseases. The clinic is closely connected to the department of Infectious Diseases at LUMC. The setting of a travel clinic within an academic medical hospital, provides unique circumstances for medical research, like an experienced team of nurses, expertise regarding immunization, a constant flux of travellers and the knowledge and infrastructure that is required for research into microbiology, virology and parasitology. Examples of research that stem from this clinic are projects on immunization against malaria, yellow fever, travellers' diarrhea, poliomyelitis and hepatitis B, vaccination of immunocompromised patients, and projects on travel related acquisition of extended spectrum ß-lactamase producing Enterobacteriacae and on the utility of post-travel screening of asymptomatic travellers for parasites. Show less
T cells recognize pathogen-derived antigens and are crucial for fighting pathogens such as viruses and bacteria. In addition, T cells are able to recognize and attack certain types of tumors, in... Show moreT cells recognize pathogen-derived antigens and are crucial for fighting pathogens such as viruses and bacteria. In addition, T cells are able to recognize and attack certain types of tumors, in particular virally induced tumors. In this thesis we aimed 1) to obtain more insight into antigen-specific T cell responses and 2) to study how antigen-specific T cell responses can be improved. For the first aim we generated new tools that by enabling the visualization of antigen-specific CD4+ and CD8+ T cells allow the study of the dynamics of antigen-specific T cell responses in time throughout an ongoing immune response (chapter 2). In addition, we developed a novel technique that enables the study of family relationships between different T cell populations. This technique for instance allows us to determine whether two different types of effector T cell populations arise from the same or different pool(s) of na_ve T cells (chapter 5). For the second aim, we analyzed whether antigen-specific T cell responses can be manipulated by providing increased costimulation in the form of constitutive triggering of CD27 (chapter 3) or by generating CD4+ T cells that are modified by the introduction of MHC class I restricted TCRs (chapter 4). Show less
