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
