CD8+T-cells have been attributed both atherogenic and atheroprotective properties, butanalysis of CD8+T-cells has mostly been restricted to the circulation and secondary lymphoid organs.... Show moreCD8+T-cells have been attributed both atherogenic and atheroprotective properties, butanalysis of CD8+T-cells has mostly been restricted to the circulation and secondary lymphoid organs. Theatherosclerotic lesion, however, is a complex microenvironment containing a plethora of inflammatory signals,which may affect CD8+T-cell activation. Here, we address how this environment affects the functionality ofCD8+T-cells. We compared the cytokine production of CD8+T-cells derived from spleens and en-zymatically digested aortas ofapoE−/−mice with advanced atherosclerosis byflow cytometry. Aortic CD8+T-cells produced decreased amounts of IFN-γand TNF-αcompared to their systemic counterparts. The observeddysfunctional phenotype of the lesion-derived CD8+T-cells was not associated with classical exhaustion mar-kers, but with increased expression of the ectonucleotidase CD39. Indeed, pharmacological inhibition of CD39 inapoE−/−mice partly restored cytokine production by CD8+T-cells. Using a bone-marrow transplantation ap-proach, we show that TCR signaling is required to induce CD39 expression on CD8+T-cells in atheroscleroticlesions. Importantly, analysis of human endarterectomy samples showed a strong microenvironment specificupregulation of CD39 on CD8+T-cells in the plaques of human patients compared to matched blood samples. Our results suggest that the continuous TCR signaling in the atherosclerotic environment in thevessel wall induces an immune regulatory CD8+T-cell phenotype that is associated with decreased cytokineproduction through increased CD39 expression in both a murine atherosclerotic model and in atherosclerosispatients. This provides a new understanding of immune regulation by CD8+T-cells in atherosclerosis. Show less
Duijn, J. van; Elsas, M. van; Benne, N.; Depuydt, M.; Wezel, A.; Smeets, H.; ... ; Slütter, B. 2019
CD8+T-cells have been attributed both atherogenic and atheroprotective properties, butanalysis of CD8+T-cells has mostly been restricted to the circulation and secondary lymphoid organs.... Show moreCD8+T-cells have been attributed both atherogenic and atheroprotective properties, butanalysis of CD8+T-cells has mostly been restricted to the circulation and secondary lymphoid organs. Theatherosclerotic lesion, however, is a complex microenvironment containing a plethora of inflammatory signals,which may affect CD8+T-cell activation. Here, we address how this environment affects the functionality ofCD8+T-cells. We compared the cytokine production of CD8+T-cells derived from spleens and en-zymatically digested aortas ofapoE−/−mice with advanced atherosclerosis byflow cytometry. Aortic CD8+T-cells produced decreased amounts of IFN-γand TNF-αcompared to their systemic counterparts. The observeddysfunctional phenotype of the lesion-derived CD8+T-cells was not associated with classical exhaustion mar-kers, but with increased expression of the ectonucleotidase CD39. Indeed, pharmacological inhibition of CD39 inapoE−/−mice partly restored cytokine production by CD8+T-cells. Using a bone-marrow transplantation ap-proach, we show that TCR signaling is required to induce CD39 expression on CD8+T-cells in atheroscleroticlesions. Importantly, analysis of human endarterectomy samples showed a strong microenvironment specificupregulation of CD39 on CD8+T-cells in the plaques of human patients compared to matched blood samples. Our results suggest that the continuous TCR signaling in the atherosclerotic environment in thevessel wall induces an immune regulatory CD8+T-cell phenotype that is associated with decreased cytokineproduction through increased CD39 expression in both a murine atherosclerotic model and in atherosclerosispatients. This provides a new understanding of immune regulation by CD8+T-cells in atherosclerosis. Show less
Chimpanzees are the only animal species that can be infected with HIV-1. Infection kinetics in both humans and chimpanzees are similar, in contrast to humans, chimpanzees do not show any signs of... Show moreChimpanzees are the only animal species that can be infected with HIV-1. Infection kinetics in both humans and chimpanzees are similar, in contrast to humans, chimpanzees do not show any signs of immunodeficiency for many years. In this thesis specific aspects of the human and chimpanzee immune system are compared to unravel the differences in cellular immune responses in relation to HIV-1 infection. Human CD4 T-cells have less CD40L expression once the viral envelope is bound to the CD4 receptor. This is also seen in chimpanzees, but this occurs at a 5 fold higher antigen level, leading to the conclusion that chimpanzees are less sensitive for immunodeficiency. Little information is known about chimpanzee NK cells. The majority of this thesis describes the differences and overlaps between human and chimpanzee NK cells, with a focus on activatory receptors. Chimpanzee NK cells show small differences in the expression of these receptors, leading to the conclusion that these cells need more triggers than ligand binding, resulting in the hypothesis that chimpanzee NK cells are in less risk of over activation, which is seen in human lymphocytes. This overactivation leads to an exhausted immune system, which is thought to be the basis for immunodeficiency. Show less