Is There a Role for Cellular Prion Protein in Intrathymic T Cell Differentiation and Migration?

Abstract

The cellular prion protein (PrP(C)) is expressed in the nervous and immune systems. Functionally, PrP(C) has been suggested to participate in neuron survival, neuritogenesis and T lymphocyte activation. Moreover, PrP(C) interaction with laminin influences neuronal adhesion and neurite extension. Nevertheless, so far the physiological role of PrP(C) has not been completely elucidated, particularly in the immune system. The aim of the study was to evaluate the possible participation of PrP(C) in intrathymic T cell development. We evaluated T cell differentiation markers in thymocytes and peripheral lymphocytes, as well as thymocyte death in PrP(C)-null or PrP(C)-overexpressing (Tga20) mice, compared to wild-type controls. In these same animals, we ascertained laminin-driven thymocyte migration. Compared to controls, only marginal differences were found in PrP(C)-null animals. However, Tga20 mice exhibited a severe thymic hypoplasia, with 10-20% lymphocytes compared to wild-type counterparts. In particular, the frequency of CD4+CD8+ cells was largely reduced, and this was accompanied by a dramatic increase in the frequency of CD4-CD8- thymocytes, which could be as high as 60-65% of the whole-cell suspensions. Moreover, Tga20 mice exhibited an increase in thymocyte death, comprising the CD4+CD8+, as well as CD4+ and CD8+ single-positive cells. Additionally, laminin-driven migration was largely impaired in Tga20 mice, in which we also found a significant decrease in total T lymphocytes in the spleen and lymph nodes. Our results show that PrP(C) overexpression alters intrathymic T cell development, a defect that likely has a negative impact in the formation of the T cell peripheral pool.