Age-related accumulation of T cells with markers of relatively stronger autoreactivity leads to functional erosion of T cells

Abstract

Background: Thymic involution is a prominent characteristic of an aging immune system. When thymic function is reduced/absent, the peripheral T cell pool is subject to the laws of peripheral T cell homeostasis that favor survival/expansion of T cell receptors with relatively higher functional avidity for self-peptide/MHC complexes. Due to difficulties in assessing the TCR avidity in polyclonal population of T cells, it is currently not known whether high avidity T cells preferentially survive in aging individuals, and what impact this might have on the function of the immune system and development of autoimmune diseases.Results: The phenotype of T cells from aged mice (18-24 months) indicating functional TCR avidity (CD3 and CD5 expression) correlates with the level of preserved thymic function. In mice with moderate thymic output (> 30% of peripheral CD62L hiT cells), T cells displayed CD3 lowCD5 hiphenotype characteristic for high functional avidity. In old mice with drastically low numbers of CD62L hiT cells reduced CD5 levels were found. After adult thymectomy, T cells of young mice developed CD3 lowCD5 hiphenotype, followed by a CD3 lowCD5 lowphenotype. Spleens of old mice with the CD3 low/CD5 hiT cell phenotype displayed increased levels of IL-10 mRNA, and their T cells could be induced to secrete IL-10 in vitro. In contrast, downmodulation of CD5 was accompanied with reduced IL-10 expression and impaired anti-CD3 induced proliferation. Irrespective of the CD3/CD5 phenotype, reduced severity of experimental allergic myelitis occurred in old mice. In MTB TCRβ transgenic mice that display globally elevated TCR avidity for self peptide/MHC, identical change patterns occurred, only at an accelerated pace.Conclusions: These findings suggest that age-associated dysfunctions of the immune system could in part be due to functional erosion of T cells devised to protect the hosts from the prolonged exposure to T cells with high-avidity for self. © 2012 Tatari-Calderone et al; licensee BioMed Central Ltd.