On the self-referential nature of naive MHC class II-restricted T cells.

摘要

The use of mutant mice expressing a normal MHC class II molecule surface level but a severely restricted self-peptide diversity (H-2Malpha(-/-)) previously revealed that T cells carrying the Ealpha(52-68)-I-A(b) complex-specific 1H3.1 TCR rely on self-peptide(s) recognition for both their peripheral persistence in irradiated hosts and their intrathymic positive selection. Here, we identify Ealpha(52-68) structurally related self-peptide(s) as a major contributor to in vivo positive selection of 1H3.1 TCR-transgenic thymocytes in I-A(b+)/I-Ealpha(-) mice. This is demonstrated by the drastic and specific reduction of the TCR high thymocyte population in 1H3.1 TCR-transgenic (Tg) mice treated with the Ealpha(52-68)-I-A(b) complex-specific Y-Ae mAb. Self-peptide(s) recognition is also driving the maturation of T cells carrying a distinct MHC class II-restricted specificity (the Ealpha(6) alphass TCR), since positive selection was also deficient in Ealpha(6) TCR Tg H-2Malpha(-/-) thymi. Such a requirement for recognition of self-determinants was mirrored in the periphery; Ealpha(6) TCR Tg naive T cells showed an impaired persistence in both H-2Malpha(-/-) and I-A(b)ss(-/-) irradiated hosts, whereas they persisted and slowly cycled in wild-type recipients. This moderate self-peptide(s)-dependent proliferation was associated with a surface phenotype intermediate between those of naive and activated/memory T cells; CD44 expression was up-regulated, but surface expression of other markers such as CD62L remained unaltered. Collectively, these observations indicate that maturation and maintenance of naive MHC class II-restricted T cells are self-oriented processes.