DNA microarray analysis of the gene expression profiles of naïve versus activated tumor-specific T cells.

T cells are a key element in effective cancer immunity, recognizing MHC-antigen peptide complexes on the surface of antigen presenting cells and translating these signals into cytotoxic effector T cell responses. In this study, we systematically investigated by DNA array analysis the expression profiles of 514 immunologically relevant genes in naïve and SP2/0 tumor-specific activated mouse T cell populations. Our data shows that naïve T cells expressed 37 (i.e., 7.6% of the 514) transcripts with expression level (EL) values of > or =2.0, while the activated T cells expressed 101 such transcripts. The expression levels of 9 (1.75% of 514) of the shared transcripts were equivalent in the two populations of T cells. Ninety-six genes were differently expressed upon T cell activation, with 71 (13.81%) being up-regulated and 25 (4.86%) down-regulated. The list of significantly affected genes includes numerous cytokines and their receptors (e.g., IL-2Ralpha, IL-6Ralpha, IL-7Ralpha, IL-16, IL-17R, TGF-beta), chemokines and chemokine receptors (e.g., RANTES, CCR7, CXCR4), alternate surface proteins (e.g., 4-1BB, GITR, integrins-alphaL and -beta7, L-selectin, CD6, CD45 and EMMPRIN), cytoplasmic signaling intermediates (e,g., GATA-3, 14-3-3-eta, CIS1, SMAD4 and JAK1) and an array of other molecules (e.g., NFkappa-B inducing kinase, LTBP3 and persephin), several of which are associated with Th1 responses, and T cell self-regulation or migration. Taken together, our data contribute to our understanding of the generalized processes that accompany T cell activation and, more specifically, to our understanding of the processes associated with T cell activation during antitumor responses.