Invariant natural killer T cells from rhesus macaque spleen and peripheral blood are phenotypically and functionally distinct populations.

BACKGROUND: Natural killer T cells (NKT) possess dual functions of innate and adaptive immune systems, controlling viral infections and regulating autoimmune diseases. Non-human primates (NHP) are penultimate models for advancing therapeutic immunoregulatory strategies for translational application in humans, though, little is known about NHP NKT cells. Here we characterized rhesus macaque NKT cells ex vivo. METHODS: The frequency, phenotype and intracellular cytokine production of V alpha 24+ 6B11+ invariant NKT (iNKT) cells were analyzed by multi-color flow cytometry. V alpha 24J alpha Q mRNA expression was analyzed by real-time RT-PCR. RESULTS: The frequencies of peripheral blood (PB) and spleen V alpha 24+ 6B11+ iNKT cells were not significantly different. The iNKT cell subset in spleen was significantly increased for CD4+ CD8+ and CD3+ CD56+ co-expression as well as intracellular interleukin-4 production, which was rarely observed in circulating PB. CONCLUSION: Spleen iNKT cells in rhesus macaques are Th2 biased and display phenotypically and functionally distinct profiles from their PB counterpart.

Expansion of CD4+CD25+ suppressive regulatory T cells from rhesus macaque peripheral blood by FN18/antihuman CD28-coated Dynal beads.

CD4(+)CD25(+) regulatory T cells (Tregs) play an important role in allograft and self-tolerance and thus have potential therapeutic application in transplantation, autoimmunity, and allergy. Although nonhuman primate (NHP) provide the most accepted preclinical models for translational studies in allograft tolerance and infectious diseases, CD4(+)CD25(+) Tregs have been rarely studied in NHP. The low frequencies of Tregs in peripheral blood will likely necessitate ex vivo expansion to enable Tregs adaptive immune therapy in NHP and humans. Tregs were isolated by magnetic and flow sorting and then stimulated weekly with antirhesus CD3 clone FN18 and antihuman CD28-coated Dynal beads plus 100 U/ml rhIL-2. Under these conditions, the Tregs were expanded 300- to 2000-fold in 4 weeks. Expanded CD4(+)CD25(+) Tregs expressed high to moderate levels of FOXP3 as well as CD95, CD62L, CD69, and CCR7 surface antigens. Expanded rhesus Tregs were anergic and suppressed the proliferation of autologous peripheral blood mononuclear cells (PBMC) in a dose-dependent fashion, and the suppression was partially reversed by anti-transforming growth factor (TGF)-beta1 neutralizing antibody (Ab). These results demonstrate that rhesus macaque suppressive regulatory CD4(+)CD25(+)FOXP3(+) Tregs can be efficiently expanded in vitro under rhesus-specific stimulation, which enables preclinical testing of Treg therapy in the NHP model.

Phenotypic and functional characterization of long-term cultured rhesus macaque spleen-derived NKT cells.

Natural killer T cells are immunoregulatory cells, which have important roles in tolerance and autoimmunity, as demonstrated primarily in mice and humans. In this study, we define the phenotype and function of Valpha24(+) T cells derived from the spleens of rhesus macaques, a species increasingly used in models of immune tolerance. Valpha24(+) cells were isolated and expanded with monocyte-derived immature dendritic cells in the presence of alpha-galactosylceramide, IL-2, and IL-15. Rhesus NKT cells were stained with mAbs against both Valpha24 and the invariant complementarity-determining region 3 epitope of the human Valpha24/JalphaQ TCR. The cells were CD4, CD8 double negative and expressed CD56. Rhesus NKT cells also exhibited moderate to high expression of CD95, CD45RO, CD11a, and beta(7) integrin, but did not express CD45 RA, CD62L, CCR7, CD28, and other activation, costimulatory molecules (CD69 and CD40L). By intracellular staining, >90% of unstimulated rhesus NKT cells expressed IL-10, but not IFN-gamma. However, the latter was strongly expressed after stimulation. Rhesus NKT secreted large amounts of TGF-beta, IL-13, and IL-6, and modest levels of IFN-gamma, whereas IL-10 secretion was negligible and no detectable IL-4 was observed either intracellularly or in culture supernatants. Functionally, the NKT cells and their supernatants suppressed T cell proliferation in allogeneic MLR. We conclude that long-term cultured rhesus macaque spleen-derived Valpha24(+) T cells are semi-invariant double-negative cells with effector memory phenotype. These cells are semianergic, polarized to a uniquely Th3 > T regulatory-1 regulatory cell phenotype, and have regulatory/suppressive function in vitro.