Nobusuke Nishi

Sustained expansion of NKT cells and antigen-specific T cells after injection of α-galactosyl-ceramide loaded mature dendritic cells in cancer patients

Natural killer T (NKT) cells are distinct glycolipid reactive innate lymphocytes that are implicated in the resistance to pathogens and tumors. Earlier attempts to mobilize NKT cells, specifically, in vivo in humans met with limited success. Here, we evaluated intravenous injection of monocyte-derived mature DCs that were loaded with a synthetic NKT cell ligand, α-galactosyl-ceramide (α-GalCer; KRN-7000) in five patients who had advanced cancer. Injection of α-GalCer–pulsed, but not unpulsed, dendritic cells (DCs) led to >100-fold expansion of several subsets of NKT cells in all patients; these could be detected for up to 6 mo after vaccination. NKT activation was associated with an increase in serum levels of interleukin-12 p40 and IFN-γ inducible protein-10. In addition, there was an increase in memory CD8+ T cells specific for cytomegalovirus in vivo in response to α-GalCer–loaded DCs, but not unpulsed DCs. These data demonstrate the feasibility of sustained expansion of NKT cells in vivo in humans, including patients who have advanced cancer, and suggest that NKT activation might help to boost adaptive T cell immunity in vivo.

Selective Decrease in Circulating Vα24 + Vβ11 + NKT Cells During HIV Type 1 Infection

CD1d-restricted NKT cells express an invariant TCR and have been demonstrated to play an important regulatory role in a variety of immune responses. Invariant NKT cells down-regulate autoimmune responses by production of type 2 cytokines and can initiate antitumor and antimicrobial immune responses by production of type 1 cytokines. Although defects in the (invariant) Vα24+Vβ11+ NKT cell population have been observed in patients with cancer and autoimmune diseases, little is known regarding the protective role of Vα24+Vβ11+ NKT cells in human infectious disease. In a cross-sectional study in HIV-1-infected individuals, we found circulating numbers of Vα24+Vβ11+ NKT cells to be reduced, independent of CD4+ T cell counts, CD4:CD8 ratios, and viral load. Because a small minority of Vα24+Vβ11+ NKT cells of healthy donors expressed HIV-1 (co)receptors and the vast majority of Vα24+Vβ11+ NKT cells in HIV-1-infected individuals expressed the Fas receptor, the depletion was more likely due to Fas-mediated apoptosis than to preferential infection of Vα24+Vβ11+ NKT cells by HIV-1. A longitudinal cohort study, in which patients were analyzed before seroconversion and 1 and 5 years after seroconversion, demonstrated that a large proportion of the depletion occurred within the first year postseroconversion. In this longitudinal study no evidence was found to support an important role of Vα24+Vβ11+ NKT cells in determining the rate of progression during HIV-1 infection.

Potent expansion of human natural killer T cells using α-galactosylceramide (KRN7000)-loaded monocyte-derived dendritic cells, cultured in the presence of IL-7 and IL-15

Natural killer T (NKT) cells have an extremely restricted T-cell receptor repertoire, in man consisting of a Valpha24 chain preferentially paired with a Vbeta11 chain, and play crucial roles in various immune responses. Characterization of circulating Valpha24(+)Vbeta11(+)-T cells is hampered by their low frequencies. The alpha-galactosylceramide KRN7000 was reported to be presented by CD1d to NKT cells. Since dendritic cells (DC) are potent antigen presenting cells, and have been shown to express CD1d, we analyzed whether these cells could efficiently mediate expansion of Valpha24(+)Vbeta11(+)-T cells. During a 7-day co-culture of peripheral blood mononuclear cells and KRN7000-loaded mature monocyte derived DC (moDC) in the presence of interleukin-7 (IL-7) and IL-15, we observed up to 76-fold expansion of Valpha24(+)Vbeta11(+)-T cells. The expanded Valpha24(+)Vbeta11(+)-T cells expressed the cytotoxic molecule granzyme B, showed negligible expression of Fas ligand and could be induced to express high levels of interferon-gamma, while retaining the capacity to produce IL-4. B cells, expressing CD1d, could also present KRN7000, but Valpha24(+)Vbeta11(+)-T cell expansion was only observed in the presence of IL-7 and/or IL-15. Considering the low frequency of circulating Valpha24(+)Vbeta11(+)-T cells, the present method for expansion of Valpha24(+)Vbeta11(+)-T cells using KRN7000-loaded mature moDC will be of value for the further characterization of this unique T cell subset.

Effects of α‐galactosylceramide (KRN7000), interleukin‐12 and interleukin‐7 on phenotype and cytokine profile of human Vα24+ Vβ11+ T cells

The α‐galactosylceramide KRN7000 was reported to be presented by CD1d to natural killer (NK) T cells, cells that are thought to play an important role in the rejection of malignant tumours and in the regulation of several autoimmune diseases. Here we analysed human peripheral blood (PB) NK T cells (Vα24+ Vβ11+ T cells) before and after a short‐term culture in the presence of KRN7000. KRN7000 strongly activated PB Vα24+ Vβ11+ T cells and, when stimulated, the vast majority of these cells expressed interferon‐γ (IFN‐γ). Exposure of these KRN7000‐cultured Vα24+ Vβ11+ T cells to interleukin‐12 (IL‐12), but not to IL‐7, resulted in a relative increase in IFN‐γ‐expressing Vα24+ Vβ11+ T cells, compared with IL‐4‐expressing Vα24+ Vβ11+ T cells, indicating a shift towards a T‐helper type 1 (Th1) phenotype. KRN7000 strongly up‐regulated the expression of the cytotoxic molecule granzyme B (GrB) in Vα24+ Vβ11+ T cells. Although IL‐7 resulted in a decrease in GrB levels in KRN7000‐cultured Vα24+ Vβ11+ T cells, IL‐12 increased GrB levels in both Vα24+ Vβ11+ T cells and in Vα24+ Vβ11+ T‐cell clones and increased cytotoxicity against hCD1d‐transfected HeLa cells. Our data provide further insight into the characteristics of human Vα24+ Vβ11+ T cells and indicate that KRN7000 is a potent activator of Vα24+ Vβ11+ T cells. Combined with the established anti‐tumour effects of KRN7000 in mouse models, these results may support the use of KRN7000 as an anti‐tumour agent in man.

Synergistic effect of KRN7000 with interleukin-15, -7, and -2 on the expansion of human Vα24+Vβ11+ T cells in vitro

KRN7000, (2S, 3S, 4R)-1-O-(alpha-D-galactopyranosyl)-2-(N-hexacosanoylamino)-1, 3, 4-octadecanetriol, has been shown to prevent tumor metastasis to the liver through the activation of natural killer (NK) T cells in mice. In this study, the proliferation of human NK T cells, which express an invariant T cell antigen receptor (TCR) consisting of a Valpha24 chain and a Vbeta11 chain, was investigated using KRN7000, interleukin (IL)-15, IL-7, and IL-2 in vitro. KRN7000 stimulated the expansion of Valpha24(+)Vbeta11(+) T cells derived from peripheral blood mononuclear cells in a dose-dependent fashion, with some fluctuation between donors. IL-15, IL-7, and IL-2 synergistically stimulated the expansion of Valpha24(+)Vbeta11(+) T cells when combined with KRN7000. Intracellular expression of interferon (IFN)-gamma and IL-4 in Valpha24(+)Vbeta11(+) T cells expanded in the presence of KRN7000 was identified using flow cytometry. Valpha24(+)Vbeta11(+) T cells, expanded in the presence of KRN7000, contained granzyme (Gr) B-positive granules and perforin-positive granules. The addition of IL-15 to the culture containing KRN7000 increased GrB expression in Valpha24(+)Vbeta11(+) T cells while IL-7 and IL-2 failed to do it. In conclusion, the antitumor effect of KRN7000 may depend, in part, on granule-mediated cell killing through the activation of NK T cells and IL-15 may potentiate this effect.

Molecular cloning of a novel receptor-type protein tyrosine phosphatase from murine fetal liver

A cDNA fragment encoding a novel tyrosine phosphatase (PTPase), termed ptpf, was isolated from day 11.5 mouse fetal liver using reverse transcription-polymerase chain reaction (RT-PCR) with degenerate primers. The 5.5-kb cDNA encoding the complete coding region was isolated from an adult mouse kidney cDNA library. This cDNA contained a single open reading frame (ORF) encoding a predicted 1436-amino-acid protein with a molecular mass of 161,150 Da. Sequence analysis revealed that PTPf was homologous to PTPmu and PTPkappa, and a putative receptor-type PTPase. Northern blotting analysis of adult mouse mRNA indicated the existence of four major ptpf transcripts of approximately 10, 6, 3 and 2.7 kb, and these transcripts were expressed in a tissue-specific manner. During embryogenesis, only the 6-kb transcript was detected.