3b) because of the abundance of mDCs within the same gate An alt

3b) because of the abundance of mDCs within the same gate. An alternative ex vivo approach to induce NK cell activation and cytokine production is through co-culture with NK-sensitive target cells. First, using a flow cytometry-based killing assay, we confirmed the ability of unstimulated,

as well as IL-2-stimulated and IL-15-stimulated, macaque PBMCs to kill the MHC-devoid human cell line 721.221. As shown in Fig. 4(a), treatment with both IL-2 and IL-15 significantly increased the killing capacity compared with non-stimulated BMS-354825 clinical trial PBMCs at different E : T ratios ranging from 40 : 1 to 5 : 1 (P < 0·001 for both cytokines at a 40 : 1 E : T ratio). Second, using the 721.221-based NK cell activation assay, we analysed the effect of E : T cell co-culture on the activation status of CD8α− and CD8α+ NK cells. To accomplish this, IL-2-treated and IL-15-treated PBMCs were cultured at a 5 : 1 E : T ratio with 721.221 cells for 6 hr before mAb staining and flow cytometry analysis (which included CD11c and HLA-DR to gate out mDCs in both NK cell subpopulations). Co-culture of IL-15-treated PBMCs with 721.221 cells induced the expression of CD69, CD107a and IFN-γ on the surface of CD8α+ NK cells. CD8α− NK cells

up-regulated the expression of CD69 and IFN-γ (Fig. 4b,c), while showing a modest trend for up-regulation of CD107a (Fig. 4d). Having found that CD8α− NK cells express some NK cell lineage

markers and become activated upon cytokine and target cell stimulation, we directly investigated the cytokine-producing selleck kinase inhibitor and cytolytic potential of the entire population of CD8α− NK cells which included the mDCs. CD8α− and CD8α+ NK cells were sorted by FACS using fluorochrome-conjugated anti-CD3, anti-CD20 and anti-CD8 mAbs. The CD8α− NK cells were enriched to a 95% pure population. CD8α+ NK cells (97% pure) and CD8− CD20+ B cells (97% pure) were used as positive and negative controls, respectively (Fig. 5a). As described above, only approximately 35% of enriched CD8α− NK cells were negative for Rebamipide CD11c and HLA-DR expression. However, further purification of CD8α− NK cells to exclude mDCs was not possible because of limitations on the amount of blood allowed to be drawn from individual rhesus macaques. Because contaminating mDCs would not interfere in the functional assays, we proceeded to characterize the activities of NK cells present in the highly enriched CD8α− NK cell population. As CD8α− NK cells only minimally up-regulated the expression of IFN-γ (Fig. 4c) but did not up-regulate expression of TNF-α significantly (Fig. 3c), we further investigated expression of these and other cytokines by evaluating mRNA transcription of both genes in the enriched cell populations after 5 hr of IL-2 plus IL-15 treatment.

Comments are closed.