Figure 5 (b) illustrates gene transcription relative to the level

Figure 5 (b) illustrates gene transcription relative to the level in non-stimulated cells, where a fold increase of 1·5 or more is considered positive. The figure further shows gene expression profiles of

CD8α− and CD8α+ sorted cells in comparison to sorted B cells. Increased transcription of IFN-γ (P < 0·001), IL-13, TNF-α, TNF-β and MxA genes was observed for IL-2 + IL-15-stimulated sorted CD8α+ cells. A similar gene transcription profile was seen for CD8α− cells. In these cells, increased transcription of IFN-γ (P < 0·05), IL-13, TNF-α and TNF-β was seen. Under the conditions tested, B cells used as negative controls EPZ015666 order did not exhibit increased transcription of IFN-γ, IL-13, TNF-α or perforin, and only displayed marginally positive transcription levels for TNF-β, MxA and granzyme B (all with values of 1·6-fold

increase). To evaluate antibody-independent cytolytic function of CD8α− NK cells, we used the flow cytometry-based 721.221 killing assay. As shown in Fig. 5(c), enriched CD8α− NK cells were capable of killing target cells at E : T ratios of 16 : 1, 8 : 1 and 4 : 1 (P < 0·001, when compared with the killing mediated by B cells at similar E : T ratios). On the other hand and as expected, enriched CD8α+ NK cells were capable of killing target cells at E : T ratios as low as 0·5 : 1 (P < 0·001 versus B cells, Fig. 5c). Given the demonstrated contributions of vaccine-elicited non-neutralizing antibodies to control of HIV/SIV viraemia and disease progression by cell-mediated effector mechanisms such as ADCC selleck screening library and ADCVI,19,21 we evaluated whether CD8α− NK cells could mediate ADCC. An autologous ADCC assay was established using SIV251 gp120-coated macaque CD4+ T cells Dichloromethane dehalogenase as targets and matched PBMCs as effectors. Serum-dependent ADCC activity was observed using a known antibody-positive serum when compared with a negative serum from the same animal (Fig. 5d). Subsequently, FACS-enriched CD8α− and CD8α+ NK cells were used as effectors. The numbers of sorted CD8α−

and CD8α+ NK cells were limiting, so the effector activity of these cells was tested only at a single E : T ratio using a 1 : 1000 serum dilution. The ADCC activity was observed in both subsets (P < 0·01 and P < 0·001, for CD8α− and CD8α+ NK cells, respectively), indicating that CD8α− NK cells are capable of mediating functional ADCC responses (Fig. 5e). After determining that macaque CD8α− NK cells can become activated and exert functional activity, we wanted to examine whether CD8α− and CD8α+ NK cells are unique subsets, or if CD8α expression distinguishes members of the same cell population in different activation/differentiation stages. Initially, we conducted phenotypic stability studies using macaque PBMCs. As shown in Fig.

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