Because ectopic expression of signaling intermediates can sometim

Because ectopic expression of signaling intermediates can sometimes result in misleading effects on downstream signaling pathways, we next performed siRNA-mediated knock-down of PIK3IP1. We first chose Jurkat T cells for these experiments since they express high levels of PIK3IP1 (Fig. 1B). Furthermore, we were intrigued by the fact that, although these cells lack expression of PTEN and SHIP, TCR and CD28 crosslinking can still lead to increased Akt activation [13, 14]. This suggests that while there is certainly some basal activity of this

pathway in Jurkat T cells, it is not maximal, raising the possibility that one or more additional negative regulators of the PI3K pathway might be operational in these cells. Thus, Jurkat T cells were transfected with SmartPool siRNA oligos specific for human PIK3IP1. As shown in Fig. 3A (upper panel), expression of PIK3IP1

protein was significantly Vemurafenib ic50 reduced by 48 h after transfection. We next examined the activation status of Akt in cells in which PIK3IP1 was knocked down. As shown in Fig. 3A (lower panel), while anti-TCR/CD28 stimulation of Jurkat T cells before PIK3IP1 knock-down resulted in increased phosphorylation of Akt serine 473, after knock-down of PIK3IP1, basal phosphorylation of Akt was often increased, precluding further stimulation by TCR/CD28 antibodies. Consistent with these findings, when an NFAT/AP-1 transcriptional reporter was co-transfected with PIK3IP1-specific siRNA, a dose-dependent enhancement of reporter activity was observed (Fig. 3B). To determine FER whether these effects could also be Selleckchem Dinaciclib seen at the level of an endogenous readout of T-cell activation, we examined the effects

of PIK3IP1 knock-down on IL-2 secretion. Thus, as shown in Fig. 3C, transfection of PIK3IP1 siRNA also led to a modest increase in the secretion of endogenous IL-2 (by about 30%) by Jurkat cells, compared with cells transfected with a control siRNA. Consistent with this modest effect, we were unable to detect any differences in IL-2 mRNA (data not shown). We also knocked down PIK3IP1 expression in the murine D10 T-cell line referred to above (Fig. 3D). Similar to the results obtained in Jurkat T cells, decreased PIK3IP1 expression in D10 T cells also led to heightened sensitivity of these cells to CD3/CD28-induced Akt phosphorylation (Fig. 3E and Supporting Information Fig. 1). As in the Jurkat experiments, we sometimes observed increased basal phosphorylation of Akt (Supporting Information Fig. 1). Importantly, in the D10 T cells, which appear to have otherwise normal PI3K signaling [12], we could detect an increase in endogenous cytokine message and protein after PIK3IP1 knock-down (Supporting Information Fig. 2). These results are all consistent with a role for PIK3IP1 in negative regulation of the PI3K pathway and downstream signaling to cytokine production.

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