IL-15 mediates the proliferation and survival of memory CD8+ T cells, natural killer (NK) and NKT cells as well as enhancing cytokine production. We have previously shown that an alternatively spliced IL-15 isoform that has partial deletion in exon 7 of the IL-15 gene (IL-15ΔE7) failed to activate phosphorylation of STAT5 and blocked transcription of anti-apoptotic gene bcl-2 in an IL-2/IL-15 dependent T cell line (HT-2 cells). In this thesis, I have successfully generated recombinant IL-15ΔE7 and IL-15 proteins from yeast expression system and confirmed by Fast Protein Liquid Chromatography (FPLC) and Western Blot analyses. To further investigate the effects of IL-15ΔE7 on cell survival, IL-15ΔE7-treated or IL-15-treated HT-2 cells were examined for cell apoptosis by detecting the expression of phosphatidylserine (PS) on the plasma membrane and DNA fragmentation by flow cytometric analysis. HT-2 cells were proliferative and survived in IL-15 culture. However, high percentage of cells underwent apoptosis at 12 h and all cells died at 24 h in IL-15ΔE7-treated HT-2 cells. The patterns were similar to cytokine-deprived control cells. Pretreatment of HT-2 cells with IL-15ΔE7 followed by IL-15 treatment or co-treatment of the cells with a mixture of IL-15 and IL-15ΔE7 did not blocked IL-15-mediated cell survival and proliferation. High concentration of IL-15ΔE7 treatment did not promote cell death in IL-15 treated cells. These experiments demonstrated that while IL-15ΔE7 failed to support HT-2 cell survival, exogenous addition of IL-15ΔE7 did not exert inhibitory effects on IL-15-mediated cell proliferation. Signalosome analysis by Micro-Western assay showed that IL-15ΔE7 treatment resulted in increased levels of phosphorylation of p70 S6 kinase, SrcY416, SrcY527, Syk and GSK3 compared with those in IL-15 treated cells. Increased protein level of IκB was also observed. Further analysis of the protein phosphorylation in MAPK pathways and SrcY416 by conventional Western blot confirmed that IL-15ΔE7 failed to phosphorylate ERK but enhanced phosphorylation of JNK, P38 and SrcY416. IL-15 induced phosphorylation of IKK was suppressed in IL-15ΔE7 treated cells. Since the phosphorylation levels of p65 were comparable in IL-15-treated and IL-15ΔE7-treated cells, the role of IL-15ΔE7 in NF-κB signaling pathways requires further investigation. Analysis of the binding of IL-15 or IL-15ΔE7 to IL-15Rα and the effects on the surface expression of IL-15Rα after ligand binding demonstrated that IL-15ΔE7 bound to IL-15Rα with very low affinity compared with IL-15. IL-15 triggered downregulation of surface expression of IL-15Rα was less significant in IL-15ΔE7-treated cells. Since trans-presentation of IL-15 by IL-15Rα on myeloid cells is known as an important mechanism for developing effector functions of T cells and NK cells, the role for IL-15ΔE7 in regulating IL-15 function via trans-presentation is worth of further investigation.