Interleukin-15 (IL-15) plays an important role in maintaining the homeostasis and the development of memory CD8 T cells, NK cells and NKT cells. IL-15 functions to increase immune cells infiltration, angiogenesis and pro-inflammatory cytokine production. Clinical researches show that overexpression of IL-15 in tissues is correlated with human inflammatory diseases and carcinogenesis. ENU mutant C57BL/6 mice that predominantly expressed an alternatively spliced IL-15 isoform generated from partial deletion in exon 7 of the IL-15 gene are deficient in memory CD8+ T cells. The IL-15 isoform is thus named DM-IL-15. Our previous study demonstrated that ectopic expression of DM-IL-15 in the wild type mouse skin resulted in the modulated proinflammatory response in skin after various types of stimulation by abrasion, chemical compound and immunologic agent. The overall goal of my thesis was to investigate the effects of DM-IL-15 on Herpes simplex virus-1 (HSV-1) zosteriform and neuroinvasiveness in mouse model. Principal component analysis of the transcriptional levels of 179 inflammation related genes demonstrated that they were differentially expressed in wild type C57BL/6 (B6) mouse skin expressed with empty vector (WT/pEV) or a plasmid expressing DM-IL-15 (WT/pDM-IL-15) after HSV-1 infection. Forced expression of DM-IL-15 reduced the gene expression levels of neutrophil chemokines (CXCL1, CXCL2, CXCL3 and CXCL5) and pro-inflammatory cytokines (IL-1β, IL-6 and TNFSF14) in HSV-1 infected skin tissue, suggesting that DM-IL-15 might regulate NF-κB signaling in skin after HSV-1 infection. DM-IL-15 expressing skin also expressed a higher level of IL-4, IL-23A and LTA than control skin after HSV-1 infection, implicating DM-IL-15 was likely involved in regulating the development of T cell immunity against HSV-1 infection. While HSV-1 skin lesion was evident on day 2 and resolved on day 10 post infection, HSV-1-infected DM-IL-15 expressing mouse skin showed severe lesion until day 14 after HSV-1 infection accompanied with evident neutrophil infiltration by H E analysis. In a 25-day time course experiment, daily documentation on the development of HSV-1 lesions observed that an earlier onset of new lesion and prolonged skin lesion at the non-inoculated ventral side occurred in DM-IL-15 expressing compared with pEV-treated mouse skin. The higher transcriptional levels of ICP4 gene encoding HSV-1 transcriptional factor and gB gene encoding structural glycoprotein B expressed in DM-IL-15 expressing mouse skin after infected with low dose of HSV-1 have suggested that expression of DM-IL-15 before HSV-1 inoculation may modulate host cell response and promote viral infection in skin. Moreover, the levels of transcription of ICP4 and gB in the dorsal root ganglion (DRG) isolated from correspondent animals at days 7 and 10 were higher in DM-IL-15 expressed than in control group. These results indicate that DM- IL-15 plays an important role in modulating HSV-1 pathogenesis in skin and the neuron. Cells or mediators that are targeted by DM-IL-15 require further thorough investigations.