Skin-derived alternatively spliced IL-15 isoform-producing cells impair the generation of anti-viral effector CD8+ T cells in HSV-1 zosteriform mouse model

Abstract

Abstract We previously reported a Pedigree 191 (P191) of N-ethyl-N-nitrosourea (ENU) mutagenized mice that highly expressed an alternatively spliced IL-15 isoform with deletion of the first 16 amino acids in exon 7 (IL-15ΔE7). Infection of P191 mice with herpes simplex virus-1 (HSV-1) via flank skin generated a prolonged and early re-emerged HSV-1 zosteriform rash compared to wild type (WT) C57BL/6 mice. Using Kb/gB498–505 MHC Class I tetramer provided by NIH Tetramer Core Facility, we found that the numbers of gB-specific CD8+ T cells generated in draining lymph nodes (dLN) of P191 mice were greatly reduced over 10-day course after HSV-1 flank infection compared with WT mice. As expressions of IFN-γ, granzyme B and perforin were induced in WT CD8+ T cells by in vitro restimulation with gB peptides, they were poorly expressed in P191 CD8+ T cells. While HSV-1 skin infection induced migration of Langerhans cells into dLNs accompanied with increased IL-15 expression in WT mice, the number of migrated Langerhans cells was less in P191 and they preferentially expressed IL-15ΔE7 rather than IL-15. The reverse relationship between the cell number of Langerhans cells and the increased expression of IL-15ΔE7 mRNA in dLN of P191 mice suggested that the influx of skin-derived IL-15ΔE7 expressing cells plays an important role in influencing the quantity and quality of anti-HSV-1 CD8+ T cells generated in P191 mice. More experiments will be carried out to understand how the alternatively cytokine splicing mechanism regulates a long term and effective CD8+ T cell immunity against virus infection.