Virus-specific immune memory at peripheral sites of herpes simplex virus type 2 (HSV-2) infection in guinea pigs

Despite its importance in modulating HSV-2 pathogenesis, the nature of tissue-resident immune memory to HSV-2 is not completely understood. We used genital HSV-2 Infection of guinea pigs to assess the type and location of HSV-specific memory cells at peripheral sites of HSV-2 Infection. HSV-specific antibody-secreting cells were readily detected in the spleen, bone marrow, vagina/cervix, lumbosacral sensory ganglia, and spinal cord of previously-infected Animals. Memory B cells were detected primarily in the spleen and to a lesser extent in bone marrow but not in the genital tract or neural tissues suggesting that the HSV-specific antibody-secreting cells present at peripheral sites of HSV-2 Infection represented persisting populations of plasma cells. The antibody produced by these cells isolated from neural tissues of infected Animals was functionally relevant and included Antibodies specific for HSV-2 glycoproteins and HSV-2 neutralizing Antibodies. A vigorous IFN-γ-secreting T cell response developed in the spleen as well as the sites of HSV-2 Infection in the genital tract, lumbosacral ganglia and spinal cord following acute HSV-2 Infection. Additionally, populations of HSV-specific tissue-resident memory T cells were maintained at these sites and were readily detected up to 150 days post HSV-2 Infection. Unlike the persisting plasma cells, HSV-specific memory T cells were also detected in uterine tissue and cervicothoracic region of the spinal cord and at low levels in the cervicothoracic ganglia. Both HSV-specific CD4+ and CD8+ resident memory cell subsets were maintained long-term in the genital tract and sensory ganglia/spinal cord following HSV-2 Infection. Together these data demonstrate the long-term maintenance of both humoral and cellular arms of the adaptive immune response at the sites of HSV-2 latency and virus shedding and highlight the utility of the guinea pig Infection model to investigate tissue-resident memory in the setting of HSV-2 latency and spontaneous reactivation.