Herpes simplex virus type 2 (HSV-2) causes lethal illness after intravaginal (IVAG) inoculation into BALB/cJ mice. In the present studies, we demonstrated in mice that primary IVAG vaccination with an attenuated strain of HSV-2 induced humoral immunity in sera and in vaginal secretions, Secondary genital exposure to HSV-2 enhanced this response. However, intraperitoneal exposure to attenuated HSV-2 elicited an antiviral antibody response in sera but not in vaginal secretions. In both sera and vaginal secretions, antiviral IgG antibodies were the major isotype. Systemic exposure to HSV-2 elicited antibodies only in sera that were specific for the major viral antigens whereas IVAG inoculation with HSV-2 stimulatedboth serum and vaginal antibody responses. Intravenous transfer of antiviral monoclonal antibodies protected against systemic HSV-2 infection but were ineffective against vaginal infection due to a lack of transudation into vaginal secretions. These results suggested that local humoral immunity in the genital tract is important in resistance to HSV-2.
Herpes simplex virus type 2 (HSV-2) is a human venereal pathogen that causes lethal neurological illness after intravaginal inoculation into BALB/cJ mice. Intravaginal vaccination of mice with an attenuated strain of HSV-2 rapidly induces immunity to a lethal intravaginal challenge with wild-type HSV-2. This resistance is transferrable to syngeneic mice with genital lymph node (GLN) cells but not with cells from other lymphoid sources. Here we demonstrate that minimal numbers of HSV-2-stimulated GLN T lymphocytes are required for resistance to genital infection by HSV-2 and that such cells migrate preferentially into HSV-2-infected genital tissue. Furthermore, the results suggest that HSV-2-specific cytotoxic T lymphocytes from the GLN may be one effector cell population participating locally in genital immunity to the virus. These findings indicate that mucosal immunity to genital HSV-2 infection requires the antigen stimulation of migratory T cells in the GLN.
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