Protection against Lethal Encephalomyocarditis Virus Infection in the Absence of Serum-Neutralizing Antibodies†

AUTOR(ES)

Neal, Zane C.

FONTE

American Society for Microbiology

RESUMO

Although the ability of serum-neutralizing antibodies to protect against picornavirus infection is well established, the contribution of cell-mediated immunity to protection is uncertain. Using major histocompatibility complex class II-deficient (RHAβ−/−) mice, which are unable to mediate CD4+ T-lymphocyte-dependent humoral responses, we demonstrated antibody-independent protection against lethal encephalomyocarditis virus (EMCV) infection in the natural host. The majority of RHAβ−/− mice inoculated with 104 PFU of attenuated Mengo virus (vMC24) resolved infection and were resistant to lethal challenge with the highly virulent, serotypically identical cardiovirus, EMCV. Protection in these mice was in the absence of detectable serum-neutralizing antibodies. Depletion of CD8+ T lymphocytes prior to lethal EMCV challenge ablated protection in vMC24-immunized RHAβ−/− mice. The CD8+ T-lymphocyte-dependent protection observed in vivo may, in part, be the result of cytotoxic T-lymphocyte (CTL) activity, as CD8+ T splenocytes exhibited in vitro cytolysis of EMCV-infected targets. The existence of virus-specific CD8+ T-lymphocyte memory in these mice was demonstrated by increased expression of cell surface activation markers CD25, CD69, CD71, and CTLA-4 following antigen-specific reactivation in vitro. Although recall response in vMC24-immunized RHAβ−/− mice was intact and effectual shortly after immunization, protection abated over time, as only 3 of 10 vMC24-immunized RHAβ−/− mice survived when rechallenged 90 days later. The present study demonstrating CD8+ T-lymphocyte-dependent protection in the absence of serum-neutralizing antibodies, coupled with our previous results indicating that vMC24-specific CD4+ T lymphocytes confer protection against lethal EMCV in the absence of prophylactic antibodies, suggests the existence of nonhumoral protective mechanisms against picornavirus infections.

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