Grouper aquaculture is economically important in Taiwan, but has suffered from viral nervous necrosis (VNN) disease, which has caused extremely high mortality of fish at larval and juvenile stages. The causative agent of VNN is nervous necrosis virus (NNV). An inactivated NNV vaccine performed good protection efficacy on groupers against NNV infection. However, the information about the immune response of groupers after vaccination with inactivated NNV is still limited. Challenge test is traditionally used for the evaluation of vaccine protection efficacy, but it is time-consuming to find NNV-free groupers and do in vivo test. We therefore attempt to find other suitable indicator(s) for evaluating NNV vaccine protection efficacy. Giant groupers (Epinephelus lanceolatus) were intraperitoneally immunized with high (Vhigh) and low (Vlow) doses of inactivated NNV vaccine, and then intramuscularly challenged with NNV at 4 weeks post vaccination (wpv). The survival rates of Vhigh and Vlow groups were 67% and 52% respectively, and the survival rate of Vhigh group (67%) was significantly higher than that of non-vaccinated group (28%). No immune gene was intensely regulated by the inactivated NNV vaccine at 1, 2 and 4 wpv, but NNV-specific antibodies were effectively induced in both vaccinated groups at 2 and 4 wpv. After NNV infection, the NNV RNA2 load in the brain of Vhigh group was lower than that of Vlow group at 3 and 5 dpi. Moreover, the detection rate of NNV capsid protein in the immunohistochemistry (IHC)-stained brain of Vhigh group was also lower than that of Vlow group at 3 dpi. After NNV challenge, the gene expression levels of IFN-γ, Mx and TNF-α in brains of vaccinated and control groups were up-regulated at 3 dpi; CD8α and IgM gene expressions gradually increased during infection period. In addition, IgM signals appeared in the NNV-infected brains after IHC staining, suggesting that CD8α+ lymphocytes and IgM+ B lymphocytes may infiltrate into the brain after NNV infection. IL-1β gene expression was significantly high in the brain of dead fish at 8-12 dpi; however, the viral load in the brain did not peak at the same time, suggesting that the death of NNV-infected groupers may due to the over-expression of IL-1β. In conclusion, neutralizing antibody titers in the serum of vaccinated and control groups were associated with their survival rates after NNV infection, it is therefore considered to be a suitable evaluation indicator for the protection efficacy of NNV vaccine.