Abstract
Disrupted in Schizophrenia 1 (DISC1) is essential for neuronal development and has been implicated in various psychiatric disorders. Our transcriptomic and proteomic analyses identified Zika virus (ZIKV) infection enhanced DISC1 expression, however, its functional role in ZIKV infection and caused congenital Zika syndrome (CZS) and ZIKV-induced long-term neurodevelopmental defects remain unexplored. In this study, we demonstrate that DISC1 attenuates ZIKV infection in human placental and neuroglia cells, as well as in murine macrophages and primary cortical cells. DISC1 also decreases ZIKV dissemination from peripheral tissues to key organs of mice, including the uterus, testis, and brain, thereby reducing fetal abortion rates and intrauterine growth restriction. Notably, DISC1 is associated with brain damage and long-term ZIKV effects, including memory loss, reduced anxiety and depression, declines in sociability and social novelty. Mechanistically, DISC1 activates autophagy by enhancing AMPKα phosphorylation and reducing mTOR phosphorylation, protecting against ZIKV infection. Additionally, DISC1 interacts with LC3 to further activate autophagy, partially contributing to reduce ZIKV infection. In conclusion, DISC1 plays a critical factor in controlling ZIKV infection and mitigating CZS and ZIKV-induced neurocognitive decline.