Low-density Lipoprotein Receptor is an important host factor in flaviviral entry and replication in neurons.

Abstract

Flaviviruses, which are transmitted by mosquitoes, are arthropod-borne infections that are pathogenic to both humans and animals, posing a significant global threat to public health. So far, various endocytic pathways have been reported for flaviviral entry; however, the role of cellular factors in viral replication and entry remains uncertain. Here in this study, we identified the role of Low-density lipoprotein receptor, which has long been established as a cholesterol carrier for neurons but remained unexplored as an essential host factor for JEV/WNV replication. To explore this, we utilized 10-day old BALB/c pups and two neuronal cell lines, NSC34 and HT22, both of different origin, as experimental models. Transient knockdown of LDLR gene in vitro using siRNA-mediated gene silencing drastically reduced viral specific transcripts and proteins upon viral incubation. Moreover, flaviviral binding and internalization were significantly compromised upon infection in LDLR-transfected cells when compared with non-specific eGFP-transfected cells. Antibody neutralization experiments using LDLR-specific polyclonal antibody significantly reduced viral entry in vitro, suggesting the role of LDLR as an important cell attachment factor for JEV and WNV uptake. Furthermore, ectopic expression of LDLR via plasmid transfection led to significant increase in virus replication in cells, indicating significant role of LDLR in flavivirus replication beside acting as an active attachment factor for JEV and WNV. Overall, our results indicate that LDLR act as novel host factor involved in both flaviviral entry and replication, thus serving as a suitable candidate for antiviral research.