The interaction of flavivirus M protein with light chain Tctex-1 of human dynein plays a role in late stages of virus replication

The role of the membrane protein (prM/M) in flavivirus life cycle remains unclear. Here, we identified a cellular interactor to the 40-residue-long ectodomain of prM/M (ectoM) using a yeast two-hybrid screen against a human cDNA library and GST pull-down assays. We showed that dynein light chain Tctex-1 interacts with the ectoM of dengue 1–4, West Nile, and Japanese encephalitis flaviviruses. No interaction was found with yellow fever and tick-borne flaviviruses. This interaction is highly specific since a single amino-acid change in the ectoM abrogates the interaction with Tctex-1. To understand the role of this interaction, silencing of Tctex-1 using siRNA was performed prior to infection. A significant decrease in progeny production was observed for dengue and West Nile viruses. Silencing Tctex-1 inhibited the production of recombinant dengue subviral particles (RSPs). Thus Tctex-1 may play a role in late stages of viral replication through its interaction with the membrane protein.

► Ectodomain of several flavivirus membrane protein interacts with Tctex-1 protein. ► Silencing Tctex-1 decreases dengue and West-Nile virus progeny production. ► It also alters dengue virus recombinant subviral particles production. ► We conclude that Tctex-1 is involved in late steps of viral life cycle.