A genome-wide haploid genetic screen for essential factors in vaccinia virus infection identifies TMED10 as regulator of macropinocytosis

Vaccinia virus is a promising viral vaccine and gene delivery candidate, and has historically been used as a model to study poxvirus-host cell interactions. We employed a genome-wide insertional mutagenesis approach in human haploid cells to identify host factors crucial for vaccinia virus infection. A library of mutagenized HAP1 cells was exposed to Modified Vaccinia Virus Ankara (MVA). Deep-sequencing analysis of virus-resistant cells identified host factors involved in heparan sulfate synthesis, Golgi organization, and vesicular protein trafficking. We validated EXT1, TM9SF2 and TMED10 TMP21/p23/p24δ) as important host factors for vaccinia virus infection. The critical role of EXT1 in heparan sulfate synthesis and vaccinia virus infection was confirmed. TM9SF2 was validated as a player mediating heparan sulfate expression, explaining its contribution to vaccinia virus infection. In addition, TMED10 was found to be crucial for virus-induced plasma membrane blebbing and phosphatidylserine-induced macropinocytosis, suggesting that TMED10 regulates actin cytoskeleton remodelling necessary for virus infection.