Endocytosis of extracellular or plasma membrane material is a fundamental process. A variety of endocytic pathways exist, several of which are barely understood in terms of mechanistic execution and biological function. Importantly, some mechanisms have been identified and characterized by following virus internalization into cells. This includes a novel endocytic pathway exploited by human papillomavirus type 16 (HPV16). However, its cellular role and mechanism of endocytic vacuole formation remain unclear. Here, HPV16 was used as a tool to examine the mechanistic execution of vesicle formation by combining systematic perturbation of cellular processes with electron and video microscopy. Our results indicate cargo uptake by uncoated, inward-budding pits facilitated by the membrane bending retromer protein SNX2. Actin polymerization-driven vesicle scission is promoted by WASH, an actin regulator typically not found at the plasma membrane. Uncovering a novel role of WASH in endocytosis, we propose to term the new pathway WASH-mediated endocytosis (WASH-ME).