Route of a Multipartite Nanovirus across the Body of Its Aphid Vector
Jérémy Di Mattia, Marie-Stéphanie Vernerey, Michel Yvon, Elodie Pirolles, Mathilde Villegas, Yahya Z. A. Gaafar, Heiko Ziebell, Yannis Michalakis, Jean-Louis Zeddam, Stéphane Blanc
Abstract
An intriguing mode of vector transmission described only for plant viruses is circulative nonpropagative transmission, whereby the virus passes through the gut and salivary glands of the insect vector without replicating. Three plant virus families are transmitted this way, but details of the molecular/cellular mechanisms of the virus-vector interaction are missing. This is striking for nanoviruses that are believed to interact with aphid vectors in ways similar to those of luteoviruses or geminiviruses but for which empirical evidence is scarce. We here confirm that nanoviruses follow a within-vector route similar to that of geminiviruses but distinct from that of luteoviruses. We show that they produce a nonstructural protein mandatory for viral entry into gut cells, a unique phenomenon for this mode of transmission. Finally, noting that nanoviruses are multipartite viruses, we demonstrate that a large number of viral particles penetrate susceptible cells of the vector, allowing distinct genome segments to remain together.