A simple transwell-based infection system for obtaining pure populations of VZV-infected cells.

Varicella-Zoster virus (VZV) is a human herpesvirus and causes chickenpox and shingles. Research into its molecular virology has been hampered by a lack of methods for generation of high-titre, cell-free infectious virus preparations. VZV propagation and infection in vitro are therefore commonly achieved by co-culture of uninfected 'target' cells with infected 'inoculum' cells. A major drawback of this approach is that it results in mixed cell populations after infection. To overcome this limitation we developed a transwell-based VZV infection system. Infected inoculum cells and uninfected target cells are spatially separated by a transwell membrane. While cell-cell contact and VZV spread can occur through membrane pores, the two cell populations do not mix. This simple protocol requires no special instrumentation or reagents. We successfully used this system for infection of a range of target cells and obtained pure populations for downstream analyses such as flow cytometry and RT-qPCR. In sum, we developed a broadly applicable approach to study the molecular and cellular biology as well as host-pathogen interactions of VZV.