The virus-encoded ion channel “viroporin” activity of the agnoprotein is required for BK Polyomavirus release from infected kidney cells

Abstract

AbstractBK polyomavirus (BKPyV) is a common opportunistic pathogen and the causative agent of several diseases in transplant patients and the immunosuppressed. Despite its importance, aspects of the virus lifecycle such as how the virus exits an infected cells, remain poorly understood. The late region of the BKPyV genome encodes an auxillery protein called agnoprotein. We and others have shown that agnoprotein is an essential factor in virus release, and the loss of agnoprotein results in an accumulation of virus particles within the nucleus of an infected cell. The functions of agnoprotein necessary for this egress phenotype are not known. Here we demonstrate that agnoprotein shows properties associated with viroporins, a group of virus-encoded membrane spanning proteins that play key roles in virus infection and release. We demonstrate that agnoprotein oligomerises and perturbs membranes in cells. The development of a novel recombinant agnoprotein expression system permitted the identification of the first small molecules targeting agnoprotein. These compounds abrogated agnoprotein viroporin activity in vitro and reduced virus release, indicating that viroporin activity contributes to the phenotype observed in agnoprotein knockout viruses. The identification of channel activity should enhance the future understanding of the physiological function of agnoprotein and could represent an important target for antiviral intervention.