A Specific Interaction of Small Molecule Entry Inhibitors with the Envelope Glycoprotein Complex of the Junín Hemorrhagic Fever Arenavirus

Celestine J Thomas,Hedi E Casquilho-Gray,Joanne York,Dianne L Decamp,Dongcheng Dai,Erin B Petrilli,Dale L Boger,Richard A Slayden,Sean M Amberg,Stephen R Sprang,Jack H Nunberg

doi:10.1074/jbc.m110.196428

Abstract

Arenaviruses are responsible for acute hemorrhagic fevers worldwide and are recognized to pose significant threats to public health and biodefense. Small molecule compounds have recently been discovered that inhibit arenavirus entry and protect against lethal infection in animal models. These chemically distinct inhibitors act on the tripartite envelope glycoprotein (GPC) through its unusual stable signal peptide subunit to stabilize the complex against pH-induced activation of membrane fusion in the endosome. Here, we report the production and characterization of the intact transmembrane GPC complex of Junín arenavirus and its interaction with these inhibitors. The solubilized GPC is antigenically indistinguishable from the native protein and forms a homogeneous trimer in solution. When reconstituted into a lipid bilayer, the purified complex interacts specifically with its cell-surface receptor transferrin receptor-1. We show that small molecule entry inhibitors specific to New World or Old World arenaviruses bind to the membrane-associated GPC complex in accordance with their respective species selectivities and with dissociation constants comparable with concentrations that inhibit GPC-mediated membrane fusion. Furthermore, competitive binding studies reveal that these chemically distinct inhibitors share a common binding pocket on GPC. In conjunction with previous genetic studies, these findings identify the pH-sensing interface of GPC as a highly vulnerable target for antiviral intervention. This work expands our mechanistic understanding of arenavirus entry and provides a foundation to guide the development of small molecule compounds for the treatment of arenavirus hemorrhagic fevers.

Highlights

The Arenaviridae comprise a diverse group of rodentborne viruses, some of which are associated with severe hemorrhagic fevers in humans [1]
Expression of Cleavage-defective Junín virus (JUNV) GPC—Recombinant baculoviruses provide a robust platform for high level expression of membrane glycoproteins [31]; we proceeded to express the intact transmembrane GPC complex of JUNV in insect cells
A baculovirus pFastBac-Dual (Invitrogen) vector was used to express stable signal peptide (SSP) separately from the G1G2 precursor, which was directed to the membrane by the conventional signal peptide of human CD4 [12] and included a C-terminal FLAG tag sequence to facilitate purification

Summary

Diverse Entry Inhibitors Share a Binding Site on JUNV GPC

Using GPC of the Junín virus (JUNV), the causative agent of Argentine hemorrhagic fever, such studies have further suggested that the inhibitors prevent virus entry by stabilizing the prefusion GPC complex against pH-induced activation in the endosome [17]. A detailed understanding of the molecular events in membrane fusion will be important in guiding the design of optimized drug candidates for clinical development. Toward this end, we have produced the intact transmembrane JUNV GPC complex in insect cells and characterized its interaction with the chemically distinct classes of small molecule fusion inhibitors. Biophysical and structural analysis of the bound GPC complex will provide a platform for the development of effective therapeutics for use in the treatment of arenaviral hemorrhagic fevers

EXPERIMENTAL PROCEDURES

RESULTS

Kd nM

DISCUSSION