Hybridoma Antibodies to the Murine Coronavirus JHM: Characterization of Epitopes on the Peplomer Protein (E2)

Abstract

A panel of hybridoma antibodies that react with the surface peplomer glycoprotein (E2) of the murine coronavirus JHM were produced to characterize major antigenic domains associated with functions related to virulence. Three groups of hybridoma antibodies were differentiated by immunoprecipitation of lysates from JHM-infected mouse cells. One group precipitated the virion structural proteins gp170 and gp98 together with the intracellular form of E2, gp150. A 2nd group reacted with gp98 and gp150, and a 3rd group precipitated gp150 only. Competition assays with biotinylated hybridoma antibodies allowed the definition of at least 6 different epitope groups. Only those antibodies which immunoprecipitated both gp170 and gp98 neutralized infectivity, inhibited cell fusion and protected infected rats against acute disease. Another class of antibodies binding to gp170 and gp98 also neutralized JHM virus, but did not inhibit fusion and did not protect against disease. Antibodies that immunoprecipitated gp150 and gp98 revealed only weak neutralization and did not inhibit cell fusion or protect animals. Four epitopes were defined by antibodies that immunoprecipitated gp150, but revealed no biological activity. Evidently the site responsible for cell fusion is associated with an epitope group carried by gp170 and gp98. Neutralizing antibodies bind to this and another epitope. Protection of JHM-infected rats against acute disease requires both inhibition of cell fusion and neutralization of virus.