Previous in vitro and in vivo experiments in our laboratory have demonstrated that cross-linked bispecific monoclonal antibody (mAb) complexes (Heteropolymers, HP) facilitate binding of prototype pathogens to primate erythrocytes (E) via the E complement receptor, CR1. These E-bound immune complexes are safely and rapidly cleared from the bloodstream. In order to generate a robust bispecific system for HP-mediated clearance of real pathogens such as Filoviruses, we have developed the necessary methodologies and reagents using both inactivated Marburg virus (iMV) and a recombinant form of its surface envelope glycoprotein (rGP). We identified mAbs which bind rGP in solution phase immunoprecipitation experiments. HP were prepared by chemically cross-linking an anti-CR1 mAb with several of these anti-Marburg virus mAbs and used to facilitate binding of iMV and rGP to monkey and human E. These HP mediate specific and quantitative binding (> or = 90%) of both antigens to monkey and human E. Binding was also demonstrable in an indirect RIA. E with bound Marburg virus were probed with 125I labeled mAbs to the Marburg surface glycoprotein and more than 100 mAbs are bound per E. It should be possible to adapt this general approach to other pathogens, and experiments underway should lead to an in vivo test of HP-mediated clearance of Marburg virus.