Potent and Broad HIV-1 Neutralization by a Bispecific CD4-CD4i Fusion Protein based on Single-Domain CD4-D1 and X5 CD4i antibody

Human immunodeficiency virus (HIV) infection remains a global health threat. Although antiretroviral therapy (ART) has significantly transformed HIV into a manageable chronic disease, emergence of drug resistance to current ART is a continuing concern. Broadly neutralizing antibodies, as well as reagents containing both a soluble CD4 mimetic and an HIV co-receptor inhibitor--such as CD4-CD4i antibodies--are promising strategies for the prevention and treatment of HIV infection. We previously developed a CD4 D1mimetic (mD1.22) with enhanced neutralization potency, surpassing that of the clinically validated sCD4-D1D2 mimetic. We also previously identified a novel CD4i antibody (X5) that targets the conserved coreceptor binding site on the gp120 core and recognizes an epitope partially overlapping with 17b monoclonal antibody binding site. X5 binding to gp120 was augmented by CD4 and modestly enhanced by CCR5. To leverage these favorable interactions, we designed and optimized sCD4-X5 bispecific antibodies by computational structure-aided modification of antibody size and fusion linkers between the two binding moieties. The bispecific D1X5, with a (G4S)7 long linker between D1 and X5 (IgG1-LL D1X5), exhibited broad neutralization against 11 diverse HIV subtypes across B, C, G clades and AC, BC recombinants. The TZM-bl cell neutralization assay showed IgG1-LL D1X5 neutralization geometric mean IC50 and IC80 are 0.6 g/mL and 3.4 g/mL respectively, which are within the range of potent bnAbs. This work has identified a novel single domain soluble CD4 based CD4-CD4i bispecific antibody with broad HIV-1 neutralization.