Identification and characterization of an antagonistic anti-mouse CD40 antibody

Abstract

Abstract Targeting CD40-CD40L interactions has been an interesting drug concept for the treatment of autoimmune diseases given this pathway’s role in the development of both humoral and cell mediated immune responses. While preclinical blockade of CD40L is well documented in various autoimmune animal models of disease, limited data exists for CD40 blockade due to lack of a truly antagonistic anti-mouse CD40 tool antibody (Ab). Here we describe the in vitro and in vivo characterization of a fully antagonistic anti-mouse CD40 monoclonal Ab (BI CD40-1); a chimeric rat Fv anti-mouse CD40 mAb engineered with a mouse IgG2a Fc containing mutations to abrogate Fcγ receptor binding. BI CD40-1 blocks molecular CD40-CD40L interactions (IC50 = 0.25 nM) and exhibits potent binding to CD40 expressed on mouse B cells (EC50 = 0.42 nM ± 0.08). In vitro profiling of BI CD40-1 using a mouse splenocyte proliferation assay confirmed potent antagonistic activity (IC50 = 0.27 nM ± 0.09) as well as absence of any agonistic properties (stimulation index < 2 @ 67 nM). Administration of BI CD40-1 to mice prior to ovalbumin (OVA) immunization resulted in dose-dependent blockade of OVA-specific IgG responses (100, 100, 74, 0% inhibition at 10, 3, 1, and 0.3 MPK; day 13) correlating with similar dose dependent receptor occupancy and inhibition of B cell activation as measured by ex vivo CD54 upregulation. Prophylactic dosing in cGVHD model of scleroderma showed dose dependent protection in disease development as seen by decreased dermal thickness, myofibroblast counts and collagen deposition. BI CD40-1 represents a novel fully antagonistic anti-mouse CD40 mAb, an important tool for mechanistic understanding of the therapeutic value of targeting of CD40 in inflammatory diseases.