Discovery of functionally distinct anti-C7 monoclonal antibodies and stratification of anti-nicotinic AChR positive Myasthenia Gravis patients.

Myasthenia Gravis (MG) is mediated by autoantibodies against acetylcholine receptors that cause loss of the receptors in the neuromuscular junction. Eculizumab, a C5-inhibitor, is the only approved treatment for MG that mechanistically addresses complement-mediated loss of nicotinic acetylcholine receptors. It is an expensive drug and was approved despite missing the primary efficacy endpoint in the Phase 3 REGAIN study. There are two observations to highlight. Firstly, further C5 inhibitors are in clinical development, but other terminal pathway proteins, such as C7, have been relatively understudied as therapeutic targets, despite the potential for lower and less frequent dosing. Secondly, given the known heterogenous mechanisms of action of autoantibodies in MG, effective patient stratification in the REGAIN trial may have provided more favorable efficacy readouts. We investigated C7 as a target and assessed the in vitro function, binding epitopes and mechanism of action of three mAbs against C7. We found the mAbs were human, cynomolgus monkey and/or rat cross-reactive and each had a distinct, novel mechanism of C7 inhibition. TPP1820 was effective in preventing experimental MG in rats in both prophylactic and therapeutic dosing regimens. To enable identification of MG patients that are likely to respond to C7 inhibition, we developed a patient stratification assay and showed in a small cohort of MG patients (n=19) that 63% had significant complement activation and C7-dependent loss of AChRs in this in vitro set up. This study provides validation of C7 as a target for treatment of MG and provides a means of identifying patients likely to respond to anti-C7 therapy based on complement-activating properties of patient autoantibodies.

Isolation and characterisation of potential respiratory syncytial virus receptor(s) on epithelial cells.

Respiratory syncytial virus (RSV) infection causes severe lower respiratory diseases in infancy, early childhood and the elderly. RSV infections respond poorly to current therapies. Therefore, we initiated a search for novel drug targets by investigating the characteristics and identity of RSV adhesion receptors on mammalian cells. Soluble human lectins, complex polysaccharides and a low molecular selectin antagonist, TBC1269, were used to characterise and isolate the RSV receptor on a human epithelial cell line (Hep2 cells). The binding characteristics of the RSV receptor on Hep2 cells were similar to those reported for L-selectin. The carbohydrate-based selectin antagonists, fucoidan and TBC 1269, inhibit RSV infection both in vitro and in a mouse model of infection. Furthermore, we have isolated annexin II as a potential RSV receptor on Hep2 cells. The expression of annexin II was increased after RSV infection. Recombinant annexin II binds to RSV G-protein, heparin and plasminogen and the binding is inhibited by a selectin antagonist, TBC1269. These findings indicate that inhibitors of annexin II could have potential in treating RSV infection.