P911 Development and Characterization of SPY002, a Novel Extended Half-life Monoclonal Antibody Drug Candidate Targeting TL1A for the Treatment of IBD

Abstract Background Tumor necrosis factor (TNF)-like ligand 1A (TL1A) mediates a broad spectrum of pro-inflammatory and fibrotic effects and is implicated in the pathogenesis of several immunologic disorders. Blockade of the interaction of TL1A with its cognate receptor, DR3, has been shown to ameliorate disease activity patients with Crohn’s disease (CD) and ulcerative colitis (UC). SPY002 is a novel, extended half-life fully human IgG1 monoclonal antibody (mAb) that binds soluble TL1A with high affinity and specificity, and potently inhibits TL1A-mediated signaling. Methods SPY002 was evaluated in multiple in vitro and ex vivo assays compared to other clinical anti-TL1A mAbs (PRA023/MK-7240, RVT-3101, and TEV-48574). Binding affinity to soluble TL1A was determined by surface plasmon resonance (SPR) and binding to membrane-bound TL1A was confirmed by flow cytometry (FACS). Competitive blockade of TL1A binding to cell-surface DR3 was determined by FACS, and competition against the decoy receptor, DcR3, was evaluated by ELISA. The binding epitope of SPY002 was determined using cryogenic electron microscopy. TF-1 cell apoptosis and a primary human whole blood-based assay measuring IFNg secretion were used to assess functional blockade of exogenously added TL1A. Half-life extension was measured via pharmacokinetic analysis in both Tg276 transgenic mice (hemizygous for human FcRn) and cynomolgus monkeys given a single bolus of SPY002 by intravenous and/or subcutaneous administration. Results SPY002 binds specifically to monomeric and trimeric TL1A and not to related TNF super family proteins TNF, FasL, TRAIL, or LIGHT. SPY002 demonstrates sub-nanomolar affinity for soluble TL1A and binds to TL1A over-expressed on the surface of human embryonic kidney (HEK) cells. SPY002 potently inhibits both TL1A-induced apoptosis of TF-1 cells and TL1A-induced secretion of IFNg in human whole blood, with IC50 values comparable to those of RVT-3101 and TEV-48574, and a substantially lower IC50 than that of PRA023/MK-7240. The half-life of SPY002 is significantly extended in Tg276 mice compared to RVT-3101. In cynomolgus monkeys, the half-life of SPY002 is at least 18 days, compared to an observed half-life of 9-12 days for RVT-3101 and PRA023/MK-7240. Conclusion SPY002 exhibits high selectivity and affinity for TL1A, demonstrates effective blockade of the TL1A interaction with DR3, and potently inhibits downstream cellular signaling. With an extended half-life in NHP, SPY002 demonstrates therapeutic potential for effective and safe treatment of CD and UC with the advantage of infrequent SC dosing. Further preclinical and clinical studies are warranted to demonstrate this potential.