Development of a Pure Small Molecule αVβ3 Antagonist

# Contributed equally αVβ3 has been implicated in the pathophysiology of important disorders, including osteoporosis, sickle cell disease, tumor angiogenesis, metastasis, virus invasion, glomerulonephritis, dermal and hepatic fibrosis, acute myelogenous leukemia, supravalvular aortic stenosis, bowel strictures, and T-cell lymphoma, but no αVβ3 antagonists have been approved for human therapy. The RGD-based αVβ3 antagonist MK-0429 (MK429) had favorable results in osteoporosis patients in Phase 2, but was not advanced, and the RGD-based antagonist cilengitide was studied in patients with malignancies, but did not demonstrate efficacy. Since RGD-based antagonists can under certain circumstances activate αVβ3, prime it to bind ligand, induce apoptosis, increase tumor angiogenesis and growth, and increase hepatic fibrosis, we sought to develop a pure αVβ3 antagonist that does not induce high affinity ligand binding or exposure of the epitope for mAb AP5, both of which depend on the swing-out of the β3 PSI domain. We built on Arnaout9s group9s studies of a variant fibronectin fragment with high affinity for αVβ3 (hFN10) that did not induce the β3 swing-out motion because a Trp substitution on the ligand formed a π-π interaction with β3 Y122 on the β1-α1 loop, thus preventing the latter9s movement toward the MIDAS, which is the trigger for β3 swing-out. To develop a small-molecule that mimics the effect of hFN10, we used inferences from a predicted docking pose of MK429 into the hFN10 binding site of the αVβ3 crystal structure to rationally design a compound with an aromatic ring that directly engages β3 Y122. Based on the results of molecular dynamics simulations, the aromatic group of this compound, TDI-4161, is only 4.4 A from Y122 (and forms a π-π interaction), which compares with 4.7 A for hFN10 and 7.0 A for MK429 (which does not form a π-π interaction). We analyzed compounds in 2 assays: 1. Adhesion of HEK293 cells expressing human αVβ3 (HEK-αVβ3) to fibrinogen (reported as the concentration producing 50% inhibition; IC50). 2. Exposure of the epitope for mAb AP5 (the concentration producing 50% exposure; EC50). The racemate of MK429 (rMK429) has an IC50=0.0036 µM and an EC50=0.019 µM, and cilengitide has an IC50=0.050 µM and an EC50=0.034 µM, indicating that both are potent αVβ3 antagonists and potent inducers of the αVβ3 active conformation. In sharp contrast, TDI-4161 has an IC50=0.022 µM and an EC50>10 µM, indicating that it does not induce the β3 conformational change even at 400X the IC50. TDI-4161 inhibited the binding of: purified αVβ3 to adenovirus 2 penton base (IC50 = 0.028 µM) and purified αVβ5 to vitronectin (IC50 =2.09 µM), but not purified αVβ6 to TGF-β1 Latency Associated Peptide even at 10 µM. TDI-4161inhibited adhesion of mouse endothelial cells containing murine αVβ3 to fibrinogen (IC50 = 0.437 µM). We tested TDI-41619s ability to 9prime" αVβ3 by: incubating it with HEK-αVβ3 at 10 µM, fixing the cells with paraformaldehyde, washing, incubating with fluorescent fibrinogen, and measuring bound fibrinogen by flow cytometry. The peptide RGDS (100 µM) increased fibrinogen binding from 8.7 ± 1.5 to 24.3 ± 1.4 GMFI (p Disclosures Filizola: Icahn School of Medicine at Mount Sinai: Patents & Royalties. Foley: Tri-Institutional Therapeutics Discovery Institute: Patents & Royalties.