Atheroprotective CD40-TRAF6 inhibitors: translational pipeline towards a clinical application

Abstract

Abstract Background The co-stimulatory CD40–CD40 ligand axis is central in atherogenesis. Upon activation, CD40 recruits tumor necrosis factor receptor-associated factors (TRAFs) to induce downstream signaling. Murine studies with mutated CD40-TRAF binding sites in macrophages have shown that the CD40-TRAF6, rather than CD40-TRAF2/3/5, axis is crucial for atherosclerosis. We thus synthesized the small molecule inhibitor TRAF-STOP 6877002, that selectively blocks CD40-TRAF6 signaling. 6877002 successfully reduced the onset and development of atherosclerosis by reducing monocyte recruitment and macrophage activation in ApoE-/- mice without having immunosuppressive side effects. Purpose To assess whether 6877002 is a suitable candidate to pass the translational pipeline towards a clinical application. Methods Elaborate in vitro and in vivo assays evaluating the pharmacological properties and potential toxicity of 6877002. Results Together with Cyprotex, we performed in vitro assays examining the ADME profile of 6877002. In an intestinal permeability assay, 6877002 had low to moderate resorption with no significant efflux, suggesting it is not a substrate for the efflux transporters Pgp/BCRP or MRP2. A plasma protein binding assay showed very low unbound 6877002 fractions, indicating that it is highly bound to plasma proteins. The potential to inhibit cytochrome P450 enzymes was assessed using human liver microsomes in the presence of enzyme-specific probe substrates. While 6877002 inhibited CYP1A2 (IC50=4.01 µM), no potential for inhibiting other CYP isoforms was detected, suggesting low drug-drug interaction potential. To screen for putative cardiovascular risks, hERG ion channel inhibition was assessed and no IC50 could be determined. Hepatic clearance was rapid in mice, rats and dogs, while minipig and human hepatocytes had lower intrinsic clearance. Together with Aptuit, we developed suitable formulations for oral and i.v. administration. In vivo pharmacokinetics studies in rats showed low bioavailability (8.43%) and rapid clearance of orally administered 6877002 compared to i.v. injected 6877002, likely – and in line with our in vitro data – due to fast first-past effect in mouse hepatocytes and uptake by macrophages. To explain the high efficacy of 6877002 despite its rapid metabolism, we assessed whether 6877002 has active metabolites that bind the CD40-TRAF6 pocket and performed an LC-MS/MS-based metabolite profiling. We detected 17 metabolites. Further MD simulations confirmed that Metabolite (M)4, the most abundant metabolite, binds the CD40-TRAF6 pocket, reflected by the highest binding mode (-19.6; defined as Binding Free Energy derived from 40-50 ns of MD run as compared to -16.5 for 6877002). Similar to 6877002, M4 reduced atherosclerosis by 54% in Western diet-fed ApoE-/- mice, indicative of M4 being an active metabolite. Conclusion CD40-TRAF6 inhibitors are an attractive strategy to combat atherosclerosis with high translational potential.