Exploring Combination Therapies in AD: Additive Effects of the QPCT Inhibitor Varoglutamstat and Aducanumab on Aβ Pathology and Biomarkers In Vivo

Abstract

AbstractBackgroundPyroglutamate‐3Aβ (N3pE), a toxic Aβ variant formed by the activity of glutaminyl gyclase (QPCT) has been shown to play a pivotal role in the development and progression of Alzheimer’s disease (AD). Recently, we demonstrated that a combination of the QPCT inhibitor varoglutamstat (PQ912) with the N3pE‐specific antibody m6 has an additive effect on lowering of N3pE in vivo. Here, we analyzed whether a similar additive effect could be achieved when combining varoglutamstat with the Aβ‐aggregate‐specific antibody aducanumab.MethodNine‐months old APPxhQC mice were treated with either varoglutamstat (1.6 g/kg chow, ad libitum), chimeric aducanumab (chAdu, ≈10 mg/kg i.p. weekly) or a combination of both for 16 weeks. Brain Aβ accumulation (ELISA and immunohistochemistry) and AD biomarkers in the water‐soluble brain fractions (neurogranin, BACE‐1, YKL‐40; ELISA) were analyzed and compared to a vehicle‐treated group.ResultTreatment with either varoglutamstat or chAdu significantly reduced the accumulation of both total Aβ and N3pE in the brain. The effect of chAdu was more pronounced for total Aβ (‐35% vs. ‐21% for varoglutamstat), while varoglutamstat treatment resulted in a stronger decrease of N3pE (‐28% vs. ‐19% for chAdu). The combination treatment generally led to a stronger decrease of Aβ vs. single agent treatment (Bliss combination index (CI) = 0.88 for soluble Aβ42 and 1.23 for insoluble Aβ42). For insoluble N3pE, the observed effect was nearly additive (CI = 1.09). Treatment with chAdu, varoglutamstat or both had different effects on the analyzed AD biomarkers. chAdu treatment significantly decreased BACE‐1 protein levels (‐30%), while varoglutamstat treatment significantly reduced levels of the brain inflammation marker YKL‐40 (‐27%), which is in line with earlier clinical Phase 2a study results.ConclusionOur data indicate that a combination of agents with different modes of action such as aducanumab, an Aβ aggregate‐specific antibody and varoglutamstat, a small molecule designed to block formation of toxic, aggregation‐prone N3pE, can act additively to decrease total Aβ and N3pE levels in the brain. Our results also provide a rationale for investigating different potential combination regimens, including an initial antibody‐mediated Aβ clearance followed by long‐term suppression of N3pE formation and inflammation by varoglutamstat (“treat and maintain”).