Background: Preclinical evidence suggests that c-Abl is critical in the pathogenesis of Parkinson's Disease (PD). Vodobatinib (K0706) is a potent, specific Abl kinase inhibitor currently being developed for the treatment of PD. In previously reported studies, nilotinib, a multikinase c-Abl inhibitor, did not show clinical activity as evidenced by no improvement of symptoms or the rate of decline after one to six months of treatment at the maximum permissible dose, presumably because of insufficient CNS penetration. Here we report clinical PK and safety data for vodobatinib.
Objectives: To determine safety, plasma PK, and CSF penetration of vodobatinib in healthy volunteers and PD subjects following oral administration, and compare CSF levels to in vitro concentrations required for c-Abl inhibition relative to data reported for nilotinib.
Methods: Inhibition of c-Abl kinase activity and c-Abl binding affinity were first assessed in vitro. Healthy human volunteers and PD patients received various oral doses of vodobatinib once-daily for seven and fourteen days respectively, to assess safety, and plasma and CSF PK.
Results: In in vitro assays, vodobatinib was more potent (kinase IC50 = 0.9 nM) than nilotinib (kinase IC50 = 15-45 nM). Administration of vodobatinib 48, 192 and 384 mg to healthy subjects for 7 days yielded mean Cmax, CSF values of 1.8, 11.6, and 12.2 nM respectively, with the two highest doses exceeding the IC50 over the entire dosing interval. Cavg, CSF values were 6-8 times greater than the IC50. Comparable CSF levels were observed in PD patients. All doses were well tolerated in both cohorts.
Conclusion: Based on achieved CSF concentrations, the potential for c-Abl inhibition in the brain is substantially higher with vodobatinib than with nilotinib. The CSF PK profile of vodobatinib is suitable for determining if c-Abl inhibition will be neuroprotective in PD patients.
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