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Translational Pharmacology of <scp>PRAX</scp>‐944, a Novel T‐Type Calcium Channel Blocker in Development for the Treatment of Essential Tremor

Liam Scott, Corey B. Puryear, Gabriel M. Belfort, Shane Raines, Zoë A. Hughes, Lillian G. Matthews, Bernard Ravina, Marion Wittmann

2022Movement Disorders17 citationsDOIOpen Access PDF

Abstract

BACKGROUND: Essential tremor is the most common movement disorder with clear unmet need. Mounting evidence indicates tremor is caused by increased neuronal burst firing and oscillations in cerebello-thalamo-cortical circuitry and may be dependent on T-type calcium channel activity. T-type calcium channels regulate sigma band electroencephalogram (EEG) power during non-rapid eye movement sleep, representing a potential biomarker of channel activity. PRAX-944 is a novel T-type calcium channel blocker in development for essential tremor. OBJECTIVES: Using a rat tremor model and sigma-band EEG power, we assessed pharmacodynamically-active doses of PRAX-944 and their translation into clinically tolerated doses in healthy participants, informing dose selection for future efficacy trials. METHODS: Harmaline-induced tremor and spontaneous locomotor activity were used to assess PRAX-944 efficacy and tolerability, respectively, in rats. Sigma-power was used as a translational biomarker of T-type calcium channel blockade in rats and, subsequently, in a phase 1 trial assessing pharmacologic activity and tolerability in healthy participants. RESULTS: In rats, PRAX-944 dose-dependently reduced tremor by 50% and 72% at 1 and 3 mg/kg doses, respectively, without locomotor side effects. These doses also reduced sigma-power by ~30% to 50% in rats. In healthy participants, sigma-power was similarly reduced by 34% to 50% at 10 to 100 mg, with no further reduction at 120 mg. All doses were well tolerated. CONCLUSIONS: In rats, PRAX-944 reduced sigma-power at concentrations that reduced tremor without locomotor side effects. In healthy participants, comparable reductions in sigma-power indicate that robust T-type calcium channel blockade was achieved at well-tolerated doses that may hold promise for reducing tremor in patients with essential tremor. © 2022 The Authors. Movement Disorders published by Wiley Periodicals LLC on behalf of International Parkinson and Movement Disorder Society.

Topics & Concepts

TolerabilityEssential tremorCalcium channelPharmacologyMedicineCalcium channel blockerT-type calcium channelVoltage-dependent calcium channelBlockadeElectroencephalographyNeurosciencePsychologyCalciumInternal medicineReceptorAdverse effectNeurological disorders and treatmentsTranscranial Magnetic Stimulation StudiesVagus Nerve Stimulation Research