Targeting Hsp90 with cemdomespib reduces seizure burden and alters disease course in preclinical epilepsy models

Abstract

Objective: Epilepsy is a chronic neurological disorder characterized by recurrent seizures and frequent cognitive and psychiatric comorbidities. Although current antiseizure medications provide symptomatic relief, they fail to prevent or modify epileptogenesis. Heat shock protein 90 (Hsp90) is increasingly recognized as a regulator of neuroinflammatory and oxidative stress pathways implicated in seizure generation and disease progression. Here, we investigated the therapeutic potential of cemdomespib, a novel and selective Hsp90 inhibitor, across complementary preclinical models of epilepsy.

Methods: In vitro, cemdomespib was evaluated in the low-magnesium model of epileptiform activity for its effects on neuronal calcium dynamics, mitochondrial membrane stability, and reactive oxygen species (ROS) generation. In vivo, acute seizure protection was assessed in the pentylenetetrazol (PTZ) model, and antiepileptogenic efficacy was tested in the kainic acid-induced status epilepticus (KA-SE) model using chronic video-electrocorticographic recordings. Behavioral outcomes relevant to epilepsy-associated comorbidities, including anxiety-like behavior and exploratory activity, were also examined.

Results: Cemdomespib reduced epileptiform calcium oscillations, stabilized mitochondrial membrane potential, and suppressed ROS generation in vitro. In the PTZ model, 45% of pretreated animals were protected from seizures, and those that seized exhibited reduced severity, shorter duration, and delayed onset. In the KA-SE model, cemdomespib significantly mitigated the severity of SE and reduced the emergence of spontaneous recurrent seizures during the chronic phase, as evidenced by lower seizure frequency, decreased cumulative seizure burden, and prolonged latency to seizure onset. Furthermore, treated animals demonstrated improved anxiety-like behavior and enhanced exploratory activity.

Significance: Cemdomespib confers both acute seizure protection and long-term suppression of epileptogenesis, likely through Hsp90-dependent regulation of mitochondrial integrity and redox signaling. These findings highlight Hsp90 inhibition as a promising therapeutic strategy for seizure control while also mitigating the progression of epileptogenesis and its associated neurobehavioral impairments.

Keywords: Hsp90 inhibitor; cemdomespib; epilepsy; kainic acid; pentylenetetrazol.