Liraglutide chronic treatment prevents development of tolerance to antiseizure effects of diazepam in genetically epilepsy prone rats.

Glucagon-like peptide-1 (GLP-1) is a hormone that can regulate several neuronal functions. The modulation of GLP-1 receptors emerged as a potential target to treat several neurological diseases, such as epilepsy. Here, we studied the effects of acute and chronic treatment with liraglutide (LIRA), in genetically epilepsy prone rats (GEPR-9s). We have also investigated the possible development of tolerance to antiseizure effects of diazepam, and how LIRA could affect this phenomenon over the same period of treatment. The present data indicate that an acute treatment with LIRA did not diminish the severity score of audiogenic seizures (AGS) in GEPR-9s. By contrast, a chronic treatment with LIRA has shown only a modest antiseizure effect that was maintained until the end of treatment, in GEPR-9s. Not surprisingly, acute administration of diazepam reduced, in a dose dependent manner, the severity of the AGS in GEPR-9s. However, when diazepam was chronically administered, an evident development of tolerance to its antiseizure effects was detected. Interestingly, following an add-on treatment with LIRA, a reduced development of tolerance and an enhanced diazepam antiseizure effect was observed in GEPR-9s. Overall, an add-on therapy with LIRA demonstrate benefits superior to single antiseizure medications and could be utilized to treat epilepsy as well as associated issues. Therefore, the potential use of GLP1 analogs for the treatment of epilepsy in combination with existing antiseizure medications could thus add a new and long-awaited dimension to its management.

Perampanel chronic treatment does not induce tolerance and decreases tolerance to clobazam in genetically epilepsy prone rats.

Tolerance to some therapeutic effects of antiepileptic drugs may account for the development of pharmacoresistance in patients with epilepsy. In the present study, following oral acute pretreatment with the new antiepileptic drug perampanel (0.1, 0.3, 1 or 3 mg/kg), we observed that the drug significantly and dose-dependently attenuated the seizure phases (clonus and tonus) of audiogenic seizures in genetically epilepsy prone rats (GEPR-9 s), a genetic model of reflex generalized epilepsy. In addition, the GEPR-9 s were administered orally with perampanel (1 or 3 mg/kg) once daily for 10 weeks in order to study the possible development of tolerance, and when animals were subjected to auditory stimulation we observed that the ED50 values against clonus or tonus were not significantly different from those observed after single administration. Furthermore, the duration of anticonvulsant effects observed between 60 min and 9 h following oral administration of perampanel (1 mg/kg) were similar in acute and after chronic treatment. In another group of experiments, clobazam (0.75, 1.5, 3, 6, 9, 12 and 15 mg/kg) after acute administration was able to dose-dependently reduce the severity of the audiogenic seizures in GEPR-9 s. When clobazam (6 or 12 mg/kg) was administered alone for 10 consecutive weeks a clear development of tolerance to its anticonvulsant effects within approximately seven weeks was observed. In addition, we observed that when clobazam (6 mg/kg) was co-administered with perampanel (1 mg/kg), the latter drug was able to attenuate the development of tolerance to the antiseizure activity of clobazam. The present data indicate that both perampanel and clobazam are effective against audiogenic seizures, however, clobazam effects are hampered by the development of tolerance. Furthermore, concomitant treatment with perampanel slows development of tolerance to the anticonvulsant effects of clobazam in GEPR-9 s.

The potential role of cannabinoids in epilepsy treatment.

INTRODUCTION: Epilepsy is one of the world's oldest recognized and prevalent neurological diseases. It has a great negative impact on patients' quality of life (QOL) as a consequence of treatment resistant seizures in about 30% of patients together with drugs' side effects and comorbidities. Therefore, new drugs are needed and cannabinoids, above all cannabidiol, have recently gathered attention. Areas covered: This review summarizes the scientific data from human and animal studies on the major cannabinoids which have been of interest in the treatment of epilepsy, including drugs acting on the endocannabinoid system. Expert commentary: Despite the fact that cannabis has been used for many purposes over 4 millennia, the development of drugs based on cannabinoids has been very slow. Only recently, research has focused on their potential effects and CBD is the first treatment of this group with clinical evidence of efficacy in children with Dravet syndrome; moreover, other studies are currently ongoing to confirm its effectiveness in patients with epilepsy. On the other hand, it will be of interest to understand whether drugs acting on the endocannabinoid system will be able to reach the market and prove their known preclinical efficacy also in patients with epilepsy.