Abstract
Epilepsy is one of the most frequent neurological disorders affecting about 1% of the world’s human population. Despite availability of multiple treatment options including antiseizure drugs, it is estimated that about 30% of seizures still remain resistant to pharmacotherapy. Searching for new antiseizure and antiepileptic agents constitutes an important issue within modern medicinal chemistry. Cinnamamide derivatives were identified in preclinical as well as clinical studies as important drug candidates for the treatment of epilepsy. The cinnamamide derivative presented here: S(+)-(2E)-N-(2-hydroxypropyl)-3-phenylprop-2-enamide (S(+)-N-(2-hydroxypropyl)cinnamamide, compound KM-568) showed anticonvulsant activity in several models of epilepsy and seizures in mice and rats. It was active in a genetic animal model of epilepsy (Frings audiogenic seizure-susceptible mouse model, ED50 = 13.21 mg/kg, i.p.), acute seizures induced electrically (maximal electroshock test ED50 = 44.46 mg/kg mice i.p., ED50 = 86.6 mg/kg mice p.o., ED50 = 27.58 mg/kg rats i.p., ED50 = 30.81 mg/kg rats p.o., 6-Hz psychomotor seizure model 32 mA ED50 = 71.55 mg/kg mice i.p., 44 mA ED50 = 114.4 mg/kg mice i.p.), chronic seizures induced electrically (corneal kindled mouse model ED50 = 79.17 mg/kg i.p., hippocampal kindled rat model ED50 = 24.21 mg/kg i.p., lamotrigine-resistant amygdala kindled seizure model in rats ED50 = 58.59 mg/kg i.p.), acute seizures induced chemically (subcutaneous metrazol seizure threshold test ED50 = 104.29 mg/kg mice i.p., ED50 = 107.27 mg/kg mice p.o., ED50 = 41.72 mg/kg rats i.p., seizures induced by picrotoxin in mice ED50 = 94.11 mg/kg i.p.) and the pilocarpine-induced status epilepticus model in rats (ED50 = 279.45 mg/kg i.p., ED97 = 498.2 mg/kg i.p.). The chemical structure of the compound including configuration of the chiral center was confirmed by NMR spectroscopy, LC/MS spectroscopy, elemental analysis, and crystallography. Compound KM-568 was identified as a moderately stable derivative in an in vitro mouse liver microsome system. According to the Ames microplate format mutagenicity assay performed, KM-568 was not a base substitution or frameshift mutagen. Cytotoxicity evaluation in two cell lines (HepG2 and H9c2) proved the safety of the compound in concentrations up to 100 µM. Based on the results of anticonvulsant activity and safety profile, S(+)-(2E)-N-(2-hydroxypropyl)-3-phenylprop-2-enamide could be proposed as a new lead compound for further preclinical studies on novel treatment options for epilepsy.
Highlights
Epilepsy is characterized by recurrent unprovoked epileptic seizures and is recognized as an important cause of morbidity and mortality
A Results presented as number of protected/tested animals in seizure models or number of animals displaying neurotoxicity/number of animals used in neurotoxicity assessment; b Calculated ED50 or TD50 value with 95% confidence interval in parentheses; the compound KM-568 was tested 0.25 h after administration
>500 a Results presented as number of protected/tested animals in seizure models or number of animals displaying neurotoxicity/number of animals used in neurotoxicity assessment; b Calculated ED50 or TD50 value with 95% confidence interval in parentheses; the compound KM-568 was tested 0.25 h after administration for maximal electroshock (MES) and subcutaneous metrazol (scMET) (i.p.), 0.5 h for TOX (i.p.), 1.0 h for MES, scMET and TOX (p.o.)
Summary
Epilepsy is characterized by recurrent unprovoked epileptic seizures and is recognized as an important cause of morbidity and mortality. Pharmacotherapy is one of the treatment options for epilepsy. It requires usage of antiseizure drugs (ASDs). These drugs are known as antiepileptic drugs (AEDs), but the name was recently changed as the drugs most likely prevent seizures rather than epileptogenesis [2]. Some seizures are defined as resistant when they do not respond to available drugs. Recent findings confirmed that the increased risk for drug resistant epilepsy is caused by age at onset, symptomatic epilepsy, abnormal neuroimaging findings, abnormal electroencephalography results, history of mental retardation, neuropsychiatric disorders, febrile seizure, and status epilepticus [6]. Antiseizure drugs are known to cause several adverse side effects including both Type A—pharmacology related and Type B—idiosyncratic ones. In order to overcome those issues, searching for novel, more efficient, and safer antiseizure and antiepileptic drugs has been of interest for researchers all over the world
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