Abstract
Although the anticonvulsant activity of 3-hydroxy-3-ethyl-3-phenylproionamide (HEPP) is well-known, its use is limited by the pharmacotoxicological profile. We herein tested its fluorinated and chlorinated derivatives (F-HEPP and Cl-HEPP) with two seizure models, maximal electroshock seizures (MES), and intraperitoneal pentylenetetrazole (PTZ) administration. Neurotoxicity was examined via the rotarod test. With in silico methods, binding was probed on possible protein targets—GABAA receptors and the sodium channel Nav1.2. The median effective doses (ED50) of HEPP, F-HEPP, and Cl-HEPP in the MES seizure model were 129.6, 87.1, and 62.0 mg/kg, respectively, and 66.4, 43.5, and in the PTZ seizure model 43.5 mg/kg. The HEPP-induced neurotoxic effect, which occurred at twice the ED50 against MES (p < 0.05), did not occur with F-HEPP or Cl-HEPP. Docking studies revealed that all tested ligands bound to GABAA receptors on a site near to the benzodiazepine binding site. However, on the sodium channel open pore Nav1.2, R-HEPP had interactions similar to those reported for phenytoin, while its enantiomer and the ligands F-HEPP and Cl-HEPP reached a site that could disrupt the passage of sodium. Our results show that, as anticonvulsant agents, parahalogen substituted compounds have an advantageous pharmacotoxicological profile compared to their precursor.
Highlights
Epilepsy refers to brain function disorders characterized by periodic and unpredictable occurrences of seizures [1]
The ED50 of anticonvulsants are shown for both seizure models, maximal electroshock seizures (MES) and PTZ, as is the 95% confidence limit of proportions expected with the administration of these values (Table 1)
The effect of the administration of HEPP, F-HEPP, Cl-HEPP, sodium valproate, and phenobarbital is shown as the duration of the rotarod test (Figure 2)
Summary
Epilepsy refers to brain function disorders characterized by periodic and unpredictable occurrences of seizures [1]. No single antiepileptic drug (AED) has been shown to be the most effective for the treatment of epilepsy and all Mice Mice. HEPP F-HEPP Cl-HEPP Sodium valproate Phenobarbital Treatments. 16.9 mg/kg; (b) the effect of administering the ED50 against pentylenetetrazole seizures: HEPP = 66.4 mg/kg, F-HEPP = 43.5 mg/kg, ClHEPP = 43.5 mg/kg, sodium valproate = 159.7 mg/kg, and phenobarbital = 12.9 mg/kg. The percentage of protection was 50% in order to determine the proportion response of the antiepileptic drugs. According to the Z-test, there was no statistically significant difference between mice protected against seizures with antiepileptic drugs and unprotected mice
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