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New Imidazodiazepine Analogue, 5-(8-Bromo-6-(pyridin-2-yl)-4 H -benzo[ f ]imidazo[1,5- a ][1,4]diazepin-3-yl)oxazole, Provides a Simplified Synthetic Scheme, High Oral Plasma and Brain Exposures, and Produces Antiseizure Efficacy in Mice, and Antiepileptogenic Activity in Neural Networks in Brain Slices from a Patient with Mesial Temporal Lobe Epilepsy.

Dishary SharminBranka DivovićXingjie PingRok CerneJodi L SmithSepideh RezvanianPrithu MondalMichelle Jean MeyerMolly E KileyLeggy A ArnoldMd Yeunus MianKamel Prasad PandeyXiaoming JinJelena R MitrovićDjordje DjorovićArnold LippaJames M CookLalit K GolaniPetra ScholzeMiroslav M SavićJeffrey M Witkin
Published in: ACS chemical neuroscience (2024)
KRM-II-81 (1) is an imidazodiazepine GABA A receptor (GABAAR) potentiator with broad antiseizure efficacy and a low sedative burden. A brominated analogue, DS-II-73 (5), was synthesized and pharmacologically characterized as a potential backup compound as KRM-II-81 moves forward into development. The synthesis from 2-amino-5-bromophenyl)(pyridin-2yl)methanone (6) was processed in five steps with an overall yield of 38% and without the need for a palladium catalyst. GABAAR binding occurred with a K i of 150 nM, and only 3 of 41 screened binding sites produced inhibition ≥50% at 10 μM, and the potency to induce cytotoxicity was ≥240 mM. DS-II-73 was selective for α2/3/5- over that of α1-containing GABAARs. Oral exposure of plasma and brain of rats was more than sufficient to functionally impact GABAARs. Tonic convulsions in mice and lethality induced by pentylenetetrazol were suppressed by DS-II-73 after oral administration and latencies to clonic and tonic seizures were prolonged. Cortical slice preparations from a patient with pharmacoresistant epilepsy (mesial temporal lobe) showed decreases in the frequency of local field potentials by DS-II-73. As with KRM-II-81, the motor-impairing effects of DS-II-73 were low compared to diazepam. Molecular docking studies of DS-II-73 with the α1β3γ2L-configured GABAAR showed low interaction with α1His102 that is suggested as a potential molecular mechanism for its low sedative side effects. These findings support the viability of DS-II-73 as a backup molecule for its ethynyl analogue, KRM-II-81, with the human tissue data providing translational credibility.
Keyphrases
  • molecular docking
  • magnetic resonance imaging
  • endothelial cells
  • neural network
  • adipose tissue
  • insulin resistance
  • metabolic syndrome
  • brain injury
  • carbon dioxide