What is it about?
Background: Epilepsy is a seizure-related disease with different symptoms and types, depend- ing on the origin and propagation region of the brain. There are several marketed anti-seizure medications (ASMs) available for choice of treatment by clinicians but there is a huge paucity of ideal first-line ASMs. Objective: The present study was undertaken to identify and get an insight into the major target (hub) proteins, which can be comprehensively used as a platform for designing first-line ASMs. Methods: Large-scale text mining was done to generate a data warehouse of available ASMs and their MOAs, followed by the identification of specific isoforms of target proteins for designing next-generation ASMs, using network biology and other in-silico approaches. Results: The study resulted in the identification of 3 major classes of target proteins of major ASMs and their specific isoforms, namely – GABA receptors (GABRA1, GABRB1, and GABARAP); VGSC (α- subunitSCN2A (Nav1.2)) and VGCC (α-subunitCACNA1G (Cav3.1)). The identified proteins were also observed to be concurrent with the target sites of majorly sold ASMs currently. Conclusion: The predicted hub protein families and their specific isoforms can be further validated and comprehensively used to design next-generation novel first-line ASM(s).
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This page is a summary of: In-silico Identification and Analysis of Hub Proteins for Designing Novel
First-line Anti-seizure Medications, Letters in Drug Design & Discovery, June 2023, Bentham Science Publishers,
DOI: 10.2174/1570180819666220512122511.
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