Drosophila expressing mutant human KCNT1 transgenes make an effective tool for targeted drug screening in a whole animal model of KCNT1-epilepsy

Rashid Hussain, Chiao Xin Lim, Zeeshan Shaukat, Anowarul Islam, Emily A. Caseley, Jonathan D. Lippiat, Grigori Y. Rychkov, Michael G. Ricos, Leanne M. Dibbens

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Abstract


Mutations in the KCNT1 potassium channel cause severe forms of epilepsy which are poorly controlled with current treatments. In vitro studies have shown that KCNT1-epilepsy mutations are gain of function, significantly increasing K+ current amplitudes. To investigate if Drosophila can be used to model human KCNT1 epilepsy, we generated Drosophila melanogaster lines carrying human KCNT1 with the patient mutation G288S, R398Q or R928C. Expression of each mutant channel in GABAergic neurons gave a seizure phenotype which responded either positively or negatively to 5 frontline epilepsy drugs most commonly administered to patients with KCNT1-epilepsy, often with little or no improvement of seizures. Cannabidiol showed the greatest reduction of the seizure phenotype while some drugs increased the seizure phenotype. Our study shows that Drosophila has the potential to model human KCNT1- epilepsy and can be used as a tool to assess new treatments for KCNT1- epilepsy.
Original languageEnglish
Article number3357
Number of pages12
JournalScientific Reports
Volume14
Issue number1
DOIs
Publication statusPublished - 9 Feb 2024

Keywords

  • drug-resistant seizures
  • epilepsy
  • mutations in KCNT1

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