During PromoTerapy we developed a new gene therapy approach to treat both acquired or genetic epilepsies. We used CRISPRon, a modified version of the gene editing tool not able to cut the DNA but to increase promoter activity, to increase the expression of a potassium channel in an hippocampal model of epilepsy and to increase a sodium channel which down regulation is responsible of a severe childhood epilepsy (Dravet syndrome). Initially we design the gene therapy approach testing with bioinformatics and molecular biology the efficiency in cell line. Then this approach, in parallel for sodium and potassium channel, was tested functionally with electrophysiology in rodent neurons. This validation produced also the development off a new technique, activity clamp, used to understand the action of an anti-epileptic drug working on sodium channels.This work has been published as a side story to the main project. Once we proved that we were be able to increase the expression of endogenous genes in neurons we moved to study the effect of this potential treatment for epilepsy. The sodium channel approach was used in vitro and in vivo in an animal model of Dravet syndrome in collaboration with Vania Broccoli in Milan. The potassium channel approach was used in vivo in the hippocampus in a model of intractable temporal lobe epilepsy.
The results of PromoTerapy have been presented at national and international scientific conferences, and 2 papers will be published in peer-reviewed scientific journals.