RNA interference-mediated silencing of Kv7.2 in rat dorsal root ganglion neurons abolishes the anti-nociceptive effect of a selective channel opener

RNA interference-mediated silencing of Kv7.2 in rat dorsal root ganglion neurons abolishes the anti-nociceptive effect of a selective channel opener

Development of agonistic analgesic drugs requires proof of selectivity in vivo attainable by selective antagonists or several knockdown strategies. The Kv7.2 potassium channel encoded by the KCNQ2 gene regulates neuronal excitability and its activation inhibits nociceptive transmission. Although it...

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Veröffentlicht in:Journal of pharmacological and toxicological methods 2020-05, Vol.103, p.106693-106693, Article 106693
Hauptverfasser: Valdor, Markus, Wagner, Anke, Fischer, Heike, Röhrs, Viola, Schröder, Wolfgang, Bahrenberg, Gregor, Welbers, André, Fechner, Henry, Kurreck, Jens, Tzschentke, Thomas M., Christoph, Thomas
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Adeno-associated virus (AAV)
Analgesics
Animals
Benzamides
Dorsal root ganglion (DRG)
Ganglia, Spinal - drug effects
Ganglia, Spinal - metabolism
Gene Knockdown Techniques
KCNQ2 Potassium Channel - genetics
KCNQ2 Potassium Channel - metabolism
Kv7.2
Male
Methods
Neurons
Nociceptors
Pyridines
Rat
Rats
Rats, Sprague-Dawley
RNA Interference
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container_title Journal of pharmacological and toxicological methods
container_volume 103
creator Valdor, Markus
Wagner, Anke
Fischer, Heike
Röhrs, Viola
Schröder, Wolfgang
Bahrenberg, Gregor
Welbers, André
Fechner, Henry
Kurreck, Jens
Tzschentke, Thomas M.
Christoph, Thomas
description Development of agonistic analgesic drugs requires proof of selectivity in vivo attainable by selective antagonists or several knockdown strategies. The Kv7.2 potassium channel encoded by the KCNQ2 gene regulates neuronal excitability and its activation inhibits nociceptive transmission. Although it is a potentially attractive target for analgesics, no clinically approved Kv7.2 agonists are currently available and selectivity of drug candidates is hard to demonstrate in vivo due to the expenditure to generate KCNQ2 knockout animals and the lack of Kv7.2 selective antagonists. The present study describes the set-up of an RNA interference-based model that allows studying the selectivity of Kv7.2 openers. Adeno-associated virus (AAV) vectors were used to deliver the expression cassette for a short hairpin RNA targeting KCNQ2. Heat nociception was tested in rats after intrathecal AAV treatment. Surprisingly, screening of AAV serotypes revealed serotype 7, which has rarely been explored, to be best suited for transduction of dorsal root ganglia neurons following intrathecal injection. Knockdown of the target gene was confirmed by qRT-PCR and the anti-nociceptive effect of a Kv7.2 agonist was found to be completely abolished by the treatment. We consider this approach not only to be suitable to study the selectivity of novel analgesic drugs targeting Kv7.2, but rather to serve as a general fast and simple method to generate functional and phenotypic knockdown animals during drug discovery for central and peripheral pain targets. •AAV-mediated RNAi can generate rat models for pain research.•AAV2.7 serotype efficiently transduces neuronal cells in vivo.•AAV-mediated Kv7.2 knockdown allows demonstration of drug selectivity.
doi_str_mv 10.1016/j.vascn.2020.106693
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subjects Adeno-associated virus (AAV)
Analgesics
Animals
Benzamides
Dorsal root ganglion (DRG)
Ganglia, Spinal - drug effects
Ganglia, Spinal - metabolism
Gene Knockdown Techniques
KCNQ2 Potassium Channel - genetics
KCNQ2 Potassium Channel - metabolism
Kv7.2
Male
Methods
Neurons
Nociceptors
Pyridines
Rat
Rats
Rats, Sprague-Dawley
RNA Interference
title RNA interference-mediated silencing of Kv7.2 in rat dorsal root ganglion neurons abolishes the anti-nociceptive effect of a selective channel opener
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