posted on 2023-08-23, 14:16authored byLouisa
A. Christie, Nicola L. Brice, Anna Rowland, Louise Dickson, Rishi Anand, Martin Teall, Kevin J. Doyle, Lakshminarayana Narayana, Christine Mitchell, Jenna R. M. Harvey, Victoria Mulligan, Lee A. Dawson, Stephanie J. Cragg, Mark Carlton, Roland W. Bürli
Nicotinic acetylcholine receptor (nAChR) α6 subunit
RNA expression
is relatively restricted to midbrain regions and is located presynaptically
on dopaminergic neurons projecting to the striatum. This subunit modulates
dopamine neurotransmission and may have therapeutic potential in movement
disorders. We aimed to develop potent and selective α6-containing
nAChR antagonists to explore modulation of dopamine release and regulation
of motor function in vivo. High-throughput screening (HTS) identified
novel α6-containing nAChR antagonists and led to the development
of CVN417. This molecule blocks α6-containing nAChR
activity in recombinant cells and reduces firing frequency of noradrenergic
neurons in the rodent locus coeruleus. CVN417 modulated
phasic dopaminergic neurotransmission in an impulse-dependent manner.
In a rodent model of resting tremor, CVN417 attenuated
this behavioral phenotype. These data suggest that selective antagonism
of α6-containing nAChR, with molecules such as CVN417, may have therapeutic utility in treating the movement dysfunctions
observed in conditions such as Parkinson’s disease.