Abstract
The functions of the glycine receptor (GlyR) and GABAA receptor (GABAAR) are both impaired in hyperekplexia, a neurological disorder usually caused by GlyR mutations. Although emerging evidence indicates that cannabinoids can directly restore normal GlyR function, whether they affect GABAAR in hyperekplexia remains unknown. Here we show that dehydroxylcannabidiol (DH-CBD), a synthetic nonpsychoactive cannabinoid, restores the GABA- and glycine-activated currents (IGABA and IGly , respectively) in HEK293 cells coexpressing a major GABAAR isoform (α1β2γ2) and GlyRα1 carrying a human hyperekplexia-associated mutation (GlyRα1R271Q). Using coimmunoprecipitation and FRET assays, we found that DH-CBD disrupts the protein interaction between GABAAR and GlyRα1R271Q Furthermore, a point mutation of GlyRα1, changing Ser-296 to Ala-296, which is critical for cannabinoid binding on GlyR, significantly blocked DH-CBD-induced restoration of IGABA and IGly currents. This S296A substitution also considerably attenuated DH-CBD-induced disruption of the interaction between GlyRα1R271Q and GABAAR. These findings suggest that, because it restores the functions of both GlyRα1 and GABAAR, DH-CBD may represent a potentially valuable candidate drug to manage hyperekplexia.
Highlights
The functions of the glycine receptor (GlyR) and GABAA receptor (GABAAR) are both impaired in hyperekplexia, a neurological disorder usually caused by GlyR mutations
We evaluated the effect of DH-CBD on IGly in HEK293 cells coexpressing GlyR␣1R271Q and GABAAR
Our recent study reported that diazepam can restore the function of pre- and extrasynaptic GABAAR in hyperekplexia disease [36]
Summary
GlyR, glycine receptor; GABAAR, GABAA receptor; DH-CBD, dehydroxylcannabidiol; CBD, cannabidiol; CFB, cyan fluorescent protein; IP, immunoprecipitation. (DH-CBD), a synthetic nonpsychoactive cannabinoid, significantly alleviates the abnormal startle reflex and muscle stiffness in hyperekplexic transgenic mutant mice [25]. Such effects were blocked by a point mutation (Ser Ala) of GlyR␣1 Ser-296, which is essential for DH-CBD binding. Considering the restorative effects of cannabinoids on GlyR␣1, we wondered whether it can restore the function of GABAAR in hyperekplexia disease. We coexpressed GABAAR (␣12␥2) and R271Q mutant GlyR␣1 in a HEK293 cell model and combined various approaches, such as electrophysiological recording, FRET assays, and coimmunoprecipitation, to explore possible effects of DHCBD on the function of GlyR␣1 and GABAAR in hyperekplexia disease
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