GABA A receptor subtype selectivity underlying selective anxiolytic effect of baicalin.
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Baicalin, a naturally occurring flavonoid, was previously reported to induce anxiolytic-like effect devoid of sedation and myorelaxation in mice, acting through type A gamma-aminobutyric acid (GABA(A)) receptor benzodiazepine (BZ) site. The present study further expanded the behavioral pharmacology profile of baicalin and subtype selectivity was explored as a possible mechanism underlying its in vivo effects on mice. Baicalin was characterized using convulsion, memory, and motor function related animal tests; and its selectivity towards recombinant GABA(A) receptor subtypes expressed in HEK 293T cells was determined by radioligand binding assay and electrophysiological studies. In the picrotoxin-induced seizure, step-through passive avoidance and rotarod tests, the anticonvulsant, amnesic and motor incoordination effects commonly associated with classical BZs were not observed when baicalin was administered at effective anxiolytic doses, demonstrating a separation of the anticonvulsant, amnesic and motor incoordination effects from the anxiolytic-like effect. Although baicalin exhibited higher binding affinity for the alpha1-containing GABA(A) subtype compared with alpha2-, alpha3-, and alpha5-containing subtypes, this was not statistically significant. In contrast to the classical BZ diazepam, baicalin showed significant preference for alpha2- and alpha3-containing subtypes compared to alpha1- and alpha5-containing subtypes in whole-cell patch clamp studies (P < 0.01). Its subtype selectivity suggested that baicalin exerted its in vivo anxiolytic-like effect mainly through the alpha2- and alpha3-containing subtypes. Therefore, the present study revealed an underlying mechanism for the selective anxiolytic profile of baicalin, suggesting alpha2- and alpha3-containing subtypes were important drug targets for flavonoid-based anxiolytics.