In a case study, we found the intractable motor tics in a pediatric patient were subsided within 1 hour after taking the leaf extract of a local herb, Clerodendron inerme Gaertn (CI) (Fan et al., 2009). Then, we have identified an active constituent, hispidulin, from the ethanol extract of CI leaves, which is a positive allosteric modulator (PAM) of GABA-A receptors, including the α6 subunit-containing GABAARs (α6 GABAARs).α6 GABAARs are exclusively expressed in cerebellar granule cells, the trigeminal ganglia and cochlear nucleus. Since Hispidulin is not selective to α6 GABAAR, we obtained the first selective α6 GABAAR PAM, Compound 6, from our Vienna cooperative team (Varagic et al., 2013). Compound 6, like Hispidulin, effectively rescued the impairment of prepulse inhibition of the startle response (PPI) induced by methamphetamine, a measurement of the sensorimotor gating function that is deficit in several neuropsychiatric disorders, including tic disorders and schizophrenia. Here, we further conducted a comprehensive study examining effects of Compound 6 in various behavioral models mimicking tic disorders, including the hyperlocomotion induced by methamphetamine (a dopamine releaser), stereotypy climbing behaviors induced by apomorphine (a dopamine receptor agonist) as well as the stereotypy behaviors induced by intra-dorsal striatum injection of the siRNA of Slitrk-1, an animal model mimicking Tourette syndrome (TS). We also test the Slitrk-1 KD mice model by RV-I-29, which is a –OCD3 (deuterated) derivative of Compound 6. In the adult striatum, Slitrk-1 is only expressed in cholinergic interneurons that were reduced in postmortem brains of TS subjects. We also validated the α6 GABAAR in the cerebellum is the action target of Compound 6 using anatomical and pharmacological approaches. Intraperitoneal (i.p.) injection of Compound 6 significantly rescued methamphetamine-induced hyperlocomotion. This effect was significantly antagonized by intra-cerebellum microinjection of furosemide, a selective α6GABAAR antagonist. On the other hand, Compound 6 (i.p.) did not affect stereotypy climbing behaviors induced by apomorphine, a dopamine receptor agonist. Compound 6 and RV-I-29 also significantly reduced the stereotypy behaviors in mice induced by knocking down striatal Slitrk. The Slitrk KD mice may be an efficacy animal model to screen TS treating compound, so we further test the model by RV-I-29, which is another PAM of GABAA receptors. However, Compound 6 did not affect the spontaneous motor activity, motor coordination in the rotarod test or the grip strength, neither displayed any significant sedation or anxiolytic activity in sedation assessment and elevated plus maze test. These results suggest that Compound 6 can successfully pass through the blood brain barrier to rescue methamphetamine-induced hyperlocomotion possibly via enhancing cerebellar inhibitory control on the striatal dopaminergic activity through positively modulating α6 GABAARs in cerebellar granule cells, but not affect dopamine receptor response directly. It is also suggested that the α6 GABAAR in the cerebellum is a new target for the treatment of TS or tic disorders. The PAM selective to α6 GABAARs may be a novel class of anti-tic therapy.