Modulation of GABA A receptor-mediated currents by benzophenone derivatives in isolated rat Purkinje neurones

Abstract

We investigated modulation of GABA A receptor-mediated whole-cell currents in cerebellar Purkinje neurones by several derivatives of benzophenone. A metabolite of phenazepam, 5-bromo-2’-chloro-2-aminobenzophenone ( I), caused dual modification of peak amplitudes of GABA-gated currents that depended upon the concentration of applied GABA and incubation time. Following short 10 s pre-incubations, 1–30 μM I facilitated activation and delayed deactivation of currents evoked by 500 ms pulses of 20 μM GABA. In addition, 10 μM I prominently enhanced desensitisation of currents during applications of 500 μM GABA mainly by decreasing the value of the fast time constant of the desensitisation. Continuous 6 min incubation with 10 μM I during GABA stimulation or its administration between but not during 1 s pulses of 500 μM GABA led to a gradual, partly reversible attenuation of GABA-activated currents. This inhibition was not observed when I was applied only during pulses of GABA, indicating that the blockade was not use-dependent. One of the possible mechanisms of this down-modulation could be an intracellular effect of I, because when applied intracellularly it caused slow inhibition of responses to consecutive GABA pulses. When 3–30 μM I was applied on the background of small ‘plateau’-like current 5–7 s after application of 500 μM GABA, it was able to block open channels with on and off rates similar to those observed with 30 μM picrotoxin but much slower than in the case of 500 μM benzylpenicillin. At a concentration of 10 μM, 5-substituted benzophenones, but not 2-aminobenzophenone or benzophenone itself, exhibited modulatory properties similar to I and distinct from those of picrotoxin and benzylpenicillin. Therefore, we conclude that derivatives of benzophenone are a novel class of GABA A receptor modulators with a unique pharmacological profile.