Tagetone modulates the coupling of flunitrazepam and GABA binding sites at GABAA receptor from chick brain membranes.

Abstract

The effects of tagetone on flunitrazepam (FNTZ) binding to synaptosomal membranes from chick brains in the presence and absence of allosteric modulations induced by gamma-aminobutyric acid (GABA) were investigated. Tagetone, at 50 micrograms/ml (final concentration), decreased the binding affinity of [3H]FNTZ to synaptosomal membranes form chick brain (Kd = 3.34 +/- 0.36 nM without tagetone and Kd,t = 5.86 +/- 0.86 nM with tagetone; p < 0.05, two tailed Student's t-test) without affecting maximal binding (Bmax = 488 +/- 24 fmoles/mg protein, and Bmax,t = 500 +/- 25 fmoles/mg protein in the absence and in the presence of tagetone respectively). The potency of GABA to stimulate [3H]FNTZ binding increased in the presence of tagetone (EC50 values were 2.78 and 1.12 microM with and without tagetone respectively). GABA was able to decrease merocyanine delta A570-610 values in a concentration dependent manner; half maximal effect was attained at a GABA concentration of 34 +/- 13 microM. Tagetone, at a concentration of 50 micrograms/ml and in the presence of GABA 30 microM or 60 microM, enhanced the ability of GABA alone on decreasing delta A570-610. Tagetone alone did not change delta A570-610 values. FNTZ, a well known GABA modulator, could also potentiate the effect of GABA. Theoretical calculations indicate that the effects on merocyanine delta A570-610 value are mainly exerted at the membrane potential level (delta psi m). The present results strongly suggest that tagetone affected the function of GABAA receptor in a complex way: on the one hand it impaired FNTZ binding: on the other hand tagetone improved both the coupling between FNTZ and GABA binding sites and it enhanced GABA-induced chloride permeability. Changes in the geometrical and electrostatic properties of the self-organized membrane structure may account for these effects of tagetone.