Honokiol and Magnolol Increase the Number of [3H]Muscimol Binding Sites Three-Fold in Rat Forebrain Membranes In Vitro Using a Filtration Assay,by Allosterically Increasing the Affinities of Low-Affinity Sites

1. The bark of the root and stem of various Magnolia species has been used in Traditional Chinese Medicine to treat a variety of disorders including anxiety and nervous disturbances. The biphenolic compounds honokiol (H) and magnolol (M), the main components of the Chinese medicinal plant Magnolia officinalis, interact with GABA_A receptors in rat brain in vitro. We compared the effects of H and M on [³H]muscimol (MUS) and [³H]flunitrazepam (FNM) binding using EDTA/water dialyzed rat brain membranes in a buffer containing 150 mM NaCl plus 5 mM Tris-HCl, pH 7.5 as well as [³⁵S]t-butylbicyclophosphorothionate (TBPS) in 200 mM KBr plus 5 mM Tris-HCl, pH 7.5. H and M had similar enhancing effects on [³H]MUS as well as on [³H]FNM binding to rat brain membrane preparations, but H was 2.5 to 5.2 times more potent than M. 2. [³H]FNM binding. GABA alone almost doubled [³H]FNM binding with EC₅₀ = 450 nM and 200 nM using forebrain and cerebellar membranes, respectively. In the presence of 5 M H or M the EC₅₀ values for GABA were decreased to 79 and 89 nM, respectively, using forebrain, and 39 and 78 nM, using cerebellar membranes. H and M potently enhanced the potentiating effect of 200 nM GABA on [³H]FNM binding with EC₅₀ values of 0.61 M and 1.6 M using forebrain membranes, with maximal enhancements of 33 and 47%, respectively. Using cerebellar membranes, the corresponding values were 0.25 and 1.1 M, and 22 and 34%. 3. [³H]MUS binding.H and M increased [³H]MUS binding to whole forebrain membranes about 3-fold with EC₅₀ values of 6.0 and 15 M. Using cerebellar membranes, H and M increased [³H]MUS binding ~68% with EC₅₀ values of 2.3 and 12 M, respectively. Scatchard analysis revealed that the enhancements of [³H]MUS binding were due primarily to increases in the number of binding sites (B_max values) with no effect on the high affinity binding constants (K_d values). The enhancing effect of H and M were not additive. 4. [³⁵S]TBPS binding.H and M displaced [³⁵S]TBPS binding from sites on whole rat forebrain membranes with IC₅₀ values of 7.8 and 6.0 M, respectively. Using cerebellar membranes, the corresponding IC₅₀ values were 5.3 and 4.8 M. These inhibitory effects were reversed by the potent GABA_A receptor blocker R5135 (10 nM), suggesting that H and M allosterically increase the affinity of GABA_A receptors for GABA and MUS by binding to sites in GABA_A receptor complexes. 5. Two monophenols, the anesthetic propofol (2,6-diisopropylphenol, P) and the anti-inflammatory diflunisal (2,4-difluoro-4-hydroxy-3-biphenyl carboxylic acid, D) also enhanced [³H]MUS binding, decreased the EC₅₀ values for GABA in enhancing [³H]FNM binding and potentiated the enhancing effect of 200 nM GABA on [³H]FNM binding, although enhancements of [³H]MUS binding for these monophenols were smaller than those for H and M, using forebrain and cerebellar membranes. The enhancing effect of P and D on [³H]MUS binding were almost completely additive. 2,2-biphenol was inactive on [³H]MUS and [³H]FNM binding. These, and other preliminary experiments, suggest that appropriate ortho (C2) and para (C4) substitution increases the GABA-potentiating activity of phenols. 6. The potentiation of GABAergic neurotransmission by H and M is probably involved in their previously reported anxiolytic and central depressant effects.