Partial purification and pharmacology of peripheral-type benzodiazepine receptors.

This report describes the results obtained with a new photoaffinity ligand for the "peripheral-type" benzodiazepine binding site (PBS), using a digitonin solubilized preparation from rat heart or adrenals. The specific binding activity of the solubilized adrenal preparation is higher than 50 pmol/mg protein, with binding properties and pharmacological specificity identical to the membrane bound PBS. The apparent molecular weight of the solubilized PBS, determined by gel filtration is 215 KDa. The photoaffinity ligand (PK 14105) is a nitrophenyl derivative of PK 11195, which attaches covalently and specifically to all the PBS when cardiac membranes are irradiated with this compound under ultraviolet light. After photolabelling with [3H]PK 14105 and solubilization in SDS of heart or adrenal membranes, gel electrophoresis indicates the existence of a single protein band whose molecular weight (18 KDa) is unaltered by incubation with sulphydryl-reducing or protein cross-linking agents. This molecule seems to be a low molecular weight, acidic protein. Diethylpyrocarbonate decreases partially (60%) the binding of [3H]PK 11195 without affecting [3H] RO5-4864 binding, which implies a vital histidine residue in the binding domain of [3H]-PK 11195. Treatment with phospholipase A2 or mellitin, a stimulant of endogenous PLA2, led to a selective loss of [3H] RO5-4864 binding with no change in the binding of [3H]PK 11195. Such differences between a benzodiazepine ligand and an isoquinoline ligand suggest that these compounds may induce, on binding, different conformational changes in the PBS, which is compatible with the hypothesis that RO5-4864 and PK 11195 may be an agonist and an antagonist respectively at the PBS.

Biochemical evidence that 2-phenyl-4[(4-piperidinyl) ethyl]quinoline, a quinoline derivative with pure anticonflict properties, is a partial agonist of benzodiazepine receptors.

The atypical profile of 2-phenyl-4[2-(4-piperidinyl) ethyl]quinoline (PK 8165), a quinoline derivative with pure anticonflict properties, seems to be due to the fact that this compound is a partial agonist of benzodiazepine receptors. The drug PK 8165 is a competitive inhibitor of benzodiazepine binding sites with a Hill coefficient near unity. Opposite to 3-methyl-6-(3-trifluoromethylphenyl)2,4-triazolo(4,5-b)pyridazine (CL 218,872) it was unable to discriminate between BZ1 and BZ2 receptors in sections of brain. However, modulation by gamma-aminobutyric acid (GABA) and the effect of photolabelling by flunitrazepam on the affinity of PK 8165 indicated that GABA or photolabelling shifts of PK 8165 were between full agonists and antagonists. By itself PK 8165 was unable to modify the levels of cGMP in the cerebellum, but potentiated the lowering of levels of cGMP by diazepam and did not present antagonistic properties of this effect.

Histidine modification with diethylpyrocarbonate induces a decrease in the binding of an antagonist, PK 11195, but not of an agonist, RO5-4864, of the peripheral benzodiazepine receptors.

[3H]PK 11195 binding to peripheral type benzodiazepine binding sites in kidney membranes is inhibited by the histidine blocking agent diethylpyrocarbonate. This reagent irreversibly decreases the Bmax for [3H]PK 11195 without affecting the affinity. By contrast binding of [3H]RO5-4864 is not affected by diethylpyrocarbonate treatment. However RO5-4864 can protect in a concentration dependent manner the [3H]PK 11195 binding site from diethylpyrocarbonate whereas clonazepam and RO15-1788 are not active. These results suggest that PK 11195 and RO5-4864 interact with different conformational states of the receptors that RO5-4864. This is in agreement with our previous hypothesis that PK 11195 is an antagonist and RO5-4864 an agonist at the "peripheral type" benzodiazepine receptors.

Autoradiographic localization of peripheral benzodiazepine binding sites in the cat brain with [3H]PK 11195.

"Peripheral type" benzodiazepine binding sites were labelled in cat brain membranes by using [3H]PK 11195. This ligand binds to the "peripheral type" binding sites in a reversible, specific and saturable manner. Cat brain binding sites density (congruent to 6 pmol/mg prot.) was higher than in the rat. Pharmacological specificity was demonstrated by the potency order of displacing agents: PK 11195 greater than RO5-4864 greater than dipyridamole greater than diazepam greater than clonazepam. A similar characterization was performed in slide mounted brain sections where [3H]PK 11195 also labelled the "peripheral type" benzodiazepine binding sites. The high percentage of specific binding (80%) at 1 nM of [3H]PK 11195 made possible the autoradiographic studies on binding sites distribution. These sites were heterogeneously distributed in the grey matter and absent in white matter. Visual, auditory and other specific sensory relay stations were highly labelled. The blood pressure regulating nuclei, the vestibulo-cerebellar and the extrapyramidal motor system also presented a very high binding density. As previously described in the rat brain, choroid plexus was also strongly labelled by [3H]PK 11195 in the cat.

"Peripheral type" benzodiazepine binding sites in rat adrenals: binding studies with [3H]PK 11195 and autoradiographic localization.

PK 11195 [1-(2-chlorophenyl)-N-methyl-N-(1-methylpropyl)-3-isoquinolinec arboxamide] is a compound chemically unrelated to benzodiazepines with a high affinity for the "peripheral type" binding sites for benzodiazepines (Le Fur et al., 1983a). [3H]PK 11195 binds to the adrenal membranes with a high affinity (KD congruent to 3 nM) in a specific, reversible and GABA-independent manner. Binding is also characterized by very high Bmax (34 pmol/mg protein). These binding sites are the "peripheral type" benzodiazepine binding sites as demonstrated by the potency order of displacement of the [3H]PK 11195 bound: PK 11195 greater than R05-4864 greater than diazepam greater than dipyridamole greater than clonazepam. The biochemical characteristic of the binding to rat adrenal sections has also been studied. In these conditions the affinity for [3H]PK 11195 is ten times smaller, but the potency order of displacing agents was the same, demonstrating the identity of the section binding sites. Using tritium sensitive film these sites have been visualized in adrenal sections. [3H]PK 11195 binding sites are localized in the adrenal cortex with some spare labelling in the medulla.