Differential binding properties of the peripheral-type benzodiazepine ligands [3H]PK 11195 and [3H]Ro 5-4864 in trout and mouse brain membranes.
High-affinity binding sites for [3H]PK 11195 have been detected in brain membranes of rainbow trout (Salmo gairdneri) and mouse forebrain, where the densities of receptors were 1,030 and 445 fmol/mg of protein, respectively. Ro 5-4864 (4'-chlorodiazepam) was 2,200-fold less potent as a competitor of [3H]PK 11195 binding in the piscine than the murine membranes. Investigation of the regional distribution of these sites in trout yielded a rank order of density of spinal cord greater than olfactory bulb = optic tectum = rhombencephalon greater than cerebellum greater than telencephalon. This site in trout shared some of the characteristics of the peripheral-type benzodiazepine receptor ( PTBR) (also known as the mitochondrial benzodiazepine receptor) in rodents, i.e., high affinity for PK 11195 and the endogenous ligand protoporphyrin IX, but was unique in the low affinity of Ro 5-4864 (41 microM) and diazepam and the relatively high affinity of the calcium channel ligand diltiazem and two central benzodiazepine ligands, CGS 8216 and CGS 9896. The differential affinity for the two prototypic PTBR ligands in trout is similar to that previously observed in calf and human brain membranes. Structural differences for the trout sites are indicated by the relative inability of diethyl pyrocarbonate to modify histidine residues of the binding site in trout as compared with mouse membranes. Heterogeneity of binding of the two prototypic PTBR ligands in mouse brain membranes was indicated by additivity studies, equilibrium competition experiments, and saturation isotherms, which together support the hypothesis that Ro 5-4864 discriminates between two [3H]PK 11195 binding sites having high (nanomolar) and low (micromolar) affinity, respectively.[1]References
- Differential binding properties of the peripheral-type benzodiazepine ligands [3H]PK 11195 and [3H]Ro 5-4864 in trout and mouse brain membranes. Eshleman, A.J., Murray, T.F. J. Neurochem. (1989) [Pubmed]
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