TY - JOUR
T1 - Cloning and expression of a pharmacologically unique bovine peripheral-type benzodiazepine receptor isoquinoline binding protein
AU - Parola, A. L.
AU - Stump, D. G.
AU - Pepperl, D. J.
AU - Krueger, K. E.
AU - Regan, J. W.
AU - Laird, H. E.
PY - 1991
Y1 - 1991
N2 - High affinity binding of isoquinolines, such as PK 11195, is a conserved feature of peripheral-type benzodiazepine receptors (PER) across species. However, species differences in PBR ligand binding have been described based on the affinity for N1-alkyl-1,4-benzodiazepines, such as Ro5-4864. Ro5-4864 binds with high affinity to the rat receptor but has low affinity for the bovine PBR. Photolabeling with an isoquinoline ligand, [3H]PK 14105, identifies a 17-kDa protein, the PBR isoquinoline binding protein (PBR/IBP), in both species. To further elucidate the role of the PBR/IBP in determining PBR benzodiazepine and isoquinoline binding characteristics, the bovine PBR/IBP was cloned and expressed. Using a cDNA encoding a rat PBR/IBP to screen a fetal bovine adrenal cDNA library, a bovine cDNA encoding a polypeptide of 169 residues was cloned. The bovine and rat PBR/IBPs had similar hydropathy profiles exhibiting five potential transmembrane domains. Transfecting the cloned bovine PBR/IBP cDNA into COS-7 cells resulted in an 11-fold increase in the density of high affinity [3H]PK 11195 binding sites which had only low affinity for Ro5-4864. Expression of the bovine PBR/IBP yields a receptor which is pharmacologically distinct from both endogenous COS-7 PBR and the rat PBR based on the affinity for several N1-alkyl-1,4-benzodiazepine ligands. These results suggest the PBR/IBP is the minimal functional component required for PBR ligand binding characteristics and the different protein sequences account for the species differences in PBR benzodiazepine ligand binding.
AB - High affinity binding of isoquinolines, such as PK 11195, is a conserved feature of peripheral-type benzodiazepine receptors (PER) across species. However, species differences in PBR ligand binding have been described based on the affinity for N1-alkyl-1,4-benzodiazepines, such as Ro5-4864. Ro5-4864 binds with high affinity to the rat receptor but has low affinity for the bovine PBR. Photolabeling with an isoquinoline ligand, [3H]PK 14105, identifies a 17-kDa protein, the PBR isoquinoline binding protein (PBR/IBP), in both species. To further elucidate the role of the PBR/IBP in determining PBR benzodiazepine and isoquinoline binding characteristics, the bovine PBR/IBP was cloned and expressed. Using a cDNA encoding a rat PBR/IBP to screen a fetal bovine adrenal cDNA library, a bovine cDNA encoding a polypeptide of 169 residues was cloned. The bovine and rat PBR/IBPs had similar hydropathy profiles exhibiting five potential transmembrane domains. Transfecting the cloned bovine PBR/IBP cDNA into COS-7 cells resulted in an 11-fold increase in the density of high affinity [3H]PK 11195 binding sites which had only low affinity for Ro5-4864. Expression of the bovine PBR/IBP yields a receptor which is pharmacologically distinct from both endogenous COS-7 PBR and the rat PBR based on the affinity for several N1-alkyl-1,4-benzodiazepine ligands. These results suggest the PBR/IBP is the minimal functional component required for PBR ligand binding characteristics and the different protein sequences account for the species differences in PBR benzodiazepine ligand binding.
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M3 - Article
C2 - 1649835
AN - SCOPUS:0025812920
SN - 0021-9258
VL - 266
SP - 14082
EP - 14087
JO - Journal of Biological Chemistry
JF - Journal of Biological Chemistry
IS - 21
ER -