Structural and pharmacological differences between codfish and rat brain alpha 1-adrenergic receptors revealed by photoaffinity labeling with 125I-APDQ

Abstract

The photoaffinity probe 125I-APDQ has been used to characterize alpha 1-receptor peptides in the cod and rat brains. In the cod brain a major specific peptide of Mr = 68,000 could be covalently labeled by 125I-APDQ as revealed by SDS-PAGE. In the rat brain a specific peptide with Mr = 77,000 was instead labeled. When a number of adrenergic agonists and antagonists were tested for their ability to protect the labeling by 125I-APDQ their potencies were those expected for alpha 1-receptors in both species. The ligand binding peptide in the cod brain also distinguished between stereoisomers of epinephrine as expected for a physiological receptor. However, there was a distinct difference between the cod and rat alpha 1-receptor in that the beta-agonist 1-isoprenaline was equipotent to 1-norepinephrine in the cod whereas it was less potent in the rat. The protecting ability of the tested agents were also matched by their ability to displace the alpha 1-adrenergic ligand 3H-prazosin from alpha 1-receptor binding sites in brain membranes from both species. Thus, the codfish alpha 1-receptor seems to be different from mammalian alpha 1-receptors both structurally and pharmacologically.