Isolation of rat genomic clones encoding subtypes of the alpha 2-adrenergic receptor. Identification of a unique receptor subtype

Abstract

alpha 2-Adrenergic receptors (alpha 2-AR) exist as subtypes that are expressed in a tissue-specific manner and differ in 1) their ligand recognition properties, 2) their extent of receptor protein glycosylation, and possible 3) their mechanism of signal transduction. Genomic or cDNA clones encoding three receptor subtypes have been characterized; however, both functional and radioligand binding studies in rodents suggest the existence of a fourth receptor subtype. To isolate the rat genes encoding receptor subtypes we screened a rat genomic library with an oligonucleotide probe encompassing the third membrane span of the human C-4 alpha 2-AR. Two intronless rat genes were isolated that encode distinct receptor subtypes (RG10, RG20). RG10 and RG20 encode proteins of 458 and 450 amino acids, respectively, that are 56% homologous and possess the structural features expected of this class of membrane-bound receptors. RG10 identifies a mRNA species of approximately 2500 nucleotides that is found primarily in brain, whereas RG20 identifies a larger mRNA species (approximately 4000 nucleotides) that is found in several tissues including brain, kidney, and salivary gland. RG10 is 88% homologous to the human C-4 alpha 2-AR and exhibits similar binding properties ( [3H]rauwolscine KD = 0.7 +/- 0.3 nM) as determined following transient expression of the receptor in COS-1 cells. RG20 exhibits ligand binding properties distinct from the three receptor subtypes identified by molecular cloning. Saturation binding studies indicate an affinity constant of 15 +/- 1.2 nM for the alpha 2-AR antagonist [3H]rauwolscine, a value 6-20 times higher than that observed for the three cloned receptor subtypes. In competition binding studies the potency order of competing ligands for RG20 is phentolamine greater than idazoxan greater than yohimbine greater than rauwolscine greater than prazosin. Of the three previously cloned alpha 2-AR, RG20 is most closely related to the human C-10 alpha 2-AR (89% homology) and is also capable of mediating adenylylcyclase inhibition as determined following its stable expression in NIH-3T3 fibroblasts. However, in contrast to RG20, [3H] rauwolscine exhibits a KD of 2 nM for the C-10 receptor, and the potency order for competing ligands is rauwolscine greater than or equal to yohimbine greater than idazoxan greater than phentolamine greater than prazosin. RG20 and C-10 are also distinguished by their affinity for SKF-10478 (RG20 Ki = 531 nM, C-10 Ki = 101 nM), a compound that may functionally distinguish pre- and postsynaptic alpha 2-AR. These data suggest that RG20 represents a fourth alpha 2-AR subtype distinct from the known alpha 2A-C receptor subtypes.