Molecular cloning and expression of human EP3 receptors: evidence of three variants with differing carboxyl termini

Abstract

1 The polymerase chain reaction (PCR) was used in combination with plaque hybridization analysis to clone four variants of the EP₃ prostaglandin receptor from a human small intestine cDNA library. 2 Three of these variants, i.e. the EP_3A, EP_3E and EP_3D, share the same primary amino acid sequence except for their carboxyl termini, which diverge from one another at the same point, approximately 10 amino acids away from the end of the seventh membrane spanning domain of the receptor. The fourth variant (EP_3A1) has a nucleotide coding sequence identical to EP_3A but has a completely different 3′;untranslated sequence. 3 The carboxyl termini of the three isoforms differ most obviously in length with the EP_3A being the longest (41 amino acids) and the EP_3E being the shortest (16 amino acids). They also differ in content with the EP_3A containing 9 serine and threonines in its carboxyl terminus and the EP_3E none. 4 Transient expression in eukaryotic cells showed that the human EP₃ receptor variants had similar but not identical radioligand binding properties and differed in their functional coupling to second messenger pathways. Up to 3 pmol mg⁻¹ protein of [³H]-prostaglandin E₂ binding could be obtained with more than 95% specific binding. Using a reporter gene assay, as a measure of intracellular cyclic AMP levels, the EP_3A coupled more efficiently to the inhibition of adenylyl cyclase than did the EP_3E. 5 PCR was used to confirm the presence of mRNAs encoding the four human EP₃ receptor variants in tissues of the human small intestine, heart and pancreas. These findings indicate that the EP₃ receptor variants identified here are likely to be expressed in tissues. The differences in the carboxyl termini at the protein level, and in the 3′ untranslated regions at the mRNA level, could be profound in terms of the regulation and functional coupling of these receptor isoforms.