Cloning and sequence analyses of cDNAs encoding vasotocin and isotocin precursors of chum salmon, Oncorhynchus keta: evolutionary relationships of neurohypophysial hormone precursors.

The nucleotide sequences of cloned cDNAs were used to determine the primary structures of the precursors of vasotocin (sVT) and isotocin (sIT) from the hypothalamus of the chum salmon, Oncorhynchus keta. Two different cDNAs were obtained for each of sVT and sIT precursors (sVT-I and sVT-II; sIT-I and sIT-II). Both sVT and sIT precursors were found to contain a signal peptide and hormone that is connected to a neurophysin by a Gly-Lys-Arg sequence. Northern and Southern blot analyses showed that the sVT and sIT genes are expressed by the same chum salmon hypothalamus, but not by the liver and kidney. Microheterogeneity was found in the nucleotide and amino acid sequences of sVT precursors between our results and the previously reported data (Heierhorst et al. 1990). The conspicuous difference is the occurrence of a stop codon in the middle of sVT-II cDNA. The carboxyl termini of both sVT and sIT neurophysins are about 30 amino acids longer than neurophysins of toad and mammalian neurohypophysial hormone precursors. Although these extended regions do not contain a glycosylation site, they show striking similarity with the glycopeptide moiety (copeptin) of toad vasotocin and mammalian vasopressin precursors. The central portion of the neurophysins shows highest homology among corresponding regions of sVT and sIT precursors. Moreover, calculation of nucleotide substitution rates suggests that a recent gene conversion may have occurred which encompasses the exon that encodes the central segment of the sVT and sIT precursors. A possible pathway for the evolution of precursor molecules of neurohypophysial hormones is discussed.