The North Atlantic hagfish, a cyclostome that is representative of the most primitive vertebrates still alive, diverged from the other vertebrates about 500 million years ago. Hagfish insulin, which differs from porcine insulin in 18 (38%) of its amino acids, had a potency of 5-10% that of porcine insulin in stimulating glucose oxidation and deoxyglucose transport in rat adipocytes and was 5-10% as potent as porcine insulin in binding to insulin receptors on rat adipocytes and human (IM-9) lymphocytes. Like all other naturally occurring insulins, hagfish insulin accelerated the dissociation of 125I-porcine insulin from insulin receptors and the degree of the acceleration was related to its occupancy of the receptor. The insulin receptor of the hagfish erythrocyte showed the time, temperature, and pH dependence of binding and the negative cooperativity that are characteristic of all other insulin receptors. That the negative cooperativity is fully conserved in such an ancient insulin and receptor suggests that it is an important functional feature of this hormone-receptor system.

The hagfish receptor showed the same absolute affinity and rank order of preference for insulins and insulin analogues (chicken > pork > proinsulin > guinea pig > desoctapeptide) found with other receptors of less primitive vertebrates, which supports the conclusion that the receptor for insulin is functionally better conserved evolutionary than the hormone. However, uniquely, hagfish insulin was more potent in binding to hagfish receptors than to mammalianreceptors; with all other species of insulins studied, the affinity of the hormone for homologous receptor was the same as for receptors of heterologous species.

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