Abstract
The importance of Glucagon like peptide 1 (GLP-1) for metabolic control and insulin release sparked the evolution of genes mimicking GLP-1 action in venomous species (e.g. Exendin-4 in Heloderma suspectum (gila monster)). We discovered that platypus and echidna express a single GLP-1 peptide in both intestine and venom. Specific changes in GLP-1 of monotreme mammals result in resistance to DPP-4 cleavage which is also observed in the GLP-1 like Exendin-4 expressed in Heloderma venom. Remarkably we discovered that monotremes evolved an alternative mechanism to degrade GLP-1. We also show that monotreme GLP-1 stimulates insulin release in cultured rodent islets, but surprisingly shows low receptor affinity and bias toward Erk signaling. We propose that these changes in monotreme GLP-1 are the result of conflicting function of this peptide in metabolic control and venom. This evolutionary path is fundamentally different from the generally accepted idea that conflicting functions in a single gene favour duplication and diversification, as is the case for Exendin-4 in gila monster. This provides novel insight into the remarkably different metabolic control mechanism and venom function in monotremes and an unique example of how different selective pressures act upon a single gene in the absence of gene duplication.
Highlights
Has not been fully resolved but it seems likely that exendins evolved by duplication from a glucagon-like peptide gene precursor[14]
Glp-1r, Gip and Dpp-4 genomic sequences were identified in the platypus genome database
We discovered specific changes in the dipeptidyl peptidase-4 (DPP-4) cleavage site in platypus GLP-1 peptide (pGLP-1) (Fig. 1a) and in the platypus gastric inhibitory polypeptide (GIP) peptide (Supplementary Fig. S1, Ala[2] to Ser), whereas there was no change to the cleavage sites in platypus glucagon or GLP-2 (Supplementary Fig. S1)
Summary
Has not been fully resolved but it seems likely that exendins evolved by duplication from a glucagon-like peptide gene precursor[14]. Monotremes produce venom during breeding season and in platypus there is an elaborate venom delivery system, apparently used in competition for mating[20,21]. These observations prompted us to investigate the expression and function of incretin hormones in monotremes. To our surprise we discovered that only a single GCG encodes a GLP-1 peptide with two functions, one in venom and the other in the gut. Detailed in vitro characterisation of monotreme GLP-1 peptides revealed evolutionary signatures that can be explained by selective conflict as a result of the recruitment of this molecule into venom
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