Engineering of a Biologically Active Insulin Dimer

M Liu; BF White; P Praveen; W Li; F Lin; H Wu; R Li; C Delaine; BE Forbes; JD Wade; MA Hossain

Journal article

Engineering of a Biologically Active Insulin Dimer

M Liu, BF White, P Praveen, W Li, F Lin, H Wu, R Li, C Delaine, BE Forbes, JD Wade, MA Hossain

Journal of Medicinal Chemistry | Published : 2021

DOI: 10.1021/acs.jmedchem.1c01594

Abstract

The growing epidemic of diabetes means that there is a need for therapies that are more efficacious, safe, and convenient. Here, we report the efficient synthesis of a novel disulfide dimer of human insulin tethered at the N-terminus of its B-chain through placement of a cysteine residue. The resulting peptide was shown to bind to both the insulin receptor isoform B and insulin-like growth factor-1 receptor with comparable affinity to native insulin. In in vivo insulin tolerance tests, the dimer was equipotent to Actrapid insulin and possessed a sustained duration of action greater than that of Actrapid and Glargine. While the secondary structure of our dimeric insulin was similar to that of..

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University of Melbourne Researchers

Barbara White Author

Wenyi Li Author

Akhter Hossain Author

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Grants

Awarded by National Health and Medical Research Council

Funding Acknowledgements

This research was partly funded by the NHMRC (Australia) project grants (1163310, 1023321, and 1023078) to M.A.H., J.D.W., and B.F. J.D.W. is an NHMRC Principal Research Fellow (1117483). Studies at the FNI were supported by the Victorian Government's Operational Infrastructure Support Program.