Chemically synthesized dicarba H2 relaxin analogues retain strong RXFP1 receptor activity but show an unexpected loss of in vitro serum stability

MA Hossain; LM Haugaard-Kedström; KJ Rosengren; RAD Bathgate; JD Wade

Journal article

Chemically synthesized dicarba H2 relaxin analogues retain strong RXFP1 receptor activity but show an unexpected loss of in vitro serum stability

MA Hossain, LM Haugaard-Kedström, KJ Rosengren, RAD Bathgate, JD Wade

Organic and Biomolecular Chemistry | Published : 2015

DOI: 10.1039/c5ob01539a

Abstract

Peptides and proteins are now acknowledged as viable alternatives to small molecules as potential therapeutic agents. A primary limitation to their more widespread acceptance is their generally short in vivo half-lives due to serum enzyme susceptibility and rapid renal clearance. Numerous chemical approaches to address this concern have been undertaken in recent years. The replacement of disulfide bonds with non-reducible elements has been demonstrated to be one effective means by eliminating the deleterious effect of serum reductases. In particular, substitution with dicarba bonds via ring closure metathesis has been increasingly applied to many bioactive cystine-rich peptides. We used this..

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University of Melbourne Researchers

Akhter Hossain Author

Ross Bathgate Author

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Grants

Awarded by National Health & Medical Research Council (NHMRC) of Australia

Funding Acknowledgements

We thank Mrs Sharon Layfield and Mrs Tania Ferraro for expert technical assistance and Associate Professor Andrea J. Robinson and Dr Bianca van Lierop (Monash University) for providing assistance with the RCM reaction. This work was supported by National Health & Medical Research Council (NHMRC) of Australia Grants (GNT1023321, GNT1023078, and GNT1065481) awarded to M. A. H., J. D. W, K. J. R, and R. A. D. B. Research at The Florey Institute of Neuroscience and Mental Health is supported by the Victorian Government Operational Infrastructure Support Program.