Growth factors and peptide mimetics

Project Details

diagram showing structure of neurotrophin homodimer
Figure: Structure of the neurotrophin homodimer, brain-derived neurotrophic factor (BDNF). Our lab has developed peptide mimetics from the various loop-regions in the protein. (Adapted from J Pep Sci 2006; 12: 515-524.)

Growth factors are naturally-occurring proteins which regulate the growth and survival of cells. Their potent biological effects make them attractive targets for the development of novel therapeutic agents for a multitude of as yet untreatable diseases. However, because of their poor pharmacokinetic properties — the physical size and chemical nature of proteins renders them highly susceptible to breakdown in the bloodstream, requires that they be injected, and limits their access to certain areas of the body — recombinant proteins themselves are unlikely to be the optimal agents for clinical use.

We have developed techniques that enable us to design conformationally-constrained peptides that act as potent mimetics or inhibitors of selected growth factors. We have three projects in this area, designing peptide mimetics that target both central and peripheral nervous system diseases, including multiple sclerosis and Guillain-Barre syndrome.

Research Group

Tony Hughes & Susan Northfield laboratory


Faculty Research Themes

Neuroscience

School Research Themes

Biomedical Neuroscience, Therapeutics & Translation


Key Contact

For further information about this research, please contact the research group leader.

Department / Centre

Biochemistry and Pharmacology

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