CONBIOSProject reference: 330486
Funded under :
Cone snail toxins as therapeutic agents: Decoding biological mechanisms of conotoxin folding
Total cost:EUR 294 456,3
EU contribution:EUR 294 456,3
Topic(s):FP7-PEOPLE-2012-IOF - Marie Curie Action: "International Outgoing Fellowships for Career Development"
Call for proposal:FP7-PEOPLE-2012-IOFSee other projects for this call
Funding scheme:MC-IOF - International Outgoing Fellowships (IOF)
"Predatory marine cone snails use extraordinarily complex venoms to capture prey. Most of the ~500,000 biologically active venom components are small, disulfide-rich peptides called conotoxins. They target receptors and ion channels of the nervous system with remarkable potency and specificity. Due to their enormous diversity and target specificity, conotoxins have become invaluable tools in molecular pharmacology and as therapeutic agents. However, their chemical synthesis is hampered by multiple disulfide bonds and additional post-translational modifications, which result in low folding yields and accumulation of aggregated or misfolded products. Recently observed differences between in vitro and in vivo synthesis strongly indicate that folding and modification of conotoxins in the endoplasmic reticulum of the venom glandular cells are tightly regulated processes. Understanding mechanisms that govern the proper assembly of conotoxins at a molecular level is a prerequisite for designing more efficient production systems for conotoxins and other disulfide-rich peptides of biological and pharmacological importance.
By using next-generation sequencing, bottom-up proteomics, protein-protein interaction and molecular silencing technologies, this study will elucidate crucial pathways for the oxidative folding and modification of conotoxins. These results will be used to develop a cell-based expression system for conotoxins that are difficult or impossible to synthesise chemically, thus providing novel agents for pharmacotherapeutic studies.
While our knowledge on the proper folding of larger protein substrates is constantly improving, research into the generation of small, disulfide-containing peptides is a newly emerging field. By bringing together world-leading scientists in conotoxin pharmacology and protein folding, this project will develop excellent scientific and leadership competences at a high level for a young talented European scientist."
EU contribution: EUR 294 456,3