Summary
Most current drugs are designed to bind directly to the primary active sites (also known as orthosteric sites) of their biological targets. Allosteric modulators offer a powerful yet underexploited therapeutic approach. They can elicit a richer variety of biological responses and, since they target less conserved binding sites, higher selectivity and less adverse effects may be obtained (Changeux, Drug Disc Today 2013). This proposal aims to train a new generation of scientists in exploiting the concept of allostery in drug design, putting together a whole array of technologies to identify and characterize allosteric modulators of protein function that will be applied to therapeutically relevant systems. Our approach is based on a combination of experimental and simulation techniques, including fragment Screening with structural characterization (X-ray, NMR, H/D exchange), proteomics (MS/MS), ITC, DNA encoding libraries, Virtual Screening, Molecular Dynamics simulations-based methods, Synthetic Chemistry, and in vitro and cellular assays for the verification of results. It should also be noted that allosteric targeting need not be achieved solely through the design of synthetic small molecules but also can also be reached via conformationally specific allosteric antibodies, which represents an important field of future research. There are already clear examples of monoclonal antibodies that allosterically target ion channels (Lee et al., 2014b), GPCRs (Mukund et al., 2013), and RTKs (De Smet et al., 2014), as well as cytokine and integrin receptors (Rizk et al., 2015; Schwarz et al., 2006).
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| Web resources: | https://cordis.europa.eu/project/id/956314 |
| Start date: | 01-09-2021 |
| End date: | 31-08-2025 |
| Total budget - Public funding: | 3 627 680,76 Euro - 3 627 680,00 Euro |
Cordis data
Original description
Most current drugs are designed to bind directly to the primary active sites (also known as orthosteric sites) of their biological targets. Allosteric modulators offer a powerful yet underexploited therapeutic approach. They can elicit a richer variety of biological responses and, since they target less conserved binding sites, higher selectivity and less adverse effects may be obtained (Changeux, Drug Disc Today 2013). This proposal aims to train a new generation of scientists in exploiting the concept of allostery in drug design, putting together a whole array of technologies to identify and characterize allosteric modulators of protein function that will be applied to therapeutically relevant systems. Our approach is based on a combination of experimental and simulation techniques, including fragment Screening with structural characterization (X-ray, NMR, H/D exchange), proteomics (MS/MS), ITC, DNA encoding libraries, Virtual Screening, Molecular Dynamics simulations-based methods, Synthetic Chemistry, and in vitro and cellular assays for the verification of results. It should also be noted that allosteric targeting need not be achieved solely through the design of synthetic small molecules but also can also be reached via conformationally specific allosteric antibodies, which represents an important field of future research. There are already clear examples of monoclonal antibodies that allosterically target ion channels (Lee et al., 2014b), GPCRs (Mukund et al., 2013), and RTKs (De Smet et al., 2014), as well as cytokine and integrin receptors (Rizk et al., 2015; Schwarz et al., 2006).Status
SIGNEDCall topic
MSCA-ITN-2020Update Date
28-04-2024
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Organisations
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| IDRYMA IATROVIOLOGIKON EREUNON AKADEMIAS ATHINON (Coördinator)
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| CHARITE - UNIVERSITAETSMEDIZIN BERLIN
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| FORSCHUNGSVERBUND BERLIN E.V.
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| FORSCHUNGSZENTRUM JULICH GMBH (JUELICH)
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| HEPTARES THERAPEUTICS LIMITED
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| JANSSEN PHARMACEUTICA NV
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| KAROLINSKA INSTITUTET
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| MAGYAR TUDOMANYOS AKADEMIA TERMESZETTUDOMANYI KUTATOKOZPONT (MTA TTK)
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| MERCK HEALTHCARE KGAA
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| THE UNIVERSITY OF BIRMINGHAM
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| UNIVERSITAT DE BARCELONA
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| UNIVERSITAT WIEN
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| UNIVERSITE DE STRASBOURG
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| Universita' degli Studi di Urbino Carlo Bo