Summary
Antimicrobial resistance (AMR) is a challenge to human health and health-systems, and we need novel antimicrobials or drugs that can re-sensitize multi drug resistant (MDR) bacteria to existing antimicrobials. Metabolic enzymes have largely been ignored in the search for antimicrobial targets, and they are an untapped resource. The aim of INNOTARGETS is to train ESRs in highly innovative approaches to identify metabolic drug targets in pathogenic bacteria. The training will deliver ESRs that can become creative, future research team leaders within industry or academia. The network joins 7 academic and 3 non-academic organisations, including two antibiotic discovery companies. The training is multi-disciplinary and trans-sectoral and provides 432 person-months of training to 12 ESRs. The types of targets foreseen are: 1) Metabolic enzymes that are essential for infection, Such enzymes will be identified by use of transposon libraries 2) Redundant enzymes, which can be blocked in parallel. Relevant pairs of enzymes will be identified by use of metabolic models, and a search for bioactive molecules, with affinity for more than one target will be carried out using a novel screening platform. 3) Metabolic enzymes which are essential for expression of resistance mechanisms or spread of resistance plasmids in MDR bacteria. Putative targets for all three types of reactions will be validated using cell culture and animal models.
INNOTARGETS will establish a joint training syllabus designed to widen the career prospects of the ESRs and to optimize their professional competences. It includes training through research, including secondments, network wide training courses and summer schools, self-directed learning, workshops and training through interaction with external partners and visiting scientists.
INNOTARGETS will establish a joint training syllabus designed to widen the career prospects of the ESRs and to optimize their professional competences. It includes training through research, including secondments, network wide training courses and summer schools, self-directed learning, workshops and training through interaction with external partners and visiting scientists.
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More information & hyperlinks
Web resources: | https://cordis.europa.eu/project/id/956154 |
Start date: | 01-03-2021 |
End date: | 30-11-2025 |
Total budget - Public funding: | 3 260 954,70 Euro - 3 260 954,00 Euro |
Cordis data
Original description
Antimicrobial resistance (AMR) is a challenge to human health and health-systems, and we need novel antimicrobials or drugs that can re-sensitize multi drug resistant (MDR) bacteria to existing antimicrobials. Metabolic enzymes have largely been ignored in the search for antimicrobial targets, and they are an untapped resource. The aim of INNOTARGETS is to train ESRs in highly innovative approaches to identify metabolic drug targets in pathogenic bacteria. The training will deliver ESRs that can become creative, future research team leaders within industry or academia. The network joins 7 academic and 3 non-academic organisations, including two antibiotic discovery companies. The training is multi-disciplinary and trans-sectoral and provides 432 person-months of training to 12 ESRs. The types of targets foreseen are: 1) Metabolic enzymes that are essential for infection, Such enzymes will be identified by use of transposon libraries 2) Redundant enzymes, which can be blocked in parallel. Relevant pairs of enzymes will be identified by use of metabolic models, and a search for bioactive molecules, with affinity for more than one target will be carried out using a novel screening platform. 3) Metabolic enzymes which are essential for expression of resistance mechanisms or spread of resistance plasmids in MDR bacteria. Putative targets for all three types of reactions will be validated using cell culture and animal models.INNOTARGETS will establish a joint training syllabus designed to widen the career prospects of the ESRs and to optimize their professional competences. It includes training through research, including secondments, network wide training courses and summer schools, self-directed learning, workshops and training through interaction with external partners and visiting scientists.
Status
SIGNEDCall topic
MSCA-ITN-2020Update Date
28-04-2024
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