Skip to main content
European Commission logo
italiano italiano
CORDIS - Risultati della ricerca dell’UE
CORDIS
CORDIS Web 30th anniversary CORDIS Web 30th anniversary

Iron-sulphur cluster biogenesis: deciphering new molecular mechanisms and exploiting novel antifungal and fungicide targets

Descrizione del progetto

Verso nuovi trattamenti antimicotici

Le infezioni micotiche umane causano milioni di morti ogni anno, mentre i funghi possono anche danneggiare le piante e i raccolti, determinando perdite considerevoli nella produzione alimentare. Nonostante la disponibilità di farmaci antimicotici e fungicidi, l’emergere della farmacoresistenza sottolinea la necessità di sviluppare nuovi medicinali. L’obiettivo del progetto FungiFeS, finanziato dall’UE, è quello di identificare i composti naturali che possono fungere da nuovi antimicotici/fungicidi. I ricercatori propongono come nuovi bersagli i cluster ferro-zolfo (FeS) che si trovano nelle proteine implicate in processi quali la respirazione cellulare. I risultati genereranno nuovi trattamenti antimicotici combinatori che potrebbero migliorare la salute umana e aumentare la disponibilità di cibo in tutto il mondo.

Obiettivo

Fungi have major socioeconomic impacts. Recent estimates suggest that invasive human fungal infections kill more than 1.6 million people annually and that 600 million people could be fed each year by halting the spread of fungal diseases in the five most important crops. A range of antifungals/fungicides is currently used to control fungal pathogens in medicine and agriculture, but resistance to those is growing underscoring the urgent need for new molecular targets and treatments. Iron-sulphur (FeS) clusters are inorganic cofactors found in all kingdoms of life and required for several essential cellular processes, such as DNA synthesis, mRNA translation, and respiration. Pathways required for their biogenesis were suggested to represent possible novel antifungal/fungicide targets. The aims of the project are: (1) to identify, via chemical high throughput screening, natural compounds targeting the essential mitochondrial (Arh1-Yah1) and cytoplasmic (Tah18-Dre2) NADPH-dependant electron transfer chains involved in the FeS cluster biogenesis. These compounds could be used in combination with other agents to kill fungal pathogens lowering cost and potential toxicity by reducing doses needed to inhibit fungal growth. (2) To highlight new targets for antifungals/fungicides among the FeS cluster biogenesis and associated pathways. (3) To establish the interaction network of the ferredoxin Yah1 involved in the early steps of the FeS cluster biogenesis knowing that several steps of this process remain poorly understood and new factors may still be discovered. The project will be carried out in the group “Oxidative stress, FeS protein and Cancer” (CNRS-ICSN, Gif-sur-Yvette, France) and will address those objectives by combining my own expertise and that of the host laboratory in microbiology, genetics, biophysics and biochemistry, drug screening and of cutting-edge technologies and approaches such as Förster resonance energy transfer, microfluidics and chemoproteomics.

Coordinatore

CENTRE NATIONAL DE LA RECHERCHE SCIENTIFIQUE CNRS
Contribution nette de l'UE
€ 184 707,84
Indirizzo
RUE MICHEL ANGE 3
75794 Paris
Francia

Mostra sulla mappa

Regione
Ile-de-France Ile-de-France Paris
Tipo di attività
Research Organisations
Collegamenti
Costo totale
€ 184 707,84