Institute of Fundamental Technological Research
Polish Academy of Sciences

Partners

Diego Prada-Gracia

Supervision of doctoral theses
1.  2022-12-06
co-supervisor
Cofas Vargas Luis  
(Chemistry Institute, UNAM)
Exploring the druggability of the binding site of aurovertin, an exogenous allosteric inhibitor of FOF1-ATP synthase 

Recent publications
1.  Cofas-Vargas Luis F., Mendoza-Espinosa P., Avila-Barrientos Luis P., Prada-Gracia D., Riveros-Rosas H., García-Hernández E., Exploring the druggability of the binding site of aurovertin, an exogenous allosteric inhibitor of FOF1-ATP synthase, Frontiers in Pharmacology, ISSN: 1663-9812, DOI: 10.3389/fphar.2022.1012008, Vol.13, pp.1012008-1-19, 2022

Abstract:
In addition to playing a central role in the mitochondria as the main producer of ATP, FOF1-ATP synthase performs diverse key regulatory functions in the cell membrane. Its malfunction has been linked to a growing number of human diseases, including hypertension, atherosclerosis, cancer, and some neurodegenerative, autoimmune, and aging diseases. Furthermore, inhibition of this enzyme jeopardizes the survival of several bacterial pathogens of public health concern. Therefore, FOF1-ATP synthase has emerged as a novel drug target both to treat human diseases and to combat antibiotic resistance. In this work, we carried out a computational characterization of the binding sites of the fungal antibiotic aurovertin in the bovine F1 subcomplex, which shares a large identity with the human enzyme. Molecular dynamics simulations showed that although the binding sites can be described as preformed, the inhibitor hinders inter-subunit communications and exerts long-range effects on the dynamics of the catalytic site residues. End-point binding free energy calculations revealed hot spot residues for aurovertin recognition. These residues were also relevant to stabilize solvent sites determined from mixed-solvent molecular dynamics, which mimic the interaction between aurovertin and the enzyme, and could be used as pharmacophore constraints in virtual screening campaigns. To explore the possibility of finding species-specific inhibitors targeting the aurovertin binding site, we performed free energy calculations for two bacterial enzymes with experimentally solved 3D structures. Finally, an analysis of bacterial sequences was carried out to determine conservation of the aurovertin binding site. Taken together, our results constitute a first step in paving the way for structure-based development of new allosteric drugs targeting FOF1-ATP synthase sites of exogenous inhibitors.

Keywords:
FOF1-ATP synthase inhibition, conformational dynamics, solvent sites, binding free energy, hot spot binding residues, bacterial pathogens

Affiliations:
Cofas-Vargas Luis F. - other affiliation
Mendoza-Espinosa P. - other affiliation
Avila-Barrientos Luis P. - other affiliation
Prada-Gracia D. - other affiliation
Riveros-Rosas H. - other affiliation
García-Hernández E. - other affiliation

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