Inhibition of Aminoglycoside 6′-N-acetyltransferase Type Ib (AAC(6′)-Ib): Structure–Activity Relationship of Substituted Pyrrolidine Pentamine Derivatives as Inhibitors

The aminoglycoside 6′-N-acetyltransferase type Ib (AAC(6′)-Ib) is a common cause of resistance to amikacin and other aminoglycosides in Gram-negatives. Utilization of mixture-based combinatorial libraries and application of the positional scanning strategy identified an inhibitor of AAC(6′)-Ib. This...

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Autores principales: Rocha, Kenneth, Magallon, Jesus, Reeves, Craig, Phan, Kimberly, Vu, Peter, Oakley-Havens, Crista L., Kwan, Stella, Ramirez, Maria Soledad, LaVoi, Travis, Donow, Haley, Chapagain, Prem, Santos, Radleigh, Pinilla, Clemencia, Giulianotti, Marc A., Tolmasky, Marcelo E.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2021
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8471502/
https://www.ncbi.nlm.nih.gov/pubmed/34572404
http://dx.doi.org/10.3390/biomedicines9091218
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author Rocha, Kenneth
Magallon, Jesus
Reeves, Craig
Phan, Kimberly
Vu, Peter
Oakley-Havens, Crista L.
Kwan, Stella
Ramirez, Maria Soledad
LaVoi, Travis
Donow, Haley
Chapagain, Prem
Santos, Radleigh
Pinilla, Clemencia
Giulianotti, Marc A.
Tolmasky, Marcelo E.
author_facet Rocha, Kenneth
Magallon, Jesus
Reeves, Craig
Phan, Kimberly
Vu, Peter
Oakley-Havens, Crista L.
Kwan, Stella
Ramirez, Maria Soledad
LaVoi, Travis
Donow, Haley
Chapagain, Prem
Santos, Radleigh
Pinilla, Clemencia
Giulianotti, Marc A.
Tolmasky, Marcelo E.
author_sort Rocha, Kenneth
collection PubMed
description The aminoglycoside 6′-N-acetyltransferase type Ib (AAC(6′)-Ib) is a common cause of resistance to amikacin and other aminoglycosides in Gram-negatives. Utilization of mixture-based combinatorial libraries and application of the positional scanning strategy identified an inhibitor of AAC(6′)-Ib. This inhibitor’s chemical structure consists of a pyrrolidine pentamine scaffold substituted at four locations (R1, R3, R4, and R5). The substituents are two S-phenyl groups (R1 and R4), an S-hydroxymethyl group (R3), and a 3-phenylbutyl group (R5). Another location, R2, does not have a substitution, but it is named because its stereochemistry was modified in some compounds utilized in this study. Structure–activity relationship (SAR) analysis using derivatives with different functionalities, modified stereochemistry, and truncations was carried out by assessing the effect of the addition of each compound at 8 µM to 16 µg/mL amikacin-containing media and performing checkerboard assays varying the concentrations of the inhibitor analogs and the antibiotic. The results show that: (1) the aromatic functionalities at R1 and R4 are essential, but the stereochemistry is essential only at R4; (2) the stereochemical conformation at R2 is critical; (3) the hydroxyl moiety at R3 as well as stereoconformation are required for full inhibitory activity; (4) the phenyl functionality at R5 is not essential and can be replaced by aliphatic groups; (5) the location of the phenyl group on the butyl carbon chain at R5 is not essential; (6) the length of the aliphatic chain at R5 is not critical; and (7) all truncations of the scaffold resulted in inactive compounds. Molecular docking revealed that all compounds preferentially bind to the kanamycin C binding cavity, and binding affinity correlates with the experimental data for most of the compounds evaluated. The SAR results in this study will serve as the basis for the design of new analogs in an effort to improve their ability to induce phenotypic conversion to susceptibility in amikacin-resistant pathogens.
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spelling pubmed-84715022021-09-28 Inhibition of Aminoglycoside 6′-N-acetyltransferase Type Ib (AAC(6′)-Ib): Structure–Activity Relationship of Substituted Pyrrolidine Pentamine Derivatives as Inhibitors Rocha, Kenneth Magallon, Jesus Reeves, Craig Phan, Kimberly Vu, Peter Oakley-Havens, Crista L. Kwan, Stella Ramirez, Maria Soledad LaVoi, Travis Donow, Haley Chapagain, Prem Santos, Radleigh Pinilla, Clemencia Giulianotti, Marc A. Tolmasky, Marcelo E. Biomedicines Article The aminoglycoside 6′-N-acetyltransferase type Ib (AAC(6′)-Ib) is a common cause of resistance to amikacin and other aminoglycosides in Gram-negatives. Utilization of mixture-based combinatorial libraries and application of the positional scanning strategy identified an inhibitor of AAC(6′)-Ib. This inhibitor’s chemical structure consists of a pyrrolidine pentamine scaffold substituted at four locations (R1, R3, R4, and R5). The substituents are two S-phenyl groups (R1 and R4), an S-hydroxymethyl group (R3), and a 3-phenylbutyl group (R5). Another location, R2, does not have a substitution, but it is named because its stereochemistry was modified in some compounds utilized in this study. Structure–activity relationship (SAR) analysis using derivatives with different functionalities, modified stereochemistry, and truncations was carried out by assessing the effect of the addition of each compound at 8 µM to 16 µg/mL amikacin-containing media and performing checkerboard assays varying the concentrations of the inhibitor analogs and the antibiotic. The results show that: (1) the aromatic functionalities at R1 and R4 are essential, but the stereochemistry is essential only at R4; (2) the stereochemical conformation at R2 is critical; (3) the hydroxyl moiety at R3 as well as stereoconformation are required for full inhibitory activity; (4) the phenyl functionality at R5 is not essential and can be replaced by aliphatic groups; (5) the location of the phenyl group on the butyl carbon chain at R5 is not essential; (6) the length of the aliphatic chain at R5 is not critical; and (7) all truncations of the scaffold resulted in inactive compounds. Molecular docking revealed that all compounds preferentially bind to the kanamycin C binding cavity, and binding affinity correlates with the experimental data for most of the compounds evaluated. The SAR results in this study will serve as the basis for the design of new analogs in an effort to improve their ability to induce phenotypic conversion to susceptibility in amikacin-resistant pathogens. MDPI 2021-09-14 /pmc/articles/PMC8471502/ /pubmed/34572404 http://dx.doi.org/10.3390/biomedicines9091218 Text en © 2021 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Rocha, Kenneth
Magallon, Jesus
Reeves, Craig
Phan, Kimberly
Vu, Peter
Oakley-Havens, Crista L.
Kwan, Stella
Ramirez, Maria Soledad
LaVoi, Travis
Donow, Haley
Chapagain, Prem
Santos, Radleigh
Pinilla, Clemencia
Giulianotti, Marc A.
Tolmasky, Marcelo E.
Inhibition of Aminoglycoside 6′-N-acetyltransferase Type Ib (AAC(6′)-Ib): Structure–Activity Relationship of Substituted Pyrrolidine Pentamine Derivatives as Inhibitors
title Inhibition of Aminoglycoside 6′-N-acetyltransferase Type Ib (AAC(6′)-Ib): Structure–Activity Relationship of Substituted Pyrrolidine Pentamine Derivatives as Inhibitors
title_full Inhibition of Aminoglycoside 6′-N-acetyltransferase Type Ib (AAC(6′)-Ib): Structure–Activity Relationship of Substituted Pyrrolidine Pentamine Derivatives as Inhibitors
title_fullStr Inhibition of Aminoglycoside 6′-N-acetyltransferase Type Ib (AAC(6′)-Ib): Structure–Activity Relationship of Substituted Pyrrolidine Pentamine Derivatives as Inhibitors
title_full_unstemmed Inhibition of Aminoglycoside 6′-N-acetyltransferase Type Ib (AAC(6′)-Ib): Structure–Activity Relationship of Substituted Pyrrolidine Pentamine Derivatives as Inhibitors
title_short Inhibition of Aminoglycoside 6′-N-acetyltransferase Type Ib (AAC(6′)-Ib): Structure–Activity Relationship of Substituted Pyrrolidine Pentamine Derivatives as Inhibitors
title_sort inhibition of aminoglycoside 6′-n-acetyltransferase type ib (aac(6′)-ib): structure–activity relationship of substituted pyrrolidine pentamine derivatives as inhibitors
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8471502/
https://www.ncbi.nlm.nih.gov/pubmed/34572404
http://dx.doi.org/10.3390/biomedicines9091218
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