Design, Synthesis, and Structure–Activity Relationship Studies of New Quinone Derivatives as Antibacterial Agents

Juan Andrades-Lagos; Javier Campanini-Salinas; América Pedreros-Riquelme; Jaime Mella; Duane Choquesillo-Lazarte; P. P. Zamora; Hernán Pessoa-Mahana; Ian Burbulis; David Vásquez-Velásquez

doi:10.3390/antibiotics12061065

Design, Synthesis, and Structure–Activity Relationship Studies of New Quinone Derivatives as Antibacterial Agents

Juan Andrades-Lagos^*, Javier Campanini-Salinas^*, América Pedreros-Riquelme, Jaime Mella, Duane Choquesillo-Lazarte, P. P. Zamora, Hernán Pessoa-Mahana, Ian Burbulis, David Vásquez-Velásquez^*

^*Autor correspondiente de este trabajo

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

1 Cita (Scopus)

Resumen

Resistance to antibacterial agents is a growing global public health problem that reduces the efficacy of available antibacterial agents, leading to increased patient mortality and morbidity. Unfortunately, only 16 antibacterial drugs have been approved by the FDA in the last 10 years, so it is necessary to develop new agents with novel chemical structures and/or mechanisms of action. In response to this, our group takes up the challenge of designing a new family of pyrimidoisoquinolinquinones displaying antimicrobial activities against multidrug-resistant Gram-positive bacteria. Accordingly, the objective of this study was to establish the necessary structural requirements to obtain compounds with high antibacterial activity, along with the parameters controlling antibacterial activity. To achieve this goal, we designed a family of compounds using different strategies for drug design. Forty structural candidates were synthesized and characterized, and antibacterial assays were carried out against high-priority bacterial pathogens. A variety of structural properties were modified, such as hydrophobicity and chain length of functional groups attached to specific carbon positions of the quinone core. All the synthesized compounds inhibited Gram-positive pathogens in concentrations ranging from 0.5 to 64 µg/mL. Two derivatives exhibited minimum inhibitory concentrations of 64 µg/mL against Klebsiella pneumoniae, while compound 28 demonstrated higher potency against MRSA than vancomycin.

Idioma original	Inglés
Número de artículo	1065
Publicación	Antibiotics
Volumen	12
N.º	6
DOI	https://doi.org/10.3390/antibiotics12061065
Estado	Publicada - 2023

Nota bibliográfica

Publisher Copyright:
© 2023 by the authors.

Áreas temáticas de ASJC Scopus

Farmacología, Toxicología y Farmacia General
Microbiología (médica)
Enfermedades infecciosas
Farmacología (médica)
Bioquímica
Microbiología

ODS de las Naciones Unidas

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Andrades-Lagos, J., Campanini-Salinas, J., Pedreros-Riquelme, A., Mella, J., Choquesillo-Lazarte, D., Zamora, P. P., Pessoa-Mahana, H., Burbulis, I., & Vásquez-Velásquez, D. (2023). Design, Synthesis, and Structure–Activity Relationship Studies of New Quinone Derivatives as Antibacterial Agents. Antibiotics, 12(6), Artículo 1065. https://doi.org/10.3390/antibiotics12061065

@article{f18fe957499540e48cadddb58dd8e597,

title = "Design, Synthesis, and Structure–Activity Relationship Studies of New Quinone Derivatives as Antibacterial Agents",

abstract = "Resistance to antibacterial agents is a growing global public health problem that reduces the efficacy of available antibacterial agents, leading to increased patient mortality and morbidity. Unfortunately, only 16 antibacterial drugs have been approved by the FDA in the last 10 years, so it is necessary to develop new agents with novel chemical structures and/or mechanisms of action. In response to this, our group takes up the challenge of designing a new family of pyrimidoisoquinolinquinones displaying antimicrobial activities against multidrug-resistant Gram-positive bacteria. Accordingly, the objective of this study was to establish the necessary structural requirements to obtain compounds with high antibacterial activity, along with the parameters controlling antibacterial activity. To achieve this goal, we designed a family of compounds using different strategies for drug design. Forty structural candidates were synthesized and characterized, and antibacterial assays were carried out against high-priority bacterial pathogens. A variety of structural properties were modified, such as hydrophobicity and chain length of functional groups attached to specific carbon positions of the quinone core. All the synthesized compounds inhibited Gram-positive pathogens in concentrations ranging from 0.5 to 64 µg/mL. Two derivatives exhibited minimum inhibitory concentrations of 64 µg/mL against Klebsiella pneumoniae, while compound 28 demonstrated higher potency against MRSA than vancomycin.",

keywords = "Craig plot, Enterococcus faecium, Free-Wilson, Klebsiella pneumoniae, antibacterial activity, antibacterial agents, drug discovery, methicillin-resistant Staphylococcus aureus, quinone-antibiotics, quinonic-antibiotics, structure–activity relationships, synthesis",

author = "Juan Andrades-Lagos and Javier Campanini-Salinas and Am{\'e}rica Pedreros-Riquelme and Jaime Mella and Duane Choquesillo-Lazarte and Zamora, {P. P.} and Hern{\'a}n Pessoa-Mahana and Ian Burbulis and David V{\'a}squez-Vel{\'a}squez",

note = "Funding Information: The authors, J.A.L. and J.C.S., thank the CONICYT Beca Doctorado Nacional No. 21130628 and No. 21130643, respectively. Funding Information: This research was funded by FONDECYT No. 11110516, Iniciaci{\'o}n en Investigaci{\'o}n, Chile; FONDECYT Regular No. 1191737 (IEB) and FONDECYT No. 79100006, Proyecto de Inserci{\'o}n, Chile, and Programa de Est{\'i}mulo a la Excelencia Institucional PEEI 2017, Universidad de Chile. Publisher Copyright: {\textcopyright} 2023 by the authors.",

year = "2023",

month = jun,

doi = "10.3390/antibiotics12061065",

language = "English",

volume = "12",

journal = "Antibiotics",

issn = "2079-6382",

publisher = "Multidisciplinary Digital Publishing Institute (MDPI)",

number = "6",

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TY - JOUR

T1 - Design, Synthesis, and Structure–Activity Relationship Studies of New Quinone Derivatives as Antibacterial Agents

AU - Andrades-Lagos, Juan

AU - Campanini-Salinas, Javier

AU - Pedreros-Riquelme, América

AU - Mella, Jaime

AU - Choquesillo-Lazarte, Duane

AU - Zamora, P. P.

AU - Pessoa-Mahana, Hernán

AU - Burbulis, Ian

AU - Vásquez-Velásquez, David

N1 - Funding Information: The authors, J.A.L. and J.C.S., thank the CONICYT Beca Doctorado Nacional No. 21130628 and No. 21130643, respectively. Funding Information: This research was funded by FONDECYT No. 11110516, Iniciación en Investigación, Chile; FONDECYT Regular No. 1191737 (IEB) and FONDECYT No. 79100006, Proyecto de Inserción, Chile, and Programa de Estímulo a la Excelencia Institucional PEEI 2017, Universidad de Chile. Publisher Copyright: © 2023 by the authors.

PY - 2023/6

Y1 - 2023/6

N2 - Resistance to antibacterial agents is a growing global public health problem that reduces the efficacy of available antibacterial agents, leading to increased patient mortality and morbidity. Unfortunately, only 16 antibacterial drugs have been approved by the FDA in the last 10 years, so it is necessary to develop new agents with novel chemical structures and/or mechanisms of action. In response to this, our group takes up the challenge of designing a new family of pyrimidoisoquinolinquinones displaying antimicrobial activities against multidrug-resistant Gram-positive bacteria. Accordingly, the objective of this study was to establish the necessary structural requirements to obtain compounds with high antibacterial activity, along with the parameters controlling antibacterial activity. To achieve this goal, we designed a family of compounds using different strategies for drug design. Forty structural candidates were synthesized and characterized, and antibacterial assays were carried out against high-priority bacterial pathogens. A variety of structural properties were modified, such as hydrophobicity and chain length of functional groups attached to specific carbon positions of the quinone core. All the synthesized compounds inhibited Gram-positive pathogens in concentrations ranging from 0.5 to 64 µg/mL. Two derivatives exhibited minimum inhibitory concentrations of 64 µg/mL against Klebsiella pneumoniae, while compound 28 demonstrated higher potency against MRSA than vancomycin.

AB - Resistance to antibacterial agents is a growing global public health problem that reduces the efficacy of available antibacterial agents, leading to increased patient mortality and morbidity. Unfortunately, only 16 antibacterial drugs have been approved by the FDA in the last 10 years, so it is necessary to develop new agents with novel chemical structures and/or mechanisms of action. In response to this, our group takes up the challenge of designing a new family of pyrimidoisoquinolinquinones displaying antimicrobial activities against multidrug-resistant Gram-positive bacteria. Accordingly, the objective of this study was to establish the necessary structural requirements to obtain compounds with high antibacterial activity, along with the parameters controlling antibacterial activity. To achieve this goal, we designed a family of compounds using different strategies for drug design. Forty structural candidates were synthesized and characterized, and antibacterial assays were carried out against high-priority bacterial pathogens. A variety of structural properties were modified, such as hydrophobicity and chain length of functional groups attached to specific carbon positions of the quinone core. All the synthesized compounds inhibited Gram-positive pathogens in concentrations ranging from 0.5 to 64 µg/mL. Two derivatives exhibited minimum inhibitory concentrations of 64 µg/mL against Klebsiella pneumoniae, while compound 28 demonstrated higher potency against MRSA than vancomycin.

KW - Craig plot

KW - Enterococcus faecium

KW - Free-Wilson

KW - Klebsiella pneumoniae

KW - antibacterial activity

KW - antibacterial agents

KW - drug discovery

KW - methicillin-resistant Staphylococcus aureus

KW - quinone-antibiotics

KW - quinonic-antibiotics

KW - structure–activity relationships

KW - synthesis

UR - http://www.scopus.com/inward/record.url?scp=85163772324&partnerID=8YFLogxK

U2 - 10.3390/antibiotics12061065

DO - 10.3390/antibiotics12061065

M3 - Article

AN - SCOPUS:85163772324

SN - 2079-6382

VL - 12

JO - Antibiotics

JF - Antibiotics

IS - 6

M1 - 1065

ER -

Design, Synthesis, and Structure–Activity Relationship Studies of New Quinone Derivatives as Antibacterial Agents

Resumen

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Áreas temáticas de ASJC Scopus

ODS de las Naciones Unidas

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