Antitubercular 2-Pyrazolylpyrimidinones Structure-Activity Relationship and Mode-of-Action Studies

Candice Soares De Melo; Vinayak Singh; Alissa Myrick; Sandile B. Simelane; Dale Taylor; Christel Brunschwig; Nina Lawrence; Dirk Schnappinger; Curtis A. Engelhart; Anuradha Kumar; Tanya Parish; Qin Su; Timothy G. Myers; Helena I.M. Boshoff; Clifton E. Barry; Frederick A. Sirgel; Paul D. Van Helden; Kirsteen I. Buchanan; Tracy Bayliss; Simon R. Green; Peter C. Ray; Paul G. Wyatt; Gregory S. Basarab; Charles J. Eyermann; Kelly Chibale; Sandeep R. Ghorpade

doi:10.1021/acs.jmedchem.0c01727

Antitubercular 2-Pyrazolylpyrimidinones Structure-Activity Relationship and Mode-of-Action Studies

Candice Soares De Melo
, Vinayak Singh
, Alissa Myrick
, Sandile B. Simelane
, Dale Taylor
, Christel Brunschwig
, Nina Lawrence
, Dirk Schnappinger
, Curtis A. Engelhart
, Anuradha Kumar
, Tanya Parish
, Qin Su
, Timothy G. Myers
, Helena I.M. Boshoff
, Clifton E. Barry
, Frederick A. Sirgel
, Paul D. Van Helden
, Kirsteen I. Buchanan
, Tracy Bayliss
, Simon R. Green

Peter C. Ray, Paul G. Wyatt, Gregory S. Basarab, Charles J. Eyermann, Kelly Chibale, Sandeep R. Ghorpade

University of Cape Town
Cornell University
Infectious Disease Research Institute
National Institutes of Health
Stellenbosch University
University of Dundee

Research output: Contribution to journal › Article › peer-review

17 Citations (Scopus)

Abstract

Phenotypic screening of a Medicines for Malaria Venture compound library against Mycobacterium tuberculosis (Mtb) identified a cluster of pan-active 2-pyrazolylpyrimidinones. The biology triage of these actives using various tool strains of Mtb suggested a novel mechanism of action. The compounds were bactericidal against replicating Mtb and retained potency against clinical isolates of Mtb. Although selected MmpL3 mutant strains of Mtb showed resistance to these compounds, there was no shift in the minimum inhibitory concentration (MIC) against a mmpL3 hypomorph, suggesting mutations in MmpL3 as a possible resistance mechanism for the compounds but not necessarily as the target. RNA transcriptional profiling and the checkerboard board 2D-MIC assay in the presence of varying concentrations of ferrous salt indicated perturbation of the Fe-homeostasis by the compounds. Structure-activity relationship studies identified potent compounds with good physicochemical properties and in vitro microsomal metabolic stability with moderate selectivity over cytotoxicity against mammalian cell lines.

Original language	English
Pages (from-to)	719-740
Number of pages	22
Journal	Journal of Medicinal Chemistry
Volume	64
Issue number	1
DOIs	https://doi.org/10.1021/acs.jmedchem.0c01727
Publication status	Published - 4 Jan 2021
Externally published	Yes

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 3 Good Health and Well-being

Access to Document

10.1021/acs.jmedchem.0c01727

Cite this

Soares De Melo, C., Singh, V., Myrick, A., Simelane, S. B., Taylor, D., Brunschwig, C., Lawrence, N., Schnappinger, D., Engelhart, C. A., Kumar, A., Parish, T., Su, Q., Myers, T. G., Boshoff, H. I. M., Barry, C. E., Sirgel, F. A., Van Helden, P. D., Buchanan, K. I., Bayliss, T., ... Ghorpade, S. R. (2021). Antitubercular 2-Pyrazolylpyrimidinones Structure-Activity Relationship and Mode-of-Action Studies. Journal of Medicinal Chemistry, 64(1), 719-740. https://doi.org/10.1021/acs.jmedchem.0c01727

@article{6968ed93672b4c9587597ecfb70b5960,

title = "Antitubercular 2-Pyrazolylpyrimidinones Structure-Activity Relationship and Mode-of-Action Studies",

abstract = "Phenotypic screening of a Medicines for Malaria Venture compound library against Mycobacterium tuberculosis (Mtb) identified a cluster of pan-active 2-pyrazolylpyrimidinones. The biology triage of these actives using various tool strains of Mtb suggested a novel mechanism of action. The compounds were bactericidal against replicating Mtb and retained potency against clinical isolates of Mtb. Although selected MmpL3 mutant strains of Mtb showed resistance to these compounds, there was no shift in the minimum inhibitory concentration (MIC) against a mmpL3 hypomorph, suggesting mutations in MmpL3 as a possible resistance mechanism for the compounds but not necessarily as the target. RNA transcriptional profiling and the checkerboard board 2D-MIC assay in the presence of varying concentrations of ferrous salt indicated perturbation of the Fe-homeostasis by the compounds. Structure-activity relationship studies identified potent compounds with good physicochemical properties and in vitro microsomal metabolic stability with moderate selectivity over cytotoxicity against mammalian cell lines.",

author = "\{Soares De Melo\}, Candice and Vinayak Singh and Alissa Myrick and Simelane, \{Sandile B.\} and Dale Taylor and Christel Brunschwig and Nina Lawrence and Dirk Schnappinger and Engelhart, \{Curtis A.\} and Anuradha Kumar and Tanya Parish and Qin Su and Myers, \{Timothy G.\} and Boshoff, \{Helena I.M.\} and Barry, \{Clifton E.\} and Sirgel, \{Frederick A.\} and \{Van Helden\}, \{Paul D.\} and Buchanan, \{Kirsteen I.\} and Tracy Bayliss and Green, \{Simon R.\} and Ray, \{Peter C.\} and Wyatt, \{Paul G.\} and Basarab, \{Gregory S.\} and Eyermann, \{Charles J.\} and Kelly Chibale and Ghorpade, \{Sandeep R.\}",

year = "2021",

month = jan,

day = "4",

doi = "10.1021/acs.jmedchem.0c01727",

language = "English",

volume = "64",

pages = "719--740",

journal = "Journal of Medicinal Chemistry",

issn = "0022-2623",

publisher = "American Chemical Society",

number = "1",

}

Soares De Melo, C, Singh, V, Myrick, A, Simelane, SB, Taylor, D, Brunschwig, C, Lawrence, N, Schnappinger, D, Engelhart, CA, Kumar, A, Parish, T, Su, Q, Myers, TG, Boshoff, HIM, Barry, CE, Sirgel, FA, Van Helden, PD, Buchanan, KI, Bayliss, T, Green, SR, Ray, PC, Wyatt, PG, Basarab, GS, Eyermann, CJ, Chibale, K & Ghorpade, SR 2021, 'Antitubercular 2-Pyrazolylpyrimidinones Structure-Activity Relationship and Mode-of-Action Studies', Journal of Medicinal Chemistry, vol. 64, no. 1, pp. 719-740. https://doi.org/10.1021/acs.jmedchem.0c01727

TY - JOUR

T1 - Antitubercular 2-Pyrazolylpyrimidinones Structure-Activity Relationship and Mode-of-Action Studies

AU - Soares De Melo, Candice

AU - Singh, Vinayak

AU - Myrick, Alissa

AU - Simelane, Sandile B.

AU - Taylor, Dale

AU - Brunschwig, Christel

AU - Lawrence, Nina

AU - Schnappinger, Dirk

AU - Engelhart, Curtis A.

AU - Kumar, Anuradha

AU - Parish, Tanya

AU - Su, Qin

AU - Myers, Timothy G.

AU - Boshoff, Helena I.M.

AU - Barry, Clifton E.

AU - Sirgel, Frederick A.

AU - Van Helden, Paul D.

AU - Buchanan, Kirsteen I.

AU - Bayliss, Tracy

AU - Green, Simon R.

AU - Ray, Peter C.

AU - Wyatt, Paul G.

AU - Basarab, Gregory S.

AU - Eyermann, Charles J.

AU - Chibale, Kelly

AU - Ghorpade, Sandeep R.

PY - 2021/1/4

Y1 - 2021/1/4

N2 - Phenotypic screening of a Medicines for Malaria Venture compound library against Mycobacterium tuberculosis (Mtb) identified a cluster of pan-active 2-pyrazolylpyrimidinones. The biology triage of these actives using various tool strains of Mtb suggested a novel mechanism of action. The compounds were bactericidal against replicating Mtb and retained potency against clinical isolates of Mtb. Although selected MmpL3 mutant strains of Mtb showed resistance to these compounds, there was no shift in the minimum inhibitory concentration (MIC) against a mmpL3 hypomorph, suggesting mutations in MmpL3 as a possible resistance mechanism for the compounds but not necessarily as the target. RNA transcriptional profiling and the checkerboard board 2D-MIC assay in the presence of varying concentrations of ferrous salt indicated perturbation of the Fe-homeostasis by the compounds. Structure-activity relationship studies identified potent compounds with good physicochemical properties and in vitro microsomal metabolic stability with moderate selectivity over cytotoxicity against mammalian cell lines.

AB - Phenotypic screening of a Medicines for Malaria Venture compound library against Mycobacterium tuberculosis (Mtb) identified a cluster of pan-active 2-pyrazolylpyrimidinones. The biology triage of these actives using various tool strains of Mtb suggested a novel mechanism of action. The compounds were bactericidal against replicating Mtb and retained potency against clinical isolates of Mtb. Although selected MmpL3 mutant strains of Mtb showed resistance to these compounds, there was no shift in the minimum inhibitory concentration (MIC) against a mmpL3 hypomorph, suggesting mutations in MmpL3 as a possible resistance mechanism for the compounds but not necessarily as the target. RNA transcriptional profiling and the checkerboard board 2D-MIC assay in the presence of varying concentrations of ferrous salt indicated perturbation of the Fe-homeostasis by the compounds. Structure-activity relationship studies identified potent compounds with good physicochemical properties and in vitro microsomal metabolic stability with moderate selectivity over cytotoxicity against mammalian cell lines.

U2 - 10.1021/acs.jmedchem.0c01727

DO - 10.1021/acs.jmedchem.0c01727

M3 - Article

C2 - 33395287

AN - SCOPUS:85100059684

SN - 0022-2623

VL - 64

SP - 719

EP - 740

JO - Journal of Medicinal Chemistry

JF - Journal of Medicinal Chemistry

IS - 1

ER -

Antitubercular 2-Pyrazolylpyrimidinones Structure-Activity Relationship and Mode-of-Action Studies

Abstract

UN SDGs

Access to Document

Fingerprint

Cite this