Author
Listed:
- Dirk A. Lamprecht
(Janssen Pharmaceutica NV
University of Cape Town)
- Richard J. Wall
(London School of Hygiene and Tropical Medicine)
- Annelies Leemans
(Janssen Pharmaceutica NV)
- Barry Truebody
(University of KwaZulu Natal)
- Joke Sprangers
(Janssen Pharmaceutica NV
Charles River Laboratories)
- Patricia Fiogbe
(Janssen Pharmaceutica NV
Charles River Laboratories)
- Cadi Davies
(London School of Hygiene and Tropical Medicine)
- Jennefer Wetzel
(Janssen Pharmaceutica NV)
- Stijn Daems
(Janssen Pharmaceutica NV)
- William Pearson
(London School of Hygiene and Tropical Medicine)
- Vanessa Pillay
(University of KwaZulu Natal)
- Samantha Saylock
(Janssen Pharmaceutica)
- M. Daniel Ricketts
(Janssen Pharmaceutica)
- Ellie Davis
(London School of Hygiene and Tropical Medicine)
- Adam Huff
(Janssen Pharmaceutica)
- Tsehai Grell
(Janssen Pharmaceutica)
- Shiming Lin
(University of Saskatchewan)
- Michelle Gerber
(University of Saskatchewan)
- Ann Vos
(Janssen Pharmaceutica NV)
- John Dallow
(London School of Hygiene and Tropical Medicine)
- Sam J. Willcocks
(London School of Hygiene and Tropical Medicine
Brunel University of London)
- Christine Roubert
(Evotec ID (LYON) SAS)
- Stéphanie Sans
(Evotec ID (LYON) SAS)
- Amandine Desorme
(Evotec ID (LYON) SAS)
- Nicolas Chappat
(Evotec ID (LYON) SAS)
- Aurélie Ray
(Evotec ID (LYON) SAS)
- Mariana Pereira Moraes
(Tufts University School of Medicine and Stuart B. Levy Center for Integrated Management of Antimicrobial Resistance)
- Tracy Washington
(Tufts University School of Medicine and Stuart B. Levy Center for Integrated Management of Antimicrobial Resistance)
- Hope D’Erasmo
(Tufts University School of Medicine and Stuart B. Levy Center for Integrated Management of Antimicrobial Resistance)
- Pavankumar Sancheti
(Janssen Pharmaceutica NV)
- Melissa Everaerts
(Janssen Pharmaceutica NV)
- Mario Monshouwer
(Janssen Pharmaceutica NV)
- Jorge Esquivias
(Janssen Pharmaceutica)
- Gerald Larrouy-Maumus
(Imperial College London)
- Ruxandra Draghia Akli
(Janssen Pharmaceutica
Novavax, Inc.)
- Helen Fletcher
(London School of Hygiene and Tropical Medicine
Janssen Pharmaceutica)
- Alexander S. Pym
(Janssen Pharmaceutica)
- Bree B. Aldridge
(Tufts University School of Medicine and Stuart B. Levy Center for Integrated Management of Antimicrobial Resistance
Tufts University School of Engineering)
- Jansy P. Sarathy
(Hackensack Meridian Health)
- Kathleen W. Clancy
(Janssen Pharmaceutica)
- Bart Stoops
(Janssen Pharmaceutica NV)
- Neeraj Dhar
(University of Saskatchewan)
- Adrie J. C. Steyn
(University of KwaZulu Natal
University of Alabama at Birmingham
University of Alabama at Birmingham)
- Paul Jackson
(Janssen Pharmaceutica)
- Clara Aguilar-Pérez
(Janssen Pharmaceutica NV)
- Anil Koul
(Janssen Pharmaceutica NV
London School of Hygiene and Tropical Medicine)
Abstract
Tuberculosis remains the leading cause of death from an infectious disease1,2. Here we report the discovery of a first-in-class small-molecule inhibitor targeting PurF, the first enzyme in the mycobacterial de novo purine biosynthesis pathway. The lead candidate, JNJ-6640, exhibited nanomolar bactericidal activity in vitro. Comprehensive genetic and biochemical approaches confirmed that JNJ-6640 was highly selective for mycobacterial PurF. Single-cell-level microscopy demonstrated a downstream effect on DNA replication. We determined the physiologically relevant concentrations of nucleobases in human and mouse lung tissue, showing that these levels were insufficient to salvage PurF inhibition. Indeed, proof-of-concept studies using a long-acting injectable formulation demonstrated the in vivo efficacy of the compound. Finally, we show that inclusion of JNJ-6640 could have a crucial role in improving current treatment regimens for drug-resistant tuberculosis. Together, we demonstrate that JNJ-6640 is a promising chemical lead and that targeting de novo purine biosynthesis represents a novel strategy for tuberculosis drug development.
Suggested Citation
Dirk A. Lamprecht & Richard J. Wall & Annelies Leemans & Barry Truebody & Joke Sprangers & Patricia Fiogbe & Cadi Davies & Jennefer Wetzel & Stijn Daems & William Pearson & Vanessa Pillay & Samantha S, 2025.
"Targeting de novo purine biosynthesis for tuberculosis treatment,"
Nature, Nature, vol. 644(8075), pages 214-220, August.
Handle:
RePEc:nat:nature:v:644:y:2025:i:8075:d:10.1038_s41586-025-09177-7
DOI: 10.1038/s41586-025-09177-7
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