Structure-based design of MptpB inhibitors that reduce multi-drug-resistant mycobacterium tuberculosis survival and infection burden in vivo

Cavet, Jennifer S.; Chakraborty, Ajanta; Fernandez, Paulina; Gutierrez, Maximiliano G.; Keiswirth, Barry N.; Kurepina, Natalia; Naranjo, Yandi; Park, Steven; Perlin, David S.; Pons Vallès, Miquel; Saville, Charis; Schnettger, Laura S.; Silva, Ana P. G.; Tabernero, Lydia; Thomas, Eric J.; Vickers, Clare F.

Structure-based design of MptpB inhibitors that reduce multi-drug-resistant mycobacterium tuberculosis survival and infection burden in vivo

Authors: Jennifer S. Cavet
Ajanta Chakraborty
Paulina Fernandez
Maximiliano G. Gutierrez
Barry N. Keiswirth
Natalia Kurepina
Yandi Naranjo
Steven Park
David S. Perlin
Miquel Pons Vallès
Charis Saville
Laura S. Schnettger
Ana P. G. Silva
Lydia Tabernero
Eric J. Thomas
Clare F. Vickers
Publication date: 27 September 2018
Publisher: 'American Chemical Society (ACS)'
Doi

Abstract

Mycobacterium tuberculosis protein-tyrosine-phosphatase B (MptpB) is a secreted virulence factor that subverts antimicrobial activity in the host. We report here the structure-based design of selective MptpB inhibitors that reduce survival of multidrug-resistant tuberculosis strains in macrophages and enhance killing efficacy by first-line antibiotics. Monotherapy with an orally bioavailable MptpB inhibitor reduces infection burden in acute and chronic guinea pig models and improves the overall pathology. Our findings provide a new paradigm for tuberculosis treatmen