Improved BM212 MmpL3 inhibitor analogue shows efficacy in acute murine model of tuberculosis infection.

PloS one, Volume: 8, Issue: 2
February 21, 2013
Giovanna Poce G, Robert H Bates RH, Salvatore Alfonso S, Martina Cocozza M, Giulio Cesare Porretta GC, Lluís Ballell L, Joaquin Rullas J, Fátima Ortega F, Alessandro De Logu A, Emanuela Agus E, Valentina La Rosa V, Maria Rosalia Pasca MR, Edda De Rossi E, Baojie Wae B, Scott G Franzblau SG, Fabrizio Manetti F, Maurizio Botta M, Mariangela Biava M

1,5-Diphenyl pyrroles were previously identified as a class of compounds endowed with high in vitro efficacy against M. tuberculosis. To improve the physical chemical properties and drug-like parameters of this class of compounds, a medicinal chemistry effort was undertaken. By selecting the optimal substitution patterns for the phenyl rings at N1 and C5 and by replacing the thiomorpholine moiety with a morpholine one, a new series of compounds was produced. The replacement of the sulfur with oxygen gave compounds with lower lipophilicity and improved in vitro microsomal stability. Moreover, since the parent compound of this family has been shown to target MmpL3, mycobacterial mutants resistant to two compounds have been isolated and characterized by sequencing the mmpL3 gene; all the mutants showed point mutations in this gene. The best compound identified to date was progressed to dose-response studies in an acute murine TB infection model. The resulting ED(99) of 49 mg/Kg is within the range of commonly employed tuberculosis drugs, demonstrating the potential of this chemical series. The in vitro and in vivo target validation evidence presented here adds further weight to MmpL3 as a druggable target of interest for anti-tubercular drug discovery.

Courtesy of the U.S. National Library of Medicine