02986nas a2200313   4500000000100000008004100001260003800042653002200080653003300102653002200135653002300157100004200180700003400222700004100256700002400297700002000321700002700341700003400368700002700402700003100429700001600460700001800476700002800494700002300522700003100545245012200576856005900698520191500757       2025                            d  bAmerican Society for Microbiology10aleprosy treatment10amycobacterial ETC inhibitors10aMultidrug therapy10aSynergistic effect1 aGabriel Henrique Fioroni Furlanhttps 1 aDiego Augusto Souza Oliveira 1 aDaniele Ferreira De Faria Bertoluci 1 aTiago Araujo Gomes 1 aJonatas Perico 1 aBruna Leticia Martins 1 aDejair Caetano Do Nascimento 1 aSuzana Madeira Diorio 1 aCleverson Teixeira Soares 1 aShuai Wang 1 aTianyu Zhang 1 aPatricia Sammarco Rosa 1 aFlavio Alves Lara 1 a Ana Carla Pereira Latini 00aAssessment of TB47 as a potential novel therapeutic agent: in vitro and in vivo efficacy against Mycobacterium leprae  uhttps://journals.asm.org/doi/epub/10.1128/aac.00318-253 a<p>Leprosy is a chronic infectious disease caused by&nbsp;<em>Mycobacterium leprae</em>&nbsp;and&nbsp;<em>Mycobacterium lepromatosis</em>. The treatment typically involves multidrug therapy comprising dapsone, clofazimine, and rifampicin for 6–12 months. TB47 is a new inhibitor of the mycobacterial electron transport chain (ETC), disrupting ATP production in bacteria. This study investigated the&nbsp;<em>in vitro</em>&nbsp;and&nbsp;<em>in vivo</em>&nbsp;antimicrobial effects of TB47 on&nbsp;<em>M. leprae. In vitro</em>&nbsp;assays employed IDE8 tick cells infected with&nbsp;<em>M. leprae</em>, showing that after 30 days of infection, 5 ng/mL of TB47 treatment significantly impaired bacillary growth. For&nbsp;<em>in vivo</em>&nbsp;assays, BALB/c mice were infected with&nbsp;<em>M. leprae</em>&nbsp;and subjected to different treatments with varying doses of TB47 combined or not with clofazimine. Treatments were administered weekly for 90 days (13 times). The effects were assessed immediately after treatment, as well as at 120 and 210 days post-treatment. Results showed that 100 and 10 mg/kg of TB47 combined with 5 mg/kg clofazimine exhibited a bactericidal effect on&nbsp;<em>M. leprae</em>&nbsp;in all time points evaluated, in contrast with clofazimine monotherapy, for which the bactericidal effect was observed only 210 days post-treatment. TB47 monotherapy had a bacteriostatic effect immediately after treatment, but replication resumed at later evaluation points. Histopathological evaluation supported these findings. Combining dose-dependent TB47 with clofazimine showed an additive bacteriostatic and bactericidal effect on&nbsp;<em>M. leprae</em>, suggesting an advantageous pharmacokinetic and pharmacodynamic profile. Further research into mycobacterial ETC inhibitors could significantly impact leprosy management by providing more effective and shorter treatment options.</p>