pbtz169 has been researched along with bedaquiline* in 3 studies
2 review(s) available for pbtz169 and bedaquiline
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Tuberculosis drug discovery: Progression and future interventions in the wake of emerging resistance.
The emergence of drug resistance continues to afflict TB control where drug resistant strains have become a global health concern. Contrary to drug-sensitive TB, the treatment of MDR/XDR-TB is more complicated requiring the administration of second-line drugs that are inefficient than the first line drugs and are associated with greater side effects. The emergence of drug resistant Mtb strains had coincided with an innovation void in the field of drug discovery of anti-mycobacterials. However, the approval of bedaquiline and delamanid recently for use in MDR/XDR-TB has given an impetus to the TB drug discovery. The review discusses the drug discovery efforts in the field of tuberculosis with a focus on the strategies adopted and challenges confronted by TB research community. Here, we discuss the diverse clinical candidates in the current TB drug discovery pipeline. There is an urgent need to combat the current TB menace through multidisciplinary approaches and strategies making use of the recent advances in understanding the molecular biology and pathogenesis of Mtb. The review highlights the recent advances in drug discovery, with the host directed therapeutics and nanoparticles-drug delivery coming up as important tools to fight tuberculosis in the future. Topics: Antitubercular Agents; Diarylquinolines; Drug Therapy, Combination; Ethambutol; Extensively Drug-Resistant Tuberculosis; Humans; Isoniazid; Mycobacterium tuberculosis; Nitroimidazoles; Oxazoles; Pyrazinamide; Rifampin | 2022 |
Challenges facing the drug discovery pipeline for non-tuberculous mycobacteria.
Non-tuberculous mycobacteria (NTM) infections are increasingly being reported worldwide. They are a major concern for healthcare professionals for multiple reasons, ranging from the intrinsic resistance of NTM to most conventionally utilized antimicrobials to inharmonious diagnostic criteria utilized for evaluation of NTM-infected patients, leading to high morbidity. In this review, we highlight the paucity of drugs having potent anti-NTM activity amongst the new antimicrobials currently under various stages of development for anti-tubercular activity and issue a call for the establishment of a concerted dedicated drug discovery pipeline targeting NTM. Topics: Adamantane; Aminopyridines; Anti-Bacterial Agents; Azepines; Benzamides; Clinical Trials as Topic; Diarylquinolines; Drug Discovery; Ethylenediamines; Fluoroquinolones; Humans; Minocycline; Mycobacterium Infections, Nontuberculous; Nitroimidazoles; Nontuberculous Mycobacteria; Oxazoles; Piperazines; Spiro Compounds; Thiazines; Tigecycline; Uridine | 2016 |
1 other study(ies) available for pbtz169 and bedaquiline
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Mode of Action of Clofazimine and Combination Therapy with Benzothiazinones against Mycobacterium tuberculosis.
Clofazimine (CZM) is an antileprosy drug that was recently repurposed for treatment of multidrug-resistant tuberculosis. In Mycobacterium tuberculosis, CZM appears to act as a prodrug, which is reduced by NADH dehydrogenase (NDH-2), to release reactive oxygen species upon reoxidation by O2. CZM presumably competes with menaquinone (MK-4), a key cofactor in the mycobacterial electron transfer chain, for its reduction by NDH-2. We studied the effect of MK-4 supplementation on the activity of CZM against M. tuberculosis and found direct competition between CZM and MK-4 for the cidal effect of CZM, against nonreplicating and actively growing bacteria, as MK-4 supplementation blocked the drug's activity against nonreplicating bacteria. We demonstrated that CZM, like bedaquiline, is synergistic in vitro with benzothiazinones such as 2-piperazino-benzothiazinone 169 (PBTZ169), and this synergy also occurs against nonreplicating bacteria. The synergy between CZM and PBTZ169 was lost in an MK-4-rich medium, indicating that MK-4 is the probable link between their activities. The efficacy of the dual combination of CZM and PBTZ169 was tested in vivo, where a great reduction in bacterial load was obtained in a murine model of chronic tuberculosis. Taken together, these data confirm the potential of CZM in association with PBTZ169 as the basis for a new regimen against drug-resistant strains of M. tuberculosis. Topics: Animals; Antitubercular Agents; Clofazimine; Diarylquinolines; Drug Therapy, Combination; Female; Mice; Mice, Inbred BALB C; Mycobacterium tuberculosis; Piperazines; Thiazines; Tuberculosis, Multidrug-Resistant; Vitamin K 2 | 2015 |