Four diterpenes identified in silico were isolated from Hyptidinae and demonstrated in vitro activity against Mycobacterium tuberculosis.

Plants of Hyptidinae subtribe (Lamiaceae - family), as Mesosphaerum sidifolium, are a source of bioactive molecules. In the search for new drug candidates, we perform chemical characterization of diterpenes isolated from the aerial parts of M. sidifolium was carried out with uni- and bidimensional NMR spectral data, and evaluate in silico through the construction of a predictive model followed by in vitro testing Mycobacterium tuberculosis and Mycobacterium smegmatis. Resulted in the isolation of four components: Pomiferin D (1), Salviol (2), Pomiferin E (3) and 2α-hydroxysugiol (4), as well as two phenolic compounds, rosmarinic and caffeic acids. In silico model identified 48 diterpenes likely to have biological activity against M. tuberculosis. The diterpenes isolated were tested in vitro against M. tuberculosis demonstrating MIC = 125 µM for 4 and 1, while 2 and 3 -MIC = 250 µM. These compounds did not show biological activity at these concentrations for M. smegmatis.

Effects of tafenoquine against active, dormant and resistant Mycobacterium tuberculosis.

Antimalarial drugs have been suggested as promising scaffolds with anti-tubercular activities. In this work, we demonstrated, for the first time, the effectiveness of tafenoquine against mycobacteria. Firstly, tafenoquine inhibited the growth of Mycobacterium smegmatis and Mycobacterium tuberculosis with lower MICs values as compared to other antimalarial drugs, such as mefloquine, chloroquine, and primaquine. Importantly, tafenoquine was active against three multi-drug resistant strains of M. tuberculosis with MIC values similar to pan-sensitive strains, suggesting that tafenoquine is capable of evading the major mechanisms of resistance found in drug-resistant clinical isolates of M. tuberculosis. Importantly, tafenoquine displayed a synergistic effect when combined with mefloquine. In addition, tafenoquine displayed an improved activity compared to the groups treated with both isoniazid and rifampicin in the six-week nutrient starved M. tuberculosis cultures. This finding suggests that further investigations of tafenoquine against dormant mycobacteria are worth pursuing. Moreover, different concentrations of tafenoquine ranging from 1.25 to 80 µM displayed different effects against M. tuberculosis, from moderate (reduction of a 1.8 log CFU/mL) to potent bactericidal (reduction of a 4.2 log CFU/mL) activities. Tafenoquine may represent a hit for further drug optimization and for future clinical development as a new anti-mycobacterial agent, especially in cases of resistant and/or dormant forms of tuberculosis.