Antibacterial activity of new substituted 4-N-alkylated-2-trifluoromethyl-quinoline analogues against sensitive and resistant Mycobacterium tuberculosis strains.

OBJECTIVES: The emergence of resistant strain has aggravated the tuberculosis situation in the world, running out of control and hard to fight. We evaluate forty new quinoline analogues against sensitive and resistant Mycobacterium tuberculosis (Mtb). METHODS: The compounds were obtained via synthesis and evaluated against sensitive strain ATCC 27294. Selected compounds were evaluated against resistant strains SR 2571/0215 and T113/09, using the MABA method. The more active compounds were selected for their potential cytotoxic activity against human macrophage cells. RESULTS: Twenty-nine compounds displayed activity against sensitive strain, and thirteen were active against resistant strains. Against sensitive strain, the most promising compounds were 4c and 4d (MIC = 9 and 12 µM, respectively). Against resistant strains, the compounds 4a, 4d displayed the best results (MIC = 4 and 5 µM, respectively). The active compounds 4a, 4d, 6d, 7c, 8d, and 10d were non-cytotoxic to the host cells at concentrations near to the MIC. The non-cytotoxic compound 4d was the most potent against resistant and sensitive Mtb. CONCLUSION: These findings contribute to relevant information and perspectives in search of new bioactive compounds against sensitive and resistant TB. Resistant strains have turned tuberculosis a severe disease in the world.

In vitro Assessment of Camphor Hydrazone Derivatives as an Agent Against Leishmania amazonensis.

PURPOSE: Due to serious problems with the treatment of leishmaniasis all around the world, here is an urgent need in the search for new drugs that are more effective and safer for the treatment of the various forms of leishmaniasis. Actual therapy is limited and lacks sufficient efficacy due to incomplete elimination of the parasites form of patients. In this sense, we decided to evaluate, by first-time, a series of seventeen camphor hydrazone derivatives (2a-2p) against Leishmania amazonensis. METHODS: The compounds previously synthesized from camphor, an abundant natural compound, were evaluated in vitro against the extra and intracellular forms of Leishmania amazonensis, and murine macrophages. RESULTS: The majority of compounds, fourteen, displayed activity against the intracellular form of the parasite (amastigote) with IC50 values ranging from 21.78 to 58.23 µM, being six compounds active for both forms of the parasite. The compound 2i exhibited higher activity against the amastigote form with the value of IC50 (21.78 µM) close to standard utilized miltefosine (12.74 µM) and selectivity index of at least 6.9. Six compounds displayed activity against promastigote form of Leishmania amazonensis 2g, 2j-2n (41.17-69.59 µM), with the compound 2m being the more active with IC50 = 41.17 µM, 1.9 times less active than the reference drug (IC50 = 21.39 µM). The compound 2m was the more selective to this form, with a selectivity index of at least 3.6. All the compounds were non-cytotoxic to macrophages. CONCLUSIONS: Most compounds showed activity against amastigote form of Leishmania amazonensis, being that they were not cytotoxic to macrophage at the maximum tested concentration, showing the selective property of these compounds. Since amastigotes are the parasite stages that cause the disease in humans, these results highlight the antileishmanial effect of the compounds. This study indicates the possible development of candidates to leishmanicidal drugs from an abundant natural compound of easy access.