Abstract
Introduction: Leishmaniasis is an endemic disease caused by the protozoan parasite Leishmania. Current treatments for the parasite are limited by cost, availability and drug resistance as the occurrence of leishmaniasis continues to be more prevalent. Sulfonamides are a class of compounds with medicinal properties which have been used to treat bacterial and parasitic disease via various pathways especially as antimetabolites for folic acid.
Methods: New derivatives of sulfonamide compounds were assessed for their impact on Leishmania cell viability and potential pathways for inhibition were evaluated. Leishmania tarentolae (ATCC Strain 30143) axenic promastigote cells were grown in brain heart infusion (BHI) medium and treated with varying concentrations of the new sulfonamide compounds. Light microscopy and viability tests were used to assess the cells with and without treatment. Discussion: A non-water soluble sulfonamide was determined to have 90-96% viability inhibition 24 hours after treatment with 100 μM final concentration. Because Leishmania are also autotrophs for folate precursors, the folic acid pathway was identified as a target for sulfonamide inhibition. When folic acid was added to untreated Leishmania, cell proliferation increased. A water soluble derivative of the inhibitory sulfonamide was synthesized and evaluated, resulting in less viability inhibition with a single dose (approximately 70% viability inhibition after 24 hours with 100 μM final concentration), but additive inhibition with multiple doses of the compound. Results: However, the potential mechanism of inhibition was different between the water-soluble and non-water soluble sulfonamides. The inhibitory effects and potential pathways of inhibition indicate that these compounds may be new treatments for this disease.Keywords: Leishmaniasis, Leishmania, sulfonamide, cellular inhibition, folic acid pathway, promastigote.
Graphical Abstract
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An Overview of Drugs for Multiple Targets and Variants of SARS-CoV-2 Through Artificial Intelligence, Machine Learning, Deep Learning, and Experimental Analysis
The emergence and rapid evolution of SARS-CoV-2 variants have posed significant challenges in the ongoing fight against the COVID-19 pandemic. The development of effective treatments for multiple viral targets and variants demands innovative approaches, including artificial intelligence (AI), machine learning (ML), and deep learning (DL) techniques. This special issue aims ...read more
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