AI Article Synopsis
- Leishmaniasis is a neglected tropical disease affecting the poorest populations, caused by leishmanial parasites, and is difficult to treat due to limited medications and issues like drug resistance and cost.
- Research is focusing on developing new treatments using thiochromone compounds and studying their interaction with a specific target, N-myristoyl transferase (NMT), which is crucial for the parasite's growth in humans.
- The study employs advanced techniques like in-silico docking, toxicity prediction, and molecular dynamics simulations to evaluate the stability and binding patterns of the newly designed drugs.
Article Abstract
Leishmaniasis is a complex neglected tropical disease caused by various leishmanial parasites that primarily affect the world's poorest people. A limited number of standard medications are available for this disease that has been used for several decades, which have drawbacks such as resistance, higher cost, and patient compliance, making it difficult to reach the poor. The search for novel chemical entities to treat leishmaniasis has led to target-based scaffold research. Thiochromone moieties in conjugation with aromatic amino acids have been considered for the study, along with possible substitutions of the electron-withdrawing and electron-donating groups. N-myristoyl transferase (NMT) has been selected as the molecular target for the study responsible for protein-protein interaction and ribosylation of proteins necessary for the growth inside the human body of the parasite. The designed novel thiochromone analogs were docked against the selected leishmanial NMT using thein-silico methods, physicochemical and toxicity properties were predicted, and Structure-Activity Relationship was also established in-silico. Finally, a molecular dynamics simulation study for 100 ns gave an idea about the stability of the protein-ligand complex. A time frame analysis of each 10 ns confirmation was also studied to understand better the putative binding pattern designed analogs.
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| http://dx.doi.org/10.1016/j.jmgm.2022.108397 | DOI Listing |
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