Your search keyword '"Jenny Legac"' showing total 2 results

1. Identification, in-vitro anti-plasmodial assessment and docking studies of series of tetrahydrobenzothieno[2,3-d]pyrimidine-acetamide molecular hybrids as potential antimalarial agents

Author

Kavita Pal, Md Kausar Raza, Jenny Legac, Abdur Rahman, Shoaib Manzoor, Souvik Bhattacharjee, Philip J. Rosenthal, and Nasimul Hoda

Subjects

Pharmacology, History, Polymers and Plastics, Organic Chemistry, Drug Discovery, General Medicine, Business and International Management, Industrial and Manufacturing Engineering

Abstract

Malaria is the most lethal parasitic infections in the world. To address the emergence of drug resistance to current antimalarials, here we report the design and synthesis of new series of tetrahydrobenzothieno[2,3-d]pyrimidine-acetamide hybrids by using multicomponent Petasis reaction as the key step and evaluated in vitro for their antimalarial effectiveness. The structure of all the compounds were confirmed by NMR Spectroscopy and mass spectrometry. Most of the compounds showed potent antimalarial activity against both CQ-sensitive (3D7) and CQ-resistant (W2) strains. A8, A5, and A4 are the most potent compounds that showed excellent anti-plasmodial activity against CQ-resistant strain in the nanomolar range with IC

Published

2022

2. Discovery of spirooxadiazoline oxindoles with dual-stage antimalarial activity

Author

Elizabeth A. Lopes, Raquel Mestre, Diana Fontinha, Jenny Legac, Jinxin V. Pei, Margarida Sanches-Vaz, Mattia Mori, Adele M. Lehane, Philip J. Rosenthal, Miguel Prudêncio, Maria M.M. Santos, and Repositório da Universidade de Lisboa

Subjects

Falciparum, Pharmacology, Dual-stage antiplasmodial activity, Malaria, Oxadiazoline, Resistance, Spirooxindoles, Animals, Humans, Mice, Oxindoles, Plasmodium falciparum, Antimalarials, Folic Acid Antagonists, Malaria, Falciparum, Organic Chemistry, General Medicine, Drug Discovery

Abstract

© 2022 Published by Elsevier Masson SAS., Malaria remains a prevalent infectious disease in developing countries. The first-line therapeutic options are based on combinations of fast-acting artemisinin derivatives and longer-acting synthetic drugs. However, the emergence of resistance to these first-line treatments represents a serious risk, and the discovery of new effective drugs is urgently required. For this reason, new antimalarial chemotypes with new mechanisms of action, and ideally with activity against multiple parasite stages, are needed. We report a new scaffold with dual-stage (blood and liver) antiplasmodial activity. Twenty-six spirooxadiazoline oxindoles were synthesized and screened against the erythrocytic stage of the human malaria parasite P. falciparum. The most active compounds were also tested against the liver-stage of the murine parasite P. berghei. Seven compounds emerged as dual-stage antimalarials, with IC50 values in the low micromolar range. Due to structural similarity with cipargamin, which is thought to inhibit blood-stage P. falciparum growth via inhibition of the Na + efflux pump PfATP4, we tested one of the most active compounds for anti-PfATP4 activity. Our results suggest that this target is not the primary target of spirooxadiazoline oxindoles and further studies are ongoing to identify the main mechanism of action of this scaffold., This work was supported by FCT (Fundação para a Ciência e a Tecnologia, I.P.) through iMed.ULisboa (UID/DTP/04138/2019), project PTDC/QUI-QOR/29664/2017, and PhD fellowship SFRH/BD/137544/2018 (E. Lopes). The NMR spectrometers are part of the National NMR Network (PTNMR) and are partially supported by Infrastructure Project Nº 022161 (co-financed by FEDER through COMPETE 2020, POCI and PORL and FCT through PIDDAC). Financial support from FCT and Portugal 2020 to the Portuguese Mass Spectrometry Network (Rede Nacional de Espectrometria de Massa – RNEM; LISBOA-01-0145-FEDER-402-022125) is also acknowledged.

Published

2021