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Öğe Anti-amoebic activity of a series of benzofuran/benzothiophene derivatives against acanthamoeba castellanii belonging to the T4 genotype(2022) Akbar, Noor; El-Gamal, Mohammed, I; Zaraei, Seyed-Omar; Saeed, Balsam Qubais; Khan, Naveed Ahmed; Siddiqui, RuqaiyyahAims: To determine the anti-amoebic activity of benzofuran/benzothiophene-possessing compounds against Acanthamoeba castellanii of the T4 genotype. Method and results: A series of benzofuran/benzothiophene-possessing compounds were tested for their anti-amoebic activities, in particular, to block encystation and excystation processes in amoebae. Cytotoxicity of the compounds were evaluated using lactate dehydrogenase (LDH) assays. The amoebicidal assay results revealed significant anti-amoebic effects against A. castellanii. Compounds 1p and 1e showed the highest amoebicidal activity, eliminating 68% and 64% of the amoebae, respectively. These compounds remarkably repressed both the encystation and excystation processes in A. castellanii. Furthermore, the selected compounds presented minimal cytotoxic properties against human cells, as well as considerably abridged amoeba-mediated cytopathogenicity when compared to the amoebae alone. Conclusions: Our findings show that benzofuran/benzothiophene derivatives depict potent anti-amoebic activities; thus these compounds should be used as promising and novel agents in the rationale development of therapeutic strategies against Acanthamoeba infections.Öğe Imidazothiazole derivatives exhibited potent effects against brain-eating amoebae(MDPI, 2022) Siddiqui, Ruqaiyyah; El-Gamal, Mohammed, I; Boghossian, Anania; Saeed, Balsam Qubais; Oh, Chang-Hyun; Abdel-Maksoud, Mohammed S.; Alharbi, Ahmad M.; Alfahemi, Hasan; Khan, Naveed AhmedNaegleria fowleri (N. fowleri) is a free-living, unicellular, opportunistic protist responsible for the fatal central nervous system infection, primary amoebic meningoencephalitis (PAM). Given the increase in temperatures due to global warming and climate change, it is estimated that the cases of PAM are on the rise. However, there is a current lack of awareness and effective drugs, meaning there is an urgent need to develop new therapeutic drugs. In this study, the target compounds were synthesized and tested for their anti-amoebic properties against N. fowleri. Most compounds exhibited significant amoebicidal effects against N. fowleri; for example, 1h, 1j, and 1q reduced N. fowleri's viability to 15.14%, 17.45% and 28.78%, respectively. Furthermore, the majority of the compounds showed reductions in amoeba-mediated host death. Of interest are the compounds 1f, 1k, and 1v, as they were capable of reducing the amoeba-mediated host cell death to 52.3%, 51%, and 56.9% from 100%, respectively. Additionally, these compounds exhibit amoebicidal properties as well; they were found to decrease N. fowleri's viability to 26.41%, 27.39%, and 24.13% from 100%, respectively. Moreover, the MIC50 values for 1e, 1f, and 1h were determined to be 48.45 mu M, 60.87 mu M, and 50.96 mu M, respectively. Additionally, the majority of compounds were found to exhibit limited cytotoxicity, except for 1l, 1o, 1p, 1m, 1c, 1b, 1zb, 1z, 1y, and 1x, which exhibited negligible toxicity. It is anticipated that these compounds may be developed further as effective treatments against these devastating infections due to brain-eating amoebae.Öğe Potential anti-amoebic activity of sulfonate- and sulfamate-containing carboxamide derivatives against pathogenic Acanthamoeba castellanii belonging to the genotype T4(Elsevier Ireland Ltd, 2024) Akbar, Noor; Siddiqui, Ruqaiyyah; El-Gamal, Mohammed I.; Zaraei, Seyed-Omar; Saeed, Balsam Qubais; Alawfi, Bader Saleem; Khan, Naveed AhmedAcanthamoeba are ubiquitously distributed in the environment and can cause infection of the central nervous system as well a sight-threatening eye infection. Herein, the potential anti-amoebic activity of a series of sulfonate/sulfamate derivatives against pathogenic A. castellanii was evaluated. These compounds were tested using several assays namely amoebicidal, adhesion, excystation, cytotoxic, and cytopathogenicity. Amoebicidal assays revealed that the selected compounds reduced amoebae viability significantly (P < 0.05), and exhibited IC50 values at two-digit micromolar concentrations. Sulfamate derivatives 1j & 1k inhibited 50% of amoebae at 30.65 mu M and 27.21 mu M, respectively. The tested compounds blocked amoebae binding to host cells as well as inhibited amoebae excystation. Notably, the selected derivatives exhibited minimal human cell cytotoxicity but reduced parasite-mediated host cell damage. Overall, our study showed that sulfamate derivatives 1j & 1k have anti-amoebic potential and offer a promising avenue in the development of potential anti-amoebic drug candidates.