Reinvestigation of diphenylmethylpiperazine analogues of pyrazine as new class of Plasmodial cysteine protease inhibitors for the treatment of malaria†

IF 3.597 Q2 Pharmacology, Toxicology and Pharmaceutics MedChemComm Pub Date : 2024-02-01 DOI:10.1039/D3MD00490B
Hari Madhav, G. Srinivas Reddy, Zeba Rizvi, Ehtesham Jameel, Tarosh S. Patel, Abdur Rahman, Vikas Yadav, Sadaf Fatima, Fatima Heyat, Kavita Pal, Amisha Minju-OP, Naidu Subbarao, Souvik Bhattacharjee, Bharat C. Dixit, Puran Singh Sijwali and Nasimul Hoda
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Abstract

Malaria eradication is still a global challenge due to the lack of a broadly effective vaccine and the emergence of drug resistance to most of the currently available drugs as part of the mainline artemisinin-based combination therapy. A variety of experimental approaches are quite successful in identifying and synthesizing new promising pharmacophore hybrids with distinct mechanisms of action. Based on our recent findings, the current study demonstrates the reinvestigation of a series of diphenylmethylpiperazine and pyrazine-derived molecular hybrids. Pyrazine-derived molecular hybrids were screened to investigate the antiplasmodial activity on drug-susceptible Pf3D7 and drug-resistant PfW2 strains. The selected compounds were shown to be potent dual inhibitors of cysteine protease PfFP2 and PfFP3. Time-course parasitic development study demonstrated that compounds were able to arrest the growth of the parasite at the early trophozoite stage. The compounds did not show hemolysis of red blood cells and showed selectivity to the parasite compared with the mammalian Vero and A5489 cell lines. The study underlined HR5 and HR15 as a new class of Plasmodial falcipain inhibitors with an IC50 of 6.2 μM and 5.9 μM for PfFP2 and 6.8 μM and 6.4 μM for PfFP3, respectively. Both compounds have antimalarial efficacy with IC50 values of 3.05 μM and 2.80 μM for the Pf3D7 strain, and 4.35 μM and 3.39 μM for the PfW2 strain, respectively. Further structural optimization may turn them into potential Plasmodial falcipain inhibitors for malaria therapeutics.

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吡嗪的二苯基甲基哌嗪类似物作为治疗疟疾的新型质体半胱氨酸蛋白酶抑制剂的再研究
由于缺乏广泛有效的疫苗,以及目前作为青蒿素类复方疗法主要组成部分的大多数现有药物出现抗药性,根除疟疾仍然是一项全球性挑战。各种实验方法在鉴定和合成具有不同作用机制的新药源混合物方面取得了相当大的成功。根据我们最近的研究结果,本研究展示了对一系列二苯基甲基哌嗪和吡嗪衍生分子杂交体的再研究。研究人员筛选了吡嗪衍生分子杂交化合物,以研究它们对药物敏感的 Pf3D7 和耐药的 PfW2 菌株的抗疟活性。结果表明,所选化合物是半胱氨酸蛋白酶 PfFP2 和 PfFP3 的强效双重抑制剂。对寄生虫发育的时程研究表明,这些化合物能够在滋养体的早期阶段阻止寄生虫的生长。与哺乳动物的 Vero 和 A5489 细胞系相比,这些化合物不会溶解红细胞,而且对寄生虫具有选择性。该研究强调,HR5 和 HR15 是一类新型质体法氏蛋白酶抑制剂,对 PfFP2 的 IC50 分别为 6.2 μM 和 5.9 μM,对 PfFP3 的 IC50 分别为 6.8 μM 和 6.4 μM。这两种化合物都具有抗疟功效,对 Pf3D7 菌株的 IC50 值分别为 3.05 μM 和 2.80 μM,对 PfW2 菌株的 IC50 值分别为 4.35 μM 和 3.39 μM。进一步的结构优化可能会使它们成为潜在的质体法氏蛋白酶抑制剂,用于疟疾治疗。
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来源期刊
MedChemComm
MedChemComm BIOCHEMISTRY & MOLECULAR BIOLOGY-CHEMISTRY, MEDICINAL
CiteScore
4.70
自引率
0.00%
发文量
0
审稿时长
2.2 months
期刊介绍: Research and review articles in medicinal chemistry and related drug discovery science; the official journal of the European Federation for Medicinal Chemistry. In 2020, MedChemComm will change its name to RSC Medicinal Chemistry. Issue 12, 2019 will be the last issue as MedChemComm.
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Back cover Introduction to the themed collection in honour of Professor Christian Leumann Back cover Correction: computational design, synthesis, and assessment of 3-(4-(4-(1,3,4-oxadiazol-2-yl)-1H-imidazol-2-yl)phenyl)-1,2,4-oxadiazole derivatives as effective epidermal growth factor receptor inhibitors: a prospective strategy for anticancer therapy Introduction to the themed collection on ‘AI in Medicinal Chemistry’
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