基于多样性导向合成的吲哚衍生的螺环和稠合小分子可杀死抗青蒿素的恶性疟原虫。

Diversity-oriented synthesis derived indole based spiro and fused small molecules kills artemisinin-resistant Plasmodium falciparum.

机构信息

Epigenetics & Human Disease Laboratory, Department of Life Sciences, Shiv Nadar University, Uttar Pradesh, NH-91, Tehsil-Dadri, Greater Noida, 201314, India.

Department of Chemistry, Shiv Nadar University, Uttar Pradesh, Tehsil-Dadri, Greater Noida, 201314, India.

出版信息

Malar J. 2021 Feb 17;20(1):100. doi: 10.1186/s12936-021-03632-2.

DOI:10.1186/s12936-021-03632-2

PMID:33596950

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7891021/

Abstract

BACKGROUND

Despite numerous efforts to eradicate the disease, malaria continues to remain one of the most dangerous infectious diseases plaguing the world. In the absence of any effective vaccines and with emerging drug resistance in the parasite against the majority of anti-malarial drugs, the search for new drugs is urgently needed for effective malaria treatment.

METHODS

The goal of the present study was to examine the compound library, based on indoles generated through diversity-oriented synthesis belonging to four different architecture, i.e., 1-aryltetrahydro/dihydro-β-carbolines and piperidine/pyrrolidine-fused indole derivatives, for their in vitro anti-plasmodial activity. Trifluoroacetic acid catalyzed transformation involving tryptamine and various aldehydes/ketones provided the library.

RESULTS

Among all the compounds screened, 1-aryltetrahydro-β-carbolines 2 and 3 displayed significant anti-plasmodial activity against both the artemisinin-sensitive and artemisinin-resistant strain of Plasmodium falciparum. It was observed that these compounds inhibited the overall parasite growth in intra-erythrocytic developmental cycle (IDC) via reactive oxygen species-mediated parasitic death and thus could be potential anti-malarial compounds.

CONCLUSION

Overall the compounds 2 and 3 identified in this study shows promising anti-plasmodial activity that can kill both artemisinin-sensitive and artemisinin-resistant strains of P. falciparum.

摘要

背景

尽管已经做出了许多努力来消灭这种疾病，但疟疾仍然是世界上最危险的传染病之一。由于缺乏有效的疫苗，而且寄生虫对大多数抗疟药物的耐药性不断出现，因此迫切需要寻找新的药物来有效治疗疟疾。

方法

本研究的目的是检测基于多样性导向合成的吲哚化合物库，这些化合物属于四种不同的结构，即 1-芳基四氢/二氢-β-咔啉和哌啶/吡咯烷并吲哚衍生物，以评估其体外抗疟活性。三氟乙酸催化的色胺与各种醛/酮的转化提供了该化合物库。

结果

在所筛选的所有化合物中，1-芳基四氢-β-咔啉 2 和 3 对青蒿素敏感和青蒿素耐药的恶性疟原虫均表现出显著的抗疟活性。研究发现，这些化合物通过活性氧介导的寄生虫死亡抑制红细胞内发育周期（IDC）中的寄生虫总体生长，因此可能是潜在的抗疟化合物。

结论

综上所述，本研究中鉴定的化合物 2 和 3 表现出有希望的抗疟活性，可杀死青蒿素敏感和青蒿素耐药的恶性疟原虫。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e4bd/7891021/d8cc5482b5dc/12936_2021_3632_Fig1_HTML.jpg

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基于多样性导向合成的吲哚衍生的螺环和稠合小分子可杀死抗青蒿素的恶性疟原虫。

Diversity-oriented synthesis derived indole based spiro and fused small molecules kills artemisinin-resistant Plasmodium falciparum.

机构信息

Epigenetics & Human Disease Laboratory, Department of Life Sciences, Shiv Nadar University, Uttar Pradesh, NH-91, Tehsil-Dadri, Greater Noida, 201314, India.

Department of Chemistry, Shiv Nadar University, Uttar Pradesh, Tehsil-Dadri, Greater Noida, 201314, India.