黑种草碱（，黑孜然籽）与严重急性呼吸综合征冠状病毒2（SARS-CoV-2）非结构蛋白3（nsp3）和宿主炎症蛋白对接，可能通过阻断肿瘤坏死因子受体1/2（TNFR 1/2）抑制病毒复制/转录以及FAS-肿瘤坏死因子（FAS-TNF）死亡信号。

Nigellidine (, black-cumin seed) docking to SARS CoV-2 nsp3 and host inflammatory proteins may inhibit viral replication/transcription and FAS-TNF death signal via TNFR 1/2 blocking.

作者信息

Banerjee Amrita, Kanwar Mehak, Das Mohapatra Pradeep Kr, Saso Luciano, Nicoletti Marcello, Maiti Smarajit

机构信息

Department of Biochemistry and Biotechnology, Cell and Molecular Therapeutics Laboratory, Oriental Institute of Science and Technology, Midnapore, India.

Department of Microbiology and, Director, Environment Conservation Centre, Raiganj University, Uttar Dinajpur, Raiganj, West Bengal, India.

出版信息

Nat Prod Res. 2022 Nov;36(22):5817-5822. doi: 10.1080/14786419.2021.2018430. Epub 2021 Dec 22.

DOI:10.1080/14786419.2021.2018430

PMID:34937447

Abstract

Tissue damage occurs in COVID-19 patients due to nsp3-induced Fas-FasL interaction/TNF-related apoptosis. Presently, possible therapeutic-drug, nigellidine against was screened by bioinformatics studies COVID-19. Atomic-Contact-Energy (ACE) and binding-blocking effects were explored of nigellidine ( L.) in the active/catalytic sites of viral-protein nsp3 and host inflammatory/apoptotic signaling-molecules Fas/TNF receptors TNFR1/TNFR2. A control binding/inhibition of Oseltamivir to influenza-virus neuraminidase was compared here. In AutoDock, Oseltamivir binding-energy (BE) and inhibition-constant (KI) was -4.12 kcal/mol and 959.02. The ACE values (PatchDock) were -167.02/-127.61/-124.91/-122.17/-54.81/-47.07. The nigellidine BE/KI with nsp3 was -7.61 and 2.66, respectively (ACE values were -221.40/-215.62/-113.28). Nigellidine blocked FAS dimer by binding with a BE value of -7.41 kcal/mol. Its strong affinities to TNFR1 (-6.81) and TNFR2 (-5.1) are demonstrated. Our present data suggest that nigellidine may significantly block the TNF-induced inflammatory/Fas-induced apoptotic death-signaling in comparison with a positive-control drug Oseltamivir. Further studies are necessary before proposing nigellidine as medical drug.

摘要

由于nsp3诱导的Fas-FasL相互作用/肿瘤坏死因子相关凋亡，新冠病毒感染患者会出现组织损伤。目前，通过生物信息学研究筛选了可能的治疗药物黑种草碱来对抗新冠病毒。研究了黑种草碱在病毒蛋白nsp3的活性/催化位点以及宿主炎症/凋亡信号分子Fas/肿瘤坏死因子受体TNFR1/TNFR2中的原子接触能量（ACE）和结合阻断作用。在此比较了奥司他韦对流感病毒神经氨酸酶的对照结合/抑制情况。在AutoDock中，奥司他韦的结合能（BE）和抑制常数（KI）分别为-4.12 kcal/mol和959.02。ACE值（PatchDock）为-167.02/-127.61/-124.91/-122.17/-54.81/-47.07。黑种草碱与nsp3的BE/KI分别为-7.61和2.66（ACE值为-221.40/-215.62/-113.28）。黑种草碱通过以-7.41 kcal/mol的BE值结合来阻断FAS二聚体。证明了其对TNFR1（-6.81）和TNFR2（-5.1）具有很强的亲和力。我们目前的数据表明，与阳性对照药物奥司他韦相比，黑种草碱可能会显著阻断肿瘤坏死因子诱导的炎症/Fas诱导的凋亡死亡信号。在将黑种草碱作为药物提出之前，还需要进一步研究。

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Nigellidine (, black-cumin seed) docking to SARS CoV-2 nsp3 and host inflammatory proteins may inhibit viral replication/transcription and FAS-TNF death signal via TNFR 1/2 blocking.黑种草碱（，黑孜然籽）与严重急性呼吸综合征冠状病毒2（SARS-CoV-2）非结构蛋白3（nsp3）和宿主炎症蛋白对接，可能通过阻断肿瘤坏死因子受体1/2（TNFR 1/2）抑制病毒复制/转录以及FAS-肿瘤坏死因子（FAS-TNF）死亡信号。

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黑种草碱（，黑孜然籽）与严重急性呼吸综合征冠状病毒2（SARS-CoV-2）非结构蛋白3（nsp3）和宿主炎症蛋白对接，可能通过阻断肿瘤坏死因子受体1/2（TNFR 1/2）抑制病毒复制/转录以及FAS-肿瘤坏死因子（FAS-TNF）死亡信号。

Nigellidine (, black-cumin seed) docking to SARS CoV-2 nsp3 and host inflammatory proteins may inhibit viral replication/transcription and FAS-TNF death signal via TNFR 1/2 blocking.

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