Preventive treatment of coronavirus disease-2019 virus using coronavirus disease-2019-receptor-binding domain 1C aptamer by suppress the expression of angiotensin-converting enzyme 2 receptor.

IF 1.4 Q3 Pharmacology, Toxicology and Pharmaceutics

Journal of Advanced Pharmaceutical Technology & Research Pub Date : 2023-07-01 Epub Date: 2023-07-28 DOI:10.4103/JAPTR.JAPTR_117_23

Noor S Hameed, Inam Sameh Arif, Basma Talib Al-Sudani

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Abstract

The cause of the worldwide coronavirus disease-2019 (COVID-19) pandemic is the severe acute respiratory syndrome coronavirus-2 (SARS-CoV-2). It is known to employ the same entry portal as SARS-CoV, which is the type 1 transmembrane angiotensin-converting enzyme 2 (ACE2) receptor. The receptor-binding domain (RBD) is located on the spike S-protein's S1 subunit of the spike glycoprotein. The most important and effective therapy method is inhibiting the interaction between the ACE2 receptor and the S-spike RBD. An aptamer is a small, single-chain oligonucleotide that binds strongly to the target molecule. Recently, a CoV-2-RBD-1C aptamer-based system with a 51-base hairpin structure was discovered to have substantial binding affinity against the SARS-CoV-2RBD with similar binding sites at ACE. In the current study, we will study the aptamer's effect as a SARS-CoV-2 spike blocker and inhibit its ACE2 receptors' binding by studying the toxicity of aptamer for this cell line by calcein assay and the inhibition test of CoV-2-RBD-1C aptamers on spike RBD-ACE2 binding. The results show the half-maximum inhibitory concentration of CoV-2-RBD-1C aptamer is 0.08188 μM. The inhibition effect of CoV-2-RBD-1C aptamer on spike RBD-ACE2 binding was determined at half-maximal effective concentration of 0.5 μM concentration. The percentage of spike-ACE2 binding inhibition in A549-hACE2 cells in the D614G variant after 30 s was 77%. This percentage is higher than D614 and N501Y and equals 55% and 65%, respectively, at 0.15 μM of CoV-2-RBD-1C aptamer. The CoV-2-RBD-1C aptamer prevents virus entrance through spike inhibition, which results in a 90% reduction in spike D614 virus transduction at 1.28 μM. In conclusion, the CoV-2-RBD-1C aptamer might be an effective treatment against COVID-19 infection because it directly affects the virus by blocking the S-spike of SARS-CoV-2 and preventing ACE2 receptor binding.

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通过抑制血管紧张素转换酶2受体的表达，使用冠状病毒疾病2019-受体结合结构域1C适体预防性治疗冠状病毒疾病2019病毒。

2019年全球冠状病毒病（新冠肺炎）大流行的原因是严重急性呼吸综合征冠状病毒-2（SARS-CoV-2）。已知使用与SARS冠状病毒相同的入口，即1型跨膜血管紧张素转换酶2（ACE2）受体。受体结合域（RBD）位于刺突糖蛋白的刺突S蛋白的S1亚基上。最重要和有效的治疗方法是抑制ACE2受体和S刺突RBD之间的相互作用。适体是一种小的单链寡核苷酸，与靶分子紧密结合。最近，发现了一种具有51个碱基发夹结构的基于CoV-2-RBD-1C适体的系统对具有类似ACE结合位点的严重急性呼吸系统综合征冠状病毒2RBD具有显著的结合亲和力。在目前的研究中，我们将通过钙黄绿素分析和CoV-2-RBD-1C适体对刺突RBD-ACE2结合的抑制试验来研究适体作为严重急性呼吸系统综合征冠状病毒2型刺突阻断剂的作用，并通过研究适体对该细胞系的毒性来抑制其ACE2受体的结合。结果表明，CoV-2-RBD-1C适体的半数最大抑制浓度为0.08188μM。CoV-2-RBD-1C适体对刺突RBD-ACE2结合的抑制作用在0.5μM浓度的一半最大有效浓度下测定。30秒后，D614G变体中A549-hACE2细胞中刺突-ACE2结合抑制的百分比为77%。该百分比高于D614和N501Y，在0.15μM的CoV-2-RBD-1C适体下分别等于55%和65%。CoV-2-RBD-1C适体通过刺突抑制阻止病毒进入，这导致在1.28μM时刺突D614病毒转导减少90%。总之，CoV-2-RBD-1C适体可能是对抗新冠肺炎感染的有效治疗方法，因为它通过阻断SARS-CoV-2的S刺突和阻止ACE2受体结合直接影响病毒。

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来源期刊

Journal of Advanced Pharmaceutical Technology & Research PHARMACOLOGY & PHARMACY-

CiteScore

2.00

自引率

7.10%

发文量

审稿时长

20 weeks

期刊介绍： Journal of Advanced Pharmaceutical Technology & Research (JAPTR) is an Official Publication of Society of Pharmaceutical Education & Research™. It is an international journal published Quarterly. Journal of Advanced Pharmaceutical Technology & Research (JAPTR) is available in online and print version. It is a peer reviewed journal aiming to communicate high quality original research work, reviews, short communications, case report, Ethics Forum, Education Forum and Letter to editor that contribute significantly to further the scientific knowledge related to the field of Pharmacy i.e. Pharmaceutics, Pharmacology, Pharmacognosy, Pharmaceutical Chemistry. Articles with timely interest and newer research concepts will be given more preference.