基于多肽的动态有效策略,可迅速应对新出现的令人担忧的 SARS-CoV-2 变异体

Pharmaceuticals Pub Date : 2024-07-04 DOI:10.3390/ph17070891
M. Murdocca, I. Romeo, Gennaro Citro, A. Latini, F. Centofanti, A. Bugatti, F. Caccuri, Arnaldo Caruso, F. Ortuso, Stefano Alcaro, Federica Sangiuolo, Giuseppe Novelli
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摘要

基于 SARS-CoV-2 全部遗传密码测序的基因组监测包括监测和研究病毒和细菌等致病生物的基因变化和变异。通过追踪病毒,可以防止流行病在社区传播,确保 "精准公共卫生 "战略。我们采用了一种基于多肽的设计,以提供一种有效的策略,能够动态、及时地对抗任何新出现的令人担忧的病毒变种,从而在早期阶段影响大流行的结果,而等待生产抗变种特异性疫苗则需要较长的时间。抑制严重急性呼吸系统综合征冠状病毒 2(SARS-CoV-2)的受体结合域(RBD)与细胞受体之一(DPP4)之间的相互作用是防止病毒进入人体细胞的一种令人感兴趣的治疗方法。在为此目的开发的其他方式中,肽无疑具有独特的优势,包括易于合成、血清稳定、免疫原性和毒性低以及生产和销售链成本低。在这里,我们根据细胞二肽基肽酶 4(DPP4)序列重新排列了以前发现的一种肽,获得了一种有效的新抑制剂,DPP4 是一种已知能结合病毒 RBD-SPIKE 结构域的无处不在的膜蛋白。这种新型多肽(被命名为 DPP4-derived)被视为一种内源性 "药物",能够以高浓度的亲和力靶向最新测试的变种,在人类 Calu-3 细胞中进行的体外测试显示,它能将 VSV* DG-Fluc 伪病毒 Omicron 的感染能力降低达 14%。表面等离子体共振(SPR)证实了新的 DPP4 衍生肽与 Omicron 变体 RBD 的结合亲和力。
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A Dynamic and Effective Peptide-Based Strategy for Promptly Addressing Emerging SARS-CoV-2 Variants of Concern
Genomic surveillance based on sequencing the entire genetic code of SARS-CoV-2 involves monitoring and studying genetic changes and variations in disease-causing organisms such as viruses and bacteria. By tracing the virus, it is possible to prevent epidemic spread in the community, ensuring a ‘precision public health’ strategy. A peptide-based design was applied to provide an efficacious strategy that is able to counteract any emerging viral variant of concern dynamically and promptly to affect the outcomes of a pandemic at an early stage while waiting for the production of the anti-variant-specific vaccine, which require longer times. The inhibition of the interaction between the receptor-binding domain (RBD) of the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) and one of the cellular receptors (DPP4) that its receptors routinely bind to infect human cells is an intriguing therapeutic approach to prevent the virus from entering human cells. Among the other modalities developed for this purpose, peptides surely offer unique advantages, including ease of synthesis, serum stability, low immunogenicity and toxicity, and small production and distribution chain costs. Here, we obtained a potent new inhibitor based on the rearrangement of a previously identified peptide that has been rationally designed on a cell dipeptidyl peptidase 4 (DPP4) sequence, a ubiquitous membrane protein known to bind the RBD-SPIKE domain of the virus. This novel peptide (named DPP4-derived), conceived as an endogenous “drug”, is capable of targeting the latest tested variants with a high affinity, reducing the VSV* DG-Fluc pseudovirus Omicron’s infection capacity by up to 14%, as revealed by in vitro testing in human Calu-3 cells. Surface plasmon resonance (SPR) confirmed the binding affinity of the new DPP4-derived peptide with Omicron variant RBD.
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