用于灭活HIV-1和SARS-CoV-2包膜病毒的阳离子壳聚糖衍生物

Cationic Chitosan Derivatives for the Inactivation of HIV-1 and SARS-CoV-2 Enveloped Viruses.

作者信息

Cele Zamani E D, Matshe William, Mdlalose Lindani, Setshedi Katlego, Malatji Kanyane, Mkhwanazi Nompumelelo Prudence, Ntombela Thandokuhle, Balogun Mohammed

机构信息

Bio-Polymer Modification and Advanced Therapeutics Laboratory, Centre for Nanostructures and Advanced Materials, Council for Scientific and Industrial Research, Pretoria, Gauteng 0001, South Africa.

Emerging Research Area Platform, Next Generation Health Cluster, Council for Scientific and Industrial Research, Pretoria, Gauteng 0001, South Africa.

出版信息

ACS Omega. 2023 Aug 24;8(35):31714-31724. doi: 10.1021/acsomega.3c02143. eCollection 2023 Sep 5.

DOI:10.1021/acsomega.3c02143

PMID:37692209

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10483524/

Abstract

Cationic chitosan derivatives have been widely studied as potential antimicrobial agents. However, very little is known about their antiviral activity and mode of action against enveloped viruses. We investigated the ability of hydroxypropanoic acid-grafted chitosan (HPA-CS) and -(2-hydroxypropyl)-3-trimethylammonium chitosan chloride (HTCC) to inactivate enveloped viruses like the human immunodeficiency virus (HIV) and severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). The membrane-disrupting potential of the chitosan derivatives was initially investigated in a hemolysis assay. At 1.0 mg/mL, about 80% hemolysis was observed for the cationic chitosan derivatives, which was significant when compared to almost no membrane-disrupting activity by the unmodified chitosan. Virus inhibition was evaluated using the luciferase-based antiviral assay against the HIV-1 NL4.3 virus (400 TCID). The IC of HPA-CS was 4.109 mg/mL, while the HTCC showed a higher antiviral activity at an IC = 0.225 mg/mL. For practical application, the antiviral efficacies of the HTCC-coated and uncoated nonmedical masks were evaluated for SARS- CoV-2 virus capture. The coated masks demonstrated an almost excellent performance with nearly 100% viral inhibition compared to less than 60% inhibition by the uncoated masks. Molecular docking predictions suggest that the HTCC polymers interact with the viral spike protein, blocking the coronavirus interaction with the target host cell's angiotensin-converting enzyme 2 cellular receptors.

摘要

阳离子壳聚糖衍生物作为潜在的抗菌剂已被广泛研究。然而，关于它们对包膜病毒的抗病毒活性和作用方式却知之甚少。我们研究了羟基丙酸接枝壳聚糖（HPA-CS）和氯化-（2-羟丙基）-3-三甲基铵壳聚糖（HTCC）灭活包膜病毒如人类免疫缺陷病毒（HIV）和严重急性呼吸综合征冠状病毒2（SARS-CoV-2）的能力。首先在溶血试验中研究了壳聚糖衍生物的膜破坏潜力。在1.0mg/mL时，阳离子壳聚糖衍生物观察到约80%的溶血，与未修饰的壳聚糖几乎没有膜破坏活性相比，这是显著的。使用基于荧光素酶的抗病毒试验评估对HIV-1 NL4.3病毒（400个组织培养感染剂量）的病毒抑制作用。HPA-CS的半数抑制浓度（IC）为4.109mg/mL，而HTCC在IC = 0.225mg/mL时表现出更高的抗病毒活性。为了实际应用，评估了HTCC涂层和未涂层的非医用口罩对SARS-CoV-2病毒捕获的抗病毒效果。与未涂层口罩不到60%的抑制率相比，涂层口罩表现出几乎优异的性能，病毒抑制率接近100%。分子对接预测表明，HTCC聚合物与病毒刺突蛋白相互作用，阻断冠状病毒与靶宿主细胞的血管紧张素转换酶2细胞受体的相互作用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/fcd9/10483524/0d76a3f8ca49/ao3c02143_0002.jpg

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用于灭活HIV-1和SARS-CoV-2包膜病毒的阳离子壳聚糖衍生物

Cationic Chitosan Derivatives for the Inactivation of HIV-1 and SARS-CoV-2 Enveloped Viruses.

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