Mikuličić Snježana, Massenberg Annika, Döring Tatjana, Brandenburg Klaus, Lang Thorsten, Florin Luise
Institute for Virology, University Medical Center of the Johannes Gutenberg-University Mainz, Mainz, Germany.
University of Bonn, Faculty of Mathematics and Natural Sciences, Life & Medical Sciences (LIMES) Institute, Bonn, Germany.
Antimicrob Agents Chemother. 2025 Feb 13;69(2):e0157524. doi: 10.1128/aac.01575-24. Epub 2025 Jan 14.
Peptide-based therapeutics are gaining attention for their potential to target various viral and host cell factors. One notable example is Pep19-2.5 (Aspidasept), a synthetic anti-lipopolysaccharide peptide that binds to heparan sulfate proteoglycans (HSPGs) and has demonstrated inhibitory effects against certain bacteria and enveloped viruses. This study explores, for the first time, the effectiveness of Pep19-2.5 against a non-enveloped virus, using pseudoviruses of the oncogenic human papillomavirus type 16 (HPV16) as a model. HPV16 infects epithelial cells of the skin and mucosa by using multiple cell surface receptors with initial attachment to HSPGs. Pharmacological inhibition with Pep19-2.5 in HeLa and HaCaT cells resulted in a concentration-dependent reduction of HPV16 PsV infection, with near-complete blockade observed at higher concentrations. The half-maximal inhibitory concentration (IC) was determined to be 116 nM in HeLa cells and 183 nM in HaCaT cells, highlighting its potent antiviral activity. Our results demonstrate that Pep19-2.5 not only inhibits HPV16 PsV binding to the cell surface but also significantly reduces infection when administered post-binding. Imaging analyses revealed Pep19-2.5-dependent release of large cell-associated crowds of viral particles, suggesting interference with the transfer to secondary receptor molecules. This was corroborated by the effectiveness of Pep19-2.5 in an HSPG-negative cell line, indicating that the peptide disrupts virus binding to both primary and secondary interaction partners. Based on these findings, we propose that the antimicrobial effect of Pep19-2.5 is not limited to HSPG-dependent infections. Additionally, Pep19-2.5 may be a valuable tool for dissecting specific steps in the viral entry process.
基于肽的疗法因其靶向多种病毒和宿主细胞因子的潜力而受到关注。一个显著的例子是Pep19-2.5(天冬酰胺肽),一种合成的抗脂多糖肽,它与硫酸乙酰肝素蛋白聚糖(HSPG)结合,并已证明对某些细菌和包膜病毒具有抑制作用。本研究首次以致癌性人乳头瘤病毒16型(HPV16)的假病毒为模型,探索Pep19-2.5对非包膜病毒的有效性。HPV16通过使用多种细胞表面受体感染皮肤和粘膜的上皮细胞,最初附着于HSPG。在HeLa和HaCaT细胞中用Pep19-2.5进行药理抑制导致HPV16假病毒感染呈浓度依赖性降低,在较高浓度下观察到近乎完全的阻断。半数最大抑制浓度(IC)在HeLa细胞中测定为116 nM,在HaCaT细胞中为183 nM,突出了其强大的抗病毒活性。我们的结果表明,Pep19-2.5不仅抑制HPV16假病毒与细胞表面的结合,而且在结合后给药时也显著降低感染。成像分析显示,Pep19-2.5依赖的大量与细胞相关的病毒颗粒释放,表明对向二级受体分子转移的干扰。这在HSPG阴性细胞系中Pep19-2.5的有效性得到了证实,表明该肽破坏病毒与一级和二级相互作用伙伴的结合。基于这些发现,我们提出Pep19-2.5的抗菌作用不限于依赖HSPG的感染。此外,Pep19-2.5可能是剖析病毒进入过程中特定步骤的有价值工具。
