Aescin Inhibits Herpes simplex Virus Type 1 Induced Membrane Fusion.

IF 2.1 4区 医学 Q3 CHEMISTRY, MEDICINAL
Planta medica Pub Date : 2024-10-23 DOI:10.1055/a-2441-6570
Diana Ulrich, Andreas Hensel, Nica Classen, Wali Hafezi, Jandirk Sendker, Joachim Kühn
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引用次数: 0

Abstract

Infections with Herpes simplex virus can cause severe ocular diseases and encephalitis. The present study aimed to investigate potential inhibitors of fusion between HSV-1 and the cellular membrane of the host cell. Fusion and entry of HSV-1 into the host cell is mimicked by a virus-free eukaryotic cell culture system by co-expression of the HSV-1 glycoproteins gD, gH, gL, and gB in presence of a gD receptor, resulting in excessive membrane fusion and polykaryocyte formation. A microscopic read-out was used for the screening of potential inhibitors, whereas luminometric quantification of cell-cell fusion was used in a reporter fusion assay. HSV-1 gB was tagged at its C-terminus with mCherry to express mCherry-gB in both assay systems for the visualization of the polykaryocyte formation. Reporter protein expression of SEAP was regulated by a Tet-On 3 G system. The saponin mixture aescin was identified as the specific inhibitor (IC50 7.4 µM, CC50 24.3 µM, SI 3.3) of membrane fusion. A plaque reduction assay on Vero cells reduced HSV-1 entry into cells and HSV-1 cell-to-cell spread significantly; 15 µM aescin decreased relative plaque counts to 41%, and 10 µM aescin resulted in a residual plaque size of 11% (HSV-1 17 syn+) and 2% (HSV-1 ANG path). Release of the HSV-1 progeny virus was reduced by one log step in the presence of 15 µM aescin. Virus particle integrity was mainly unaffected. Analytical investigation of aescin by UHPLC-MS revealed aescin IA and -IB and isoaescin IA and -IB as the main compounds with different functional activities. Aescin IA had the lowest IC50, the highest CC50, and an SI of > 4.6.

Aescin 抑制单纯疱疹病毒 1 型诱导的膜融合
单纯疱疹病毒感染可导致严重的眼部疾病和脑炎。本研究旨在调查 HSV-1 与宿主细胞膜融合的潜在抑制剂。在无病毒真核细胞培养系统中,通过在 gD 受体存在的情况下共同表达 HSV-1 糖蛋白 gD、gH、gL 和 gB,模拟 HSV-1 与宿主细胞的融合和进入,从而导致过度的膜融合和多核细胞形成。在筛选潜在抑制剂时使用了显微镜读数,而在报告融合试验中则使用了荧光定量细胞-细胞融合。在 HSV-1 gB 的 C 端用 mCherry 标记,以便在两种检测系统中表达 mCherry-gB,从而观察多核细胞的形成。SEAP 的报告蛋白表达受 Tet-On 3 G 系统调控。皂素混合物 aescin 被确定为膜融合的特异性抑制剂(IC50 7.4 µM,CC50 24.3 µM,SI 3.3)。在 Vero 细胞上进行的斑块减少试验显著减少了 HSV-1 进入细胞和 HSV-1 细胞间传播;15 µM 的芹菜苷将相对斑块数量减少到 41%,10 µM 的芹菜苷导致残留斑块大小减少 11%(HSV-1 17 syn+)和 2%(HSV-1 ANG path)。在 15 µM aescin 的作用下,HSV-1 亲代病毒的释放量减少了一个对数级。病毒颗粒的完整性主要未受影响。通过超高效液相色谱-质谱(UHPLC-MS)对头霉素的分析研究发现,头霉素 IA 和 -IB 以及异头霉素 IA 和 -IB 是具有不同功能活性的主要化合物。Aescin IA的IC50最低,CC50最高,SI大于4.6。
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来源期刊
Planta medica
Planta medica 医学-药学
CiteScore
5.10
自引率
3.70%
发文量
101
审稿时长
1.8 months
期刊介绍: Planta Medica is one of the leading international journals in the field of natural products – including marine organisms, fungi as well as micro-organisms – and medicinal plants. Planta Medica accepts original research papers, reviews, minireviews and perspectives from researchers worldwide. The journal publishes 18 issues per year. The following areas of medicinal plants and natural product research are covered: -Biological and Pharmacological Activities -Natural Product Chemistry & Analytical Studies -Pharmacokinetic Investigations -Formulation and Delivery Systems of Natural Products. The journal explicitly encourages the submission of chemically characterized extracts.
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