Charge-Driven Self-Assembly of Cholesterol Surfactants into Biofunctional Nanodiscs with Antiviral Activity

Yanping  Long; Seyyed Mohammad Mousavifard; Xianfeng He; Roland R. Netz; Hesam Makki; Mathias Dimde; Chuanxiong Nie; Abhishek Kumar Singh; Rainer Haag

doi:10.1002/ange.202516207

Charge-Driven Self-Assembly of Cholesterol Surfactants into Biofunctional Nanodiscs with Antiviral Activity

Yanping Long, Seyyed Mohammad Mousavifard, Xianfeng He, Roland R. Netz, Hesam Makki, Mathias Dimde, Chuanxiong Nie, Abhishek Kumar Singh, Rainer Haag

Research output: Contribution to journal › Article › peer-review

Abstract

Self-assembly of lipid structures derived from amphiphilic molecules plays a crucial role in the development of biomimetic systems. Here we report a modular synthetic strategy for developing cholesteryl-oligo-glycerol-based surfactants with tunable head group functionalities ranging from nonionic to anionic. This approach enables the systematic incorporation of functional groups and thus precise control of surface charge and hydrophilicity. To investigate the influence of multivalent charges on supermolecular-assembly behavior, we compared three structurally cholesterol (CL) related surfactants: CL-4S, with four sulfate groups, CL-1S, with a single sulfate group, and CL-4OH, a nonionic analog with four hydroxyl groups. We then incorporated these surfactants into lipid bilayers of 1,2-dimyristoyl-sn-glycero-3-phosphocholine (DMPC) and cholesterol (CL) to study their behavior in membrane-like environments. Experimental, simulation, and theoretical studies demonstrated that the CL-4S formulation was able to convert lipid vesicles into nanodiscs, unlike CL-1S and CL-4OH, demonstrating the importance of adequate charges in supramolecular transition. Furthermore, both 1S-Vesicles (CL-1S based sulfated vesicles) and 4S-Nanodiscs (CL-4S based sulfated nanodiscs) showed inhibitory activity against herpes simplex virus-1 (HSV-1), indicating the potential of this multivalent supramolecular platform for antiviral applications.

Original language	English
Article number	e16207
Journal	Angewandte Chemie - International Edition
Early online date	13 Nov 2025
DOIs	https://doi.org/10.1002/ange.202516207
Publication status	E-pub ahead of print - 13 Nov 2025

Bibliographical note

Publisher Copyright:
© 2025 The Author(s). Angewandte Chemie International Edition published by Wiley-VCH GmbH.

Data Availability Statement

The data that support the findings of this study are available in the Supporting Information of this article.

Acknowledgements

The authors would also like to acknowledge the assistance of the research infrastructures SupraFAB and the Core Facility BioSupraMol supported by the DFG at Freie Universität Berlin (FU Berlin). The authors would also like to thank Ben Allen for language polishing.

Funding

This work is financially supported by ERC grant SupraVir – Project Number:101055416. Funded by the European Union. Views and opinions expressed are however those of the author(s) only and do not necessarily reflect those of the European Union or the European Research Council Executive Agency. Neither the European Union nor the granting authority can be held responsible for them. R. H. and R. N. acknowledge the Collaborative Research Center (CRC1449, Project ID 431232613) and the IRTG 2662 (No. 434130070) from Forschungsgemeinschaft (DFG, German Research Foundation). Y.L. acknowledges the support from China Scholarship Council (CSC). Open access funding enabled and organized by Projekt DEAL.

Keywords

Antiviral
Cholesterol
Nanodiscs
Oligo-glycerol Surfactants
Vesicles

ASJC Scopus subject areas

Catalysis
General Chemistry

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10.1002/ange.202516207Licence: CC BY

Cite this

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title = "Charge-Driven Self-Assembly of Cholesterol Surfactants into Biofunctional Nanodiscs with Antiviral Activity",

abstract = "Self-assembly of lipid structures derived from amphiphilic molecules plays a crucial role in the development of biomimetic systems. Here we report a modular synthetic strategy for developing cholesteryl-oligo-glycerol-based surfactants with tunable head group functionalities ranging from nonionic to anionic. This approach enables the systematic incorporation of functional groups and thus precise control of surface charge and hydrophilicity. To investigate the influence of multivalent charges on supermolecular-assembly behavior, we compared three structurally cholesterol (CL) related surfactants: CL-4S, with four sulfate groups, CL-1S, with a single sulfate group, and CL-4OH, a nonionic analog with four hydroxyl groups. We then incorporated these surfactants into lipid bilayers of 1,2-dimyristoyl-sn-glycero-3-phosphocholine (DMPC) and cholesterol (CL) to study their behavior in membrane-like environments. Experimental, simulation, and theoretical studies demonstrated that the CL-4S formulation was able to convert lipid vesicles into nanodiscs, unlike CL-1S and CL-4OH, demonstrating the importance of adequate charges in supramolecular transition. Furthermore, both 1S-Vesicles (CL-1S based sulfated vesicles) and 4S-Nanodiscs (CL-4S based sulfated nanodiscs) showed inhibitory activity against herpes simplex virus-1 (HSV-1), indicating the potential of this multivalent supramolecular platform for antiviral applications.",

keywords = "Antiviral, Cholesterol, Nanodiscs, Oligo-glycerol Surfactants, Vesicles",

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AU - Long, Yanping

AU - Mousavifard, Seyyed Mohammad

AU - He, Xianfeng

AU - Netz, Roland R.

AU - Makki, Hesam

AU - Dimde, Mathias

AU - Nie, Chuanxiong

AU - Singh, Abhishek Kumar

AU - Haag, Rainer

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AB - Self-assembly of lipid structures derived from amphiphilic molecules plays a crucial role in the development of biomimetic systems. Here we report a modular synthetic strategy for developing cholesteryl-oligo-glycerol-based surfactants with tunable head group functionalities ranging from nonionic to anionic. This approach enables the systematic incorporation of functional groups and thus precise control of surface charge and hydrophilicity. To investigate the influence of multivalent charges on supermolecular-assembly behavior, we compared three structurally cholesterol (CL) related surfactants: CL-4S, with four sulfate groups, CL-1S, with a single sulfate group, and CL-4OH, a nonionic analog with four hydroxyl groups. We then incorporated these surfactants into lipid bilayers of 1,2-dimyristoyl-sn-glycero-3-phosphocholine (DMPC) and cholesterol (CL) to study their behavior in membrane-like environments. Experimental, simulation, and theoretical studies demonstrated that the CL-4S formulation was able to convert lipid vesicles into nanodiscs, unlike CL-1S and CL-4OH, demonstrating the importance of adequate charges in supramolecular transition. Furthermore, both 1S-Vesicles (CL-1S based sulfated vesicles) and 4S-Nanodiscs (CL-4S based sulfated nanodiscs) showed inhibitory activity against herpes simplex virus-1 (HSV-1), indicating the potential of this multivalent supramolecular platform for antiviral applications.

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Charge-Driven Self-Assembly of Cholesterol Surfactants into Biofunctional Nanodiscs with Antiviral Activity

Abstract

Bibliographical note

Data Availability Statement

Acknowledgements

Funding

Keywords

ASJC Scopus subject areas

Access to Document

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