Facile mixing of phospholipids promotes self-assembly of low-molecular-weight biodegradable block co-polymers into functional vesicular architectures
In this work, we have used low-molecular-weight (PEG12-b-PCL6, PEG12-b-PCL9 or PEG16-b-PLA38; MW, 1.25–3.45 kDa) biodegradable block co-polymers to construct nano- and micron-scaled hybrid (polymer/lipid) vesicles, by solvent dispersion and electroformation methods, respectively. The hybrid vesicles...
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sg-ntu-dr.10356-1459382023-07-14T15:48:02Z Facile mixing of phospholipids promotes self-assembly of low-molecular-weight biodegradable block co-polymers into functional vesicular architectures Khan, Amit Kumar Ho, James Chin Shing Roy, Susmita Liedberg, Bo Nallani, Madhavan School of Materials Science and Engineering NTU Innovation Center ACM Biolabs Pte. Ltd. Centre for Biomimetic Sensor Science (CBSS) Engineering::Materials Self-assembly Polymer-lipid Hybrid In this work, we have used low-molecular-weight (PEG12-b-PCL6, PEG12-b-PCL9 or PEG16-b-PLA38; MW, 1.25–3.45 kDa) biodegradable block co-polymers to construct nano- and micron-scaled hybrid (polymer/lipid) vesicles, by solvent dispersion and electroformation methods, respectively. The hybrid vesicles exhibit physical properties (size, bilayer thickness and small molecule encapsulation) of a vesicular boundary, confirmed by cryogenic transmission electron microscopy, calcein leakage assay and dynamic light scattering. Importantly, we find that these low MW polymers, on their own, do not self-assemble into polymersomes at nano and micron scales. Using giant unilamellar vesicles (GUVs) model, their surface topographies are homogeneous, independent of cholesterol, suggesting more energetically favorable mixing of lipid and polymer. Despite this mixed topography with a bilayer thickness similar to that of a lipid bilayer, variation in surface topology is demonstrated using the interfacial sensitive phospholipase A2 (sPLA2). The biodegradable hybrid vesicles are less sensitive to the phospholipase digestion, reminiscent of PEGylated vesicles, and the degree of sensitivity is polymer-dependent, implying that the nano-scale surface topology can further be tuned by its chemical composition. Our results reveal and emphasize the role of phospholipids in promoting low MW polymers for spontaneous vesicular self-assembly, generating a functional hybrid lipid-polymer interface. Ministry of Education (MOE) Nanyang Technological University Published version The Academic Research Fund (AcRF) Tier 1 Grant supported this work. The authors would like to thank School of Materials Science and Engineering (MSE), Nanyang Technological University for the funding. 2021-01-14T09:24:27Z 2021-01-14T09:24:27Z 2020 Journal Article Khan, A. K., Ho, J. C. S., Roy, S., Liedberg, B., & Nallani, M. (2020). Facile mixing of phospholipids promotes self-assembly of low-molecular-weight biodegradable block co-polymers into functional vesicular architectures. Polymers, 12(4), 979-. doi:10.3390/polym12040979 2073-4360 https://hdl.handle.net/10356/145938 10.3390/polym12040979 32331448 4 12 en Polymers © 2020 The Authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (http://creativecommons.org/licenses/by/4.0/). application/pdf |
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Engineering::Materials Self-assembly Polymer-lipid Hybrid Khan, Amit Kumar Ho, James Chin Shing Roy, Susmita Liedberg, Bo Nallani, Madhavan Facile mixing of phospholipids promotes self-assembly of low-molecular-weight biodegradable block co-polymers into functional vesicular architectures |
| description |
In this work, we have used low-molecular-weight (PEG12-b-PCL6, PEG12-b-PCL9 or PEG16-b-PLA38; MW, 1.25–3.45 kDa) biodegradable block co-polymers to construct nano- and micron-scaled hybrid (polymer/lipid) vesicles, by solvent dispersion and electroformation methods, respectively. The hybrid vesicles exhibit physical properties (size, bilayer thickness and small molecule encapsulation) of a vesicular boundary, confirmed by cryogenic transmission electron microscopy, calcein leakage assay and dynamic light scattering. Importantly, we find that these low MW polymers, on their own, do not self-assemble into polymersomes at nano and micron scales. Using giant unilamellar vesicles (GUVs) model, their surface topographies are homogeneous, independent of cholesterol, suggesting more energetically favorable mixing of lipid and polymer. Despite this mixed topography with a bilayer thickness similar to that of a lipid bilayer, variation in surface topology is demonstrated using the interfacial sensitive phospholipase A2 (sPLA2). The biodegradable hybrid vesicles are less sensitive to the phospholipase digestion, reminiscent of PEGylated vesicles, and the degree of sensitivity is polymer-dependent, implying that the nano-scale surface topology can further be tuned by its chemical composition. Our results reveal and emphasize the role of phospholipids in promoting low MW polymers for spontaneous vesicular self-assembly, generating a functional hybrid lipid-polymer interface. |
| author2 |
School of Materials Science and Engineering |
| author_facet |
School of Materials Science and Engineering Khan, Amit Kumar Ho, James Chin Shing Roy, Susmita Liedberg, Bo Nallani, Madhavan |
| format |
Article |
| author |
Khan, Amit Kumar Ho, James Chin Shing Roy, Susmita Liedberg, Bo Nallani, Madhavan |
| author_sort |
Khan, Amit Kumar |
| title |
Facile mixing of phospholipids promotes self-assembly of low-molecular-weight biodegradable block co-polymers into functional vesicular architectures |
| title_short |
Facile mixing of phospholipids promotes self-assembly of low-molecular-weight biodegradable block co-polymers into functional vesicular architectures |
| title_full |
Facile mixing of phospholipids promotes self-assembly of low-molecular-weight biodegradable block co-polymers into functional vesicular architectures |
| title_fullStr |
Facile mixing of phospholipids promotes self-assembly of low-molecular-weight biodegradable block co-polymers into functional vesicular architectures |
| title_full_unstemmed |
Facile mixing of phospholipids promotes self-assembly of low-molecular-weight biodegradable block co-polymers into functional vesicular architectures |
| title_sort |
facile mixing of phospholipids promotes self-assembly of low-molecular-weight biodegradable block co-polymers into functional vesicular architectures |
| publishDate |
2021 |
| url |
https://hdl.handle.net/10356/145938 |
| _version_ |
1772827690385014784 |