Neural cell membrane-coated DNA nanogels as a potential target-specific drug delivery tool for the central nervous system
A major bottleneck in drug/gene delivery to enhance tissue regeneration after injuries is to achieve targeted delivery to the cells of interest. Unfortunately, we have not been able to attain effective targeted drug delivery in tissues due to the lack of efficient delivery platforms. Since specific...
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sg-ntu-dr.10356-1708982023-10-11T06:17:54Z Neural cell membrane-coated DNA nanogels as a potential target-specific drug delivery tool for the central nervous system Lin, Po Hen Huang, Chongquan Hu, Yuwei Ramanujam, Vaibavi Srirangam Lee, Ee-Soo Singh, Ruby Milbreta, Ulla Cheung, Christine Ying, Jackie Y. Chew, Sing Yian School of Chemistry, Chemical Engineering and Biotechnology Interdisciplinary Graduate School (IGS) Lee Kong Chian School of Medicine (LKCMedicine) School of Materials Science and Engineering Institute of Materials Research and Engineering, A*STAR Neuroscience@ NTU Engineering::Bioengineering Engineering::Nanotechnology Engineering::Nuclear engineering Engineering::Materials::Biomaterials Neural Cell Membrane Coating Nanogel RNA Delivery A major bottleneck in drug/gene delivery to enhance tissue regeneration after injuries is to achieve targeted delivery to the cells of interest. Unfortunately, we have not been able to attain effective targeted drug delivery in tissues due to the lack of efficient delivery platforms. Since specific cell-cell interactions exist to impart the unique structure and functionality of tissues and organs, we hypothesize that such specific cellular interactions may also be harnessed for drug delivery applications in the form of cell membrane coatings. Here, we employed neural cell-derived membrane coating technique on DNA nanogels to improve target specificity. The efficacy of neural cell membrane-coated DNA nanogels (NCM-nanogels) was demonstrated by using four types of cell membranes derived from the central nervous system (CNS), namely, astrocytes, microglia, cortical neurons, and oligodendrocyte progenitor cells (OPCs). A successful coating of NCMs over DNA nanogels was confirmed by dynamic light scattering, zeta potential measurements and transmission electron microscopy. Subsequently, an overall improvement in cellular uptake of NCM-nanogels over uncoated DNA nanogels (p < 0.005) was seen. Additionally, we observed a selective uptake of OPC membrane-coated DNA nanogels (NCM-O mem) by oligodendrocytes over other cell types both in vitro and in vivo. Our quantitative polymerase chain reaction (qPCR) results also showed selective and effective gene knockdown capacity of NCM-O mem for OPC transfection. The findings in this work may be beneficial for future drug delivery applications targeted at the CNS. Ministry of Education (MOE) National Research Foundation (NRF) This work was supported by the Ministry of Education under its Tier 1 (RG37/20) and Tier 2 (Award number: MOE-T2EP30220-0002) grants, the National Research Foundation, Singapore, under its IntraCREATE Thematic Grant (Award number: NRF2019-THE002-0001), and by the Health and Biomedical Sciences Industry Alignment Fund Pre-Positioning (IAF-PP) (Grant No. H20C6a0034), Singapore. Y. H. acknowledges the support by Career Development Fund (CDF, C210112014), and SERC Central Research Fund (CRF, UIBR, KIMR220901aSERCRF), A*STAR, Singapore. Goat anti-rat P75 antibody was kindly provided by Rajkumar Sridharan and Lik-Wei Wong, from Department of Physiology, Yong Loo Lin School of Medicine, National University of Singapore, Singapore. 2023-10-11T06:17:53Z 2023-10-11T06:17:53Z 2023 Journal Article Lin, P. H., Huang, C., Hu, Y., Ramanujam, V. S., Lee, E., Singh, R., Milbreta, U., Cheung, C., Ying, J. Y. & Chew, S. Y. (2023). Neural cell membrane-coated DNA nanogels as a potential target-specific drug delivery tool for the central nervous system. Biomaterials, 302, 122325-. https://dx.doi.org/10.1016/j.biomaterials.2023.122325 0142-9612 https://hdl.handle.net/10356/170898 10.1016/j.biomaterials.2023.122325 302 122325 en MOE-T2EP30220-0002 RG37/20 NRF2019-THE002-0001 H20C6a0034 CDF-C210112014 CRF/UIBR/KIMR220901aSERCRF Biomaterials © 2023 Elsevier Ltd. All rights reserved. |
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Engineering::Bioengineering Engineering::Nanotechnology Engineering::Nuclear engineering Engineering::Materials::Biomaterials Neural Cell Membrane Coating Nanogel RNA Delivery |
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Engineering::Bioengineering Engineering::Nanotechnology Engineering::Nuclear engineering Engineering::Materials::Biomaterials Neural Cell Membrane Coating Nanogel RNA Delivery Lin, Po Hen Huang, Chongquan Hu, Yuwei Ramanujam, Vaibavi Srirangam Lee, Ee-Soo Singh, Ruby Milbreta, Ulla Cheung, Christine Ying, Jackie Y. Chew, Sing Yian Neural cell membrane-coated DNA nanogels as a potential target-specific drug delivery tool for the central nervous system |
| description |
A major bottleneck in drug/gene delivery to enhance tissue regeneration after injuries is to achieve targeted delivery to the cells of interest. Unfortunately, we have not been able to attain effective targeted drug delivery in tissues due to the lack of efficient delivery platforms. Since specific cell-cell interactions exist to impart the unique structure and functionality of tissues and organs, we hypothesize that such specific cellular interactions may also be harnessed for drug delivery applications in the form of cell membrane coatings. Here, we employed neural cell-derived membrane coating technique on DNA nanogels to improve target specificity. The efficacy of neural cell membrane-coated DNA nanogels (NCM-nanogels) was demonstrated by using four types of cell membranes derived from the central nervous system (CNS), namely, astrocytes, microglia, cortical neurons, and oligodendrocyte progenitor cells (OPCs). A successful coating of NCMs over DNA nanogels was confirmed by dynamic light scattering, zeta potential measurements and transmission electron microscopy. Subsequently, an overall improvement in cellular uptake of NCM-nanogels over uncoated DNA nanogels (p < 0.005) was seen. Additionally, we observed a selective uptake of OPC membrane-coated DNA nanogels (NCM-O mem) by oligodendrocytes over other cell types both in vitro and in vivo. Our quantitative polymerase chain reaction (qPCR) results also showed selective and effective gene knockdown capacity of NCM-O mem for OPC transfection. The findings in this work may be beneficial for future drug delivery applications targeted at the CNS. |
| author2 |
School of Chemistry, Chemical Engineering and Biotechnology |
| author_facet |
School of Chemistry, Chemical Engineering and Biotechnology Lin, Po Hen Huang, Chongquan Hu, Yuwei Ramanujam, Vaibavi Srirangam Lee, Ee-Soo Singh, Ruby Milbreta, Ulla Cheung, Christine Ying, Jackie Y. Chew, Sing Yian |
| format |
Article |
| author |
Lin, Po Hen Huang, Chongquan Hu, Yuwei Ramanujam, Vaibavi Srirangam Lee, Ee-Soo Singh, Ruby Milbreta, Ulla Cheung, Christine Ying, Jackie Y. Chew, Sing Yian |
| author_sort |
Lin, Po Hen |
| title |
Neural cell membrane-coated DNA nanogels as a potential target-specific drug delivery tool for the central nervous system |
| title_short |
Neural cell membrane-coated DNA nanogels as a potential target-specific drug delivery tool for the central nervous system |
| title_full |
Neural cell membrane-coated DNA nanogels as a potential target-specific drug delivery tool for the central nervous system |
| title_fullStr |
Neural cell membrane-coated DNA nanogels as a potential target-specific drug delivery tool for the central nervous system |
| title_full_unstemmed |
Neural cell membrane-coated DNA nanogels as a potential target-specific drug delivery tool for the central nervous system |
| title_sort |
neural cell membrane-coated dna nanogels as a potential target-specific drug delivery tool for the central nervous system |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/170898 |
| _version_ |
1781793867960418304 |