Capsule-like safe genetic vectors — cell-penetrating core – shell particles selectively release functional small RNA and entrap its encoding DNA
The breakthrough of genetic therapy is set back by the lack of suitable genetic vector systems. We present the development of permeability-tunable, capsule-like, polymeric, micron-sized, core–shell particles for delivery of recombinant nucleic acids into target cells. These particles were demonstrat...
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sg-ntu-dr.10356-1413422020-06-08T01:45:40Z Capsule-like safe genetic vectors — cell-penetrating core – shell particles selectively release functional small RNA and entrap its encoding DNA Yu, Han Pan, Matthew Houwen Evalin Trau, Dieter Patzel, Volker School of Chemical and Biomedical Engineering School of Biological Sciences Science::Biological sciences Gene Delivery Gene Silencing The breakthrough of genetic therapy is set back by the lack of suitable genetic vector systems. We present the development of permeability-tunable, capsule-like, polymeric, micron-sized, core–shell particles for delivery of recombinant nucleic acids into target cells. These particles were demonstrated to effectively release rod-shaped small hairpin RNA and to selectively retain the RNA-encoding DNA template, which was designed to form a bulky tripartite structure. Thus, they can serve as delivery vectors preloaded with cargo RNA or alternatively as RNA-producing micro-bioreactors. The internalization of particles by human tissue culture cells inversely correlated with particle size and with the cell to particle ratio, although at a higher than stoichiometric excess of particles over cells, cell viability was impaired. Among primary human peripheral blood mononuclear cells, up to 50% of the monocytes displayed positive uptake of particles. Finally, these particles efficiently delivered siRNA into HEK293T cells triggering functional knockdown of the target gene lamin A/C. Particle-mediated knockdown was superior to that observed after conventional siRNA delivery via lipofection. Core–shell particles protect encapsulated nucleic acids from degradation and target cell genomes from direct contact with recombinant DNA, thus representing a promising delivery vector system that can be explored for genetic therapy and vaccination. MOE (Min. of Education, S’pore) 2020-06-08T01:45:40Z 2020-06-08T01:45:40Z 2018 Journal Article Yu, H., Pan, M. H., Evalin, Trau, D., & Patzel, V. (2018). Capsule-like safe genetic vectors — cell-penetrating core – shell particles selectively release functional small RNA and entrap its encoding DNA. ACS Applied Materials & Interfaces, 10(25), 21113-21124. doi:10.1021/acsami.8b04294 1944-8244 https://hdl.handle.net/10356/141342 10.1021/acsami.8b04294 29869496 2-s2.0-85048220921 25 10 21113 21124 en ACS Applied Materials & Interfaces © 2018 American Chemical Society. All rights reserved. |
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Science::Biological sciences Gene Delivery Gene Silencing |
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Science::Biological sciences Gene Delivery Gene Silencing Yu, Han Pan, Matthew Houwen Evalin Trau, Dieter Patzel, Volker Capsule-like safe genetic vectors — cell-penetrating core – shell particles selectively release functional small RNA and entrap its encoding DNA |
| description |
The breakthrough of genetic therapy is set back by the lack of suitable genetic vector systems. We present the development of permeability-tunable, capsule-like, polymeric, micron-sized, core–shell particles for delivery of recombinant nucleic acids into target cells. These particles were demonstrated to effectively release rod-shaped small hairpin RNA and to selectively retain the RNA-encoding DNA template, which was designed to form a bulky tripartite structure. Thus, they can serve as delivery vectors preloaded with cargo RNA or alternatively as RNA-producing micro-bioreactors. The internalization of particles by human tissue culture cells inversely correlated with particle size and with the cell to particle ratio, although at a higher than stoichiometric excess of particles over cells, cell viability was impaired. Among primary human peripheral blood mononuclear cells, up to 50% of the monocytes displayed positive uptake of particles. Finally, these particles efficiently delivered siRNA into HEK293T cells triggering functional knockdown of the target gene lamin A/C. Particle-mediated knockdown was superior to that observed after conventional siRNA delivery via lipofection. Core–shell particles protect encapsulated nucleic acids from degradation and target cell genomes from direct contact with recombinant DNA, thus representing a promising delivery vector system that can be explored for genetic therapy and vaccination. |
| author2 |
School of Chemical and Biomedical Engineering |
| author_facet |
School of Chemical and Biomedical Engineering Yu, Han Pan, Matthew Houwen Evalin Trau, Dieter Patzel, Volker |
| format |
Article |
| author |
Yu, Han Pan, Matthew Houwen Evalin Trau, Dieter Patzel, Volker |
| author_sort |
Yu, Han |
| title |
Capsule-like safe genetic vectors — cell-penetrating core – shell particles selectively release functional small RNA and entrap its encoding DNA |
| title_short |
Capsule-like safe genetic vectors — cell-penetrating core – shell particles selectively release functional small RNA and entrap its encoding DNA |
| title_full |
Capsule-like safe genetic vectors — cell-penetrating core – shell particles selectively release functional small RNA and entrap its encoding DNA |
| title_fullStr |
Capsule-like safe genetic vectors — cell-penetrating core – shell particles selectively release functional small RNA and entrap its encoding DNA |
| title_full_unstemmed |
Capsule-like safe genetic vectors — cell-penetrating core – shell particles selectively release functional small RNA and entrap its encoding DNA |
| title_sort |
capsule-like safe genetic vectors — cell-penetrating core – shell particles selectively release functional small rna and entrap its encoding dna |
| publishDate |
2020 |
| url |
https://hdl.handle.net/10356/141342 |
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1681056471993810944 |