Bioinspired short peptide hydrogel for versatile encapsulation and controlled release of growth factor therapeutics
A short bioinspired octapeptide, GV8, can self-assemble under mild conditions into biodegradable supramolecular physical hydrogels with high storage modulus and good biocompatibility. GV8 hydrogels can encapsulate both single or multiple macromolecular protein-based therapeutics in a simple one-pot...
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sg-ntu-dr.10356-1602122022-07-15T07:00:31Z Bioinspired short peptide hydrogel for versatile encapsulation and controlled release of growth factor therapeutics Hiew, Shu Hui Wang, Jun Kit Koh, Kenrick Yang, Haibo Bacha, Abbas Lin, Junquan Yip, Yun Sheng Vos, Marcus Ivan Gerard Chen, Liyan Sobota, Radoslaw M. Tan, Nguan Soon Tay, Chor Yong Miserez, Ali School of Materials Science and Engineering School of Biological Sciences Interdisciplinary Graduate School (IGS) Lee Kong Chian School of Medicine (LKCMedicine) Center for Sustainable Materials Environmental Chemistry and Materials Centre NTU Institute for Health Technologies Nanyang Environment and Water Research Institute Engineering::Materials Peptide Hydrogel Supramolecular Self-Assembly A short bioinspired octapeptide, GV8, can self-assemble under mild conditions into biodegradable supramolecular physical hydrogels with high storage modulus and good biocompatibility. GV8 hydrogels can encapsulate both single or multiple macromolecular protein-based therapeutics in a simple one-pot formulation manner, making it a promising candidate to address challenges faced by existing synthetic polymer or peptide hydrogels with complex gelation and drug-encapsulation processes. Alongside its versatility, the hydrogel exhibits concentration-dependent storage modulus and controlled drug-release action. We demonstrate that GV8 hydrogels loaded with adipose-derived mesenchymal stem cells (ADMSC) secretome remain mechanically robust, and exhibit promising potential for wound healing applications by preserving secretome activity while maintaining a constant supply of ADMSC secretome to promote epithelial cell migration. Overall, our work highlights the potential of GV8 peptide hydrogel as a versatile and safe carrier for encapsulation and delivery of macromolecular therapeutics. Agency for Science, Technology and Research (A*STAR) Ministry of Education (MOE) Nanyang Technological University National Research Foundation (NRF) Skin Research Institute of Singapore (SRIS) This research was supported by a Singapore Ministry of Education Academic Research Fund (AcRF) Tier 2 grant (#MOE 2018T2-1-043) and the Skin Research Institute of Singapore (SIG18023). R.M.S acknowledges support of A* STAR core funding and Singapore National Research Foundation, NRF-SIS "SingMass". K.K. acknowledges a NTU PhD Research Scholarship. 2022-07-15T07:00:31Z 2022-07-15T07:00:31Z 2021 Journal Article Hiew, S. H., Wang, J. K., Koh, K., Yang, H., Bacha, A., Lin, J., Yip, Y. S., Vos, M. I. G., Chen, L., Sobota, R. M., Tan, N. S., Tay, C. Y. & Miserez, A. (2021). Bioinspired short peptide hydrogel for versatile encapsulation and controlled release of growth factor therapeutics. Acta Biomaterialia, 136, 111-123. https://dx.doi.org/10.1016/j.actbio.2021.09.023 1742-7061 https://hdl.handle.net/10356/160212 10.1016/j.actbio.2021.09.023 34551327 2-s2.0-85116067979 136 111 123 en 2018T2-1-043 SIG18023 Acta Biomaterialia © 2021 Acta Materialia Inc. Published by Elsevier Ltd. All rights reserved. |
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Engineering::Materials Peptide Hydrogel Supramolecular Self-Assembly Hiew, Shu Hui Wang, Jun Kit Koh, Kenrick Yang, Haibo Bacha, Abbas Lin, Junquan Yip, Yun Sheng Vos, Marcus Ivan Gerard Chen, Liyan Sobota, Radoslaw M. Tan, Nguan Soon Tay, Chor Yong Miserez, Ali Bioinspired short peptide hydrogel for versatile encapsulation and controlled release of growth factor therapeutics |
| description |
A short bioinspired octapeptide, GV8, can self-assemble under mild conditions into biodegradable supramolecular physical hydrogels with high storage modulus and good biocompatibility. GV8 hydrogels can encapsulate both single or multiple macromolecular protein-based therapeutics in a simple one-pot formulation manner, making it a promising candidate to address challenges faced by existing synthetic polymer or peptide hydrogels with complex gelation and drug-encapsulation processes. Alongside its versatility, the hydrogel exhibits concentration-dependent storage modulus and controlled drug-release action. We demonstrate that GV8 hydrogels loaded with adipose-derived mesenchymal stem cells (ADMSC) secretome remain mechanically robust, and exhibit promising potential for wound healing applications by preserving secretome activity while maintaining a constant supply of ADMSC secretome to promote epithelial cell migration. Overall, our work highlights the potential of GV8 peptide hydrogel as a versatile and safe carrier for encapsulation and delivery of macromolecular therapeutics. |
| author2 |
School of Materials Science and Engineering |
| author_facet |
School of Materials Science and Engineering Hiew, Shu Hui Wang, Jun Kit Koh, Kenrick Yang, Haibo Bacha, Abbas Lin, Junquan Yip, Yun Sheng Vos, Marcus Ivan Gerard Chen, Liyan Sobota, Radoslaw M. Tan, Nguan Soon Tay, Chor Yong Miserez, Ali |
| format |
Article |
| author |
Hiew, Shu Hui Wang, Jun Kit Koh, Kenrick Yang, Haibo Bacha, Abbas Lin, Junquan Yip, Yun Sheng Vos, Marcus Ivan Gerard Chen, Liyan Sobota, Radoslaw M. Tan, Nguan Soon Tay, Chor Yong Miserez, Ali |
| author_sort |
Hiew, Shu Hui |
| title |
Bioinspired short peptide hydrogel for versatile encapsulation and controlled release of growth factor therapeutics |
| title_short |
Bioinspired short peptide hydrogel for versatile encapsulation and controlled release of growth factor therapeutics |
| title_full |
Bioinspired short peptide hydrogel for versatile encapsulation and controlled release of growth factor therapeutics |
| title_fullStr |
Bioinspired short peptide hydrogel for versatile encapsulation and controlled release of growth factor therapeutics |
| title_full_unstemmed |
Bioinspired short peptide hydrogel for versatile encapsulation and controlled release of growth factor therapeutics |
| title_sort |
bioinspired short peptide hydrogel for versatile encapsulation and controlled release of growth factor therapeutics |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/160212 |
| _version_ |
1738844876705890304 |