Bacterial cellulose nanocrystal as drug delivery system for overcoming the biological barrier of cyano-phycocyanin: a biomedical application of microbial product
Phycocyanin, produced by Spirulina platensis, has been reported as an anti-inflammatory, anti-hyperalgesia, antioxidant, anti-tumor, and anti-cancer agent. However, the ingestion of phycocyanin in the body is often hindered by its instability against gastric pH conditions. The nano-drug delivery sys...
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sg-ntu-dr.10356-1718932023-11-17T15:31:41Z Bacterial cellulose nanocrystal as drug delivery system for overcoming the biological barrier of cyano-phycocyanin: a biomedical application of microbial product Munawaroh, Heli Siti Halimatul Anwar, Budiman Yuliani, Galuh Murni, Intan Cahaya Arindita, Ni Putu Yunika Maulidah, Gusnine Sari Martha, Larasati Hidayati, Nur Akmalia Chew, Kit Wayne Show, Pau-Loke School of Chemistry, Chemical Engineering and Biotechnology Engineering::Bioengineering Adsorption Bacterial Cellulose Nanocrystal Phycocyanin, produced by Spirulina platensis, has been reported as an anti-inflammatory, anti-hyperalgesia, antioxidant, anti-tumor, and anti-cancer agent. However, the ingestion of phycocyanin in the body is often hindered by its instability against gastric pH conditions. The nano-drug delivery system has developed as a promising platform for efficient drug delivery and improvement as well as drug efficacy. Bacterial cellulose nanocrystal (BCNC) has it superiority as DDS due to its inherent properties such as nanoscale dimension, large surface area, - biocompatibility, and non-toxic. To improve its mechanical properties, BCNC was crosslinked with glutaraldehyde and was analyzed as a potential candidate for DDS. The Fourier transform infrared analysis of the BCNC suggested that hydrolysis did not alter the chemical composition. The index of crystallinity of the BCNC was 18.31% higher than that of the original BC, suggesting that crystalline BC has been successfully isolated. The BCNC particle also showed a needle-like morphology which is 25 ± 10 nm in diameter and a mean length of 626 ± 172 nm. Crosslinked BCNC also had larger pores than the original BCNC along with higher thermal stability. Optimum phycocyanin adsorption on crosslinked BCNC reached 65.3% in 3 h. The release study shows that the crosslinked BCNC can protect the phycocyanin retardation by gastric fluid until phycocyanin reaches the targeted sites. This study provides an alternative potential DDS derived from natural bioresources with less expenses and better properties to promote the application of BCNC as functional nanomaterials in biomedical science. Published version The authors would like to thank the Directorate General of Research and Technology and Higher Education, Ministry of Education and Culture of the Republic of Indonesia for giving the research grant through the University Basic Research scheme (PDUPT) for the fiscal year of 2022 (Contract Numbers: 050/E5/PG.02.00.PT//2022 and 1252/UN.40.LP/ PT.01.03/2022) and Universitas Pendidikan Indonesia. 2023-11-15T02:18:46Z 2023-11-15T02:18:46Z 2023 Journal Article Munawaroh, H. S. H., Anwar, B., Yuliani, G., Murni, I. C., Arindita, N. P. Y., Maulidah, G. S., Martha, L., Hidayati, N. A., Chew, K. W. & Show, P. (2023). Bacterial cellulose nanocrystal as drug delivery system for overcoming the biological barrier of cyano-phycocyanin: a biomedical application of microbial product. Bioengineered, 14(1), 2252226-. https://dx.doi.org/10.1080/21655979.2023.2252226 1949-1018 https://hdl.handle.net/10356/171893 10.1080/21655979.2023.2252226 37646576 2-s2.0-85168980573 1 14 2252226 en Bioengineered © 2023 The Author(s). Published by Informa UK Limited, trading as Taylor & Francis Group. This is an Open Access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. The terms on which this article has been published allow the posting of the Accepted Manuscript in a repository by the author(s) or with their consent. application/pdf |
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Engineering::Bioengineering Adsorption Bacterial Cellulose Nanocrystal Munawaroh, Heli Siti Halimatul Anwar, Budiman Yuliani, Galuh Murni, Intan Cahaya Arindita, Ni Putu Yunika Maulidah, Gusnine Sari Martha, Larasati Hidayati, Nur Akmalia Chew, Kit Wayne Show, Pau-Loke Bacterial cellulose nanocrystal as drug delivery system for overcoming the biological barrier of cyano-phycocyanin: a biomedical application of microbial product |
| description |
Phycocyanin, produced by Spirulina platensis, has been reported as an anti-inflammatory, anti-hyperalgesia, antioxidant, anti-tumor, and anti-cancer agent. However, the ingestion of phycocyanin in the body is often hindered by its instability against gastric pH conditions. The nano-drug delivery system has developed as a promising platform for efficient drug delivery and improvement as well as drug efficacy. Bacterial cellulose nanocrystal (BCNC) has it superiority as DDS due to its inherent properties such as nanoscale dimension, large surface area, - biocompatibility, and non-toxic. To improve its mechanical properties, BCNC was crosslinked with glutaraldehyde and was analyzed as a potential candidate for DDS. The Fourier transform infrared analysis of the BCNC suggested that hydrolysis did not alter the chemical composition. The index of crystallinity of the BCNC was 18.31% higher than that of the original BC, suggesting that crystalline BC has been successfully isolated. The BCNC particle also showed a needle-like morphology which is 25 ± 10 nm in diameter and a mean length of 626 ± 172 nm. Crosslinked BCNC also had larger pores than the original BCNC along with higher thermal stability. Optimum phycocyanin adsorption on crosslinked BCNC reached 65.3% in 3 h. The release study shows that the crosslinked BCNC can protect the phycocyanin retardation by gastric fluid until phycocyanin reaches the targeted sites. This study provides an alternative potential DDS derived from natural bioresources with less expenses and better properties to promote the application of BCNC as functional nanomaterials in biomedical science. |
| author2 |
School of Chemistry, Chemical Engineering and Biotechnology |
| author_facet |
School of Chemistry, Chemical Engineering and Biotechnology Munawaroh, Heli Siti Halimatul Anwar, Budiman Yuliani, Galuh Murni, Intan Cahaya Arindita, Ni Putu Yunika Maulidah, Gusnine Sari Martha, Larasati Hidayati, Nur Akmalia Chew, Kit Wayne Show, Pau-Loke |
| format |
Article |
| author |
Munawaroh, Heli Siti Halimatul Anwar, Budiman Yuliani, Galuh Murni, Intan Cahaya Arindita, Ni Putu Yunika Maulidah, Gusnine Sari Martha, Larasati Hidayati, Nur Akmalia Chew, Kit Wayne Show, Pau-Loke |
| author_sort |
Munawaroh, Heli Siti Halimatul |
| title |
Bacterial cellulose nanocrystal as drug delivery system for overcoming the biological barrier of cyano-phycocyanin: a biomedical application of microbial product |
| title_short |
Bacterial cellulose nanocrystal as drug delivery system for overcoming the biological barrier of cyano-phycocyanin: a biomedical application of microbial product |
| title_full |
Bacterial cellulose nanocrystal as drug delivery system for overcoming the biological barrier of cyano-phycocyanin: a biomedical application of microbial product |
| title_fullStr |
Bacterial cellulose nanocrystal as drug delivery system for overcoming the biological barrier of cyano-phycocyanin: a biomedical application of microbial product |
| title_full_unstemmed |
Bacterial cellulose nanocrystal as drug delivery system for overcoming the biological barrier of cyano-phycocyanin: a biomedical application of microbial product |
| title_sort |
bacterial cellulose nanocrystal as drug delivery system for overcoming the biological barrier of cyano-phycocyanin: a biomedical application of microbial product |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/171893 |
| _version_ |
1783955568057122816 |