Cinnamoyl sucrose esters as alpha glucosidase inhibitors for the treatment of diabetes
Cinnamoyl sucrose esters (CSEs) were evaluated as AGIs and their enzyme inhibition activity and potency were compared with gold standard acarbose. The inhibition activity of the CSEs against α-glucosidase and α-amylase depended on their structure including the number of the cinnamoyl moieties, their...
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sg-ntu-dr.10356-1463972023-12-29T06:45:25Z Cinnamoyl sucrose esters as alpha glucosidase inhibitors for the treatment of diabetes Devaraj, Surabhi Yip, Yew Mun Panda, Parthasarathi Ong, Li Lin Wong, Kathy Pooi Wen Zhang, Dawei Judeh, Zaher School of Chemical and Biomedical Engineering School of Physical and Mathematical Sciences Interdisciplinary Graduate School (IGS) NTU Institute for Health Technologies Engineering::Chemical engineering Phenylpropanoid Sucrose Esters Glycosides Cinnamoyl sucrose esters (CSEs) were evaluated as AGIs and their enzyme inhibition activity and potency were compared with gold standard acarbose. The inhibition activity of the CSEs against α-glucosidase and α-amylase depended on their structure including the number of the cinnamoyl moieties, their position, and the presence or absence of the acetyl moieties. The inhibitory values of the CSEs 2-9 generally increases in the order of mono-cinnamoyl moieties < di-cinnamoyl ≤ tri-cinnamoyl < tetra-cinnamoyl. This trend was supported from both in vitro and in silico results. Both tetra-cinnamoyl CSEs 5 and 9 showed the highest α-glucosidase inhibitory activities of 77 ± 5%, 74 ± 9%, respectively, against acarbose at 27 ± 4%, and highest α-amylase inhibitory activities of 98 ± 2%, 99 ± 1%, respectively, against acarbose at 93 ± 2%. CSEs 3, 4, 6, 7, 8 showed desired higher inhibition of α-glucosidase than α-amylase suggesting potential for further development as AGIs with reduced side effects. Molecular docking studies on CSEs 5 and 9 attributed the high inhibition of these compounds to multiple π-π interactions and favorable projection of the cinnamoyl moieties (especially O-3 cinnamoyl) in the enzyme pockets. This work proposes CSEs as new AGIs with potentially reduced side effects. Nanyang Technological University Published version We wish to acknowledge financial support from Nanyang Technological University, College of Engineering Start Up Grant. 2021-02-16T03:14:46Z 2021-02-16T03:14:46Z 2021 Journal Article Devaraj, S., Yip, Y. M., Panda, P., Ong, L. L., Wong, K. P. W., Zhang, D., & Judeh, Z. (2021). Cinnamoyl Sucrose Esters as Alpha Glucosidase Inhibitors for the Treatment of Diabetes. Molecules, 26(2), 469-. doi:10.3390/molecules26020469 1420-3049 https://hdl.handle.net/10356/146397 10.3390/molecules26020469 33477457 2-s2.0-85100325703 2 26 en Molecules © 2021 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::Chemical engineering Phenylpropanoid Sucrose Esters Glycosides Devaraj, Surabhi Yip, Yew Mun Panda, Parthasarathi Ong, Li Lin Wong, Kathy Pooi Wen Zhang, Dawei Judeh, Zaher Cinnamoyl sucrose esters as alpha glucosidase inhibitors for the treatment of diabetes |
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Cinnamoyl sucrose esters (CSEs) were evaluated as AGIs and their enzyme inhibition activity and potency were compared with gold standard acarbose. The inhibition activity of the CSEs against α-glucosidase and α-amylase depended on their structure including the number of the cinnamoyl moieties, their position, and the presence or absence of the acetyl moieties. The inhibitory values of the CSEs 2-9 generally increases in the order of mono-cinnamoyl moieties < di-cinnamoyl ≤ tri-cinnamoyl < tetra-cinnamoyl. This trend was supported from both in vitro and in silico results. Both tetra-cinnamoyl CSEs 5 and 9 showed the highest α-glucosidase inhibitory activities of 77 ± 5%, 74 ± 9%, respectively, against acarbose at 27 ± 4%, and highest α-amylase inhibitory activities of 98 ± 2%, 99 ± 1%, respectively, against acarbose at 93 ± 2%. CSEs 3, 4, 6, 7, 8 showed desired higher inhibition of α-glucosidase than α-amylase suggesting potential for further development as AGIs with reduced side effects. Molecular docking studies on CSEs 5 and 9 attributed the high inhibition of these compounds to multiple π-π interactions and favorable projection of the cinnamoyl moieties (especially O-3 cinnamoyl) in the enzyme pockets. This work proposes CSEs as new AGIs with potentially reduced side effects. |
| author2 |
School of Chemical and Biomedical Engineering |
| author_facet |
School of Chemical and Biomedical Engineering Devaraj, Surabhi Yip, Yew Mun Panda, Parthasarathi Ong, Li Lin Wong, Kathy Pooi Wen Zhang, Dawei Judeh, Zaher |
| format |
Article |
| author |
Devaraj, Surabhi Yip, Yew Mun Panda, Parthasarathi Ong, Li Lin Wong, Kathy Pooi Wen Zhang, Dawei Judeh, Zaher |
| author_sort |
Devaraj, Surabhi |
| title |
Cinnamoyl sucrose esters as alpha glucosidase inhibitors for the treatment of diabetes |
| title_short |
Cinnamoyl sucrose esters as alpha glucosidase inhibitors for the treatment of diabetes |
| title_full |
Cinnamoyl sucrose esters as alpha glucosidase inhibitors for the treatment of diabetes |
| title_fullStr |
Cinnamoyl sucrose esters as alpha glucosidase inhibitors for the treatment of diabetes |
| title_full_unstemmed |
Cinnamoyl sucrose esters as alpha glucosidase inhibitors for the treatment of diabetes |
| title_sort |
cinnamoyl sucrose esters as alpha glucosidase inhibitors for the treatment of diabetes |
| publishDate |
2021 |
| url |
https://hdl.handle.net/10356/146397 |
| _version_ |
1787136411255701504 |