Targeting the Achilles heel of mosquito-borne viruses for antiviral therapy
Mosquito-borne viruses encompass a wide range of pathogens, such as dengue and Zika viruses, that often cocirculate geographically. These viruses affect hundreds of millions of people worldwide, yet no clinically approved therapy is currently available for treating these viral infections. Thus, inno...
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sg-ntu-dr.10356-1515892021-06-30T09:07:28Z Targeting the Achilles heel of mosquito-borne viruses for antiviral therapy Jackman, Joshua A. Shi, Pei-Yong Cho, Nam-Joon School of Materials Science and Engineering School of Chemical and Biomedical Engineering Engineering::Materials Engineering::Bioengineering Enveloped Viruses Fusion Inhibitor Mosquito-borne viruses encompass a wide range of pathogens, such as dengue and Zika viruses, that often cocirculate geographically. These viruses affect hundreds of millions of people worldwide, yet no clinically approved therapy is currently available for treating these viral infections. Thus, innovative therapies, especially inhibitors with broad antiviral activities against all these viruses, are urgently needed. While traditional therapeutic strategies mainly focus on inhibiting viral replication in a "one lock, one key" manner (e.g., viral protease and polymerase inhibitors), inhibitors targeting virions have recently emerged as a promising approach to achieve broad antiviral activities. Within this approach, Lipid Envelope Antiviral Disruption (LEAD) molecules were shown to broadly inhibit mosquito-borne viruses and other lipid membrane-enveloped viruses. Several LEAD molecules have been demonstrated to act against viral membranes in vitro, some of which have even shown in vivo efficacy to treat mosquito-borne viral infections. This therapeutic potential is further enhanced by molecular engineering to improve the inhibitors' pharmacological properties, laying the foundation for the LEAD antiviral strategy to be explored for possible treatment of mosquito-borne viral infections. National Research Foundation (NRF) This publication was supported in part by the National Research Foundation of Singapore through a Proof-of-Concept grant (NRF2015NRF-POC0001-19) to N.-J.C. Additional support was provided by the Creative Materials Discovery Program through the National Research Foundation of Korea funded by the Ministry of Science, ICT and Future Planning (NRF-2016M3D1A1024098). P.-Y.S. lab was supported by a Kleberg Foundation Award, UTMB CTSA UL1TR-001439, Pan American Health Organization grant SCON2016-01353, and NIH grants AI127744 and AI136126. 2021-06-30T09:07:27Z 2021-06-30T09:07:27Z 2019 Journal Article Jackman, J. A., Shi, P. & Cho, N. (2019). Targeting the Achilles heel of mosquito-borne viruses for antiviral therapy. ACS Infectious Diseases, 5(1), 4-8. https://dx.doi.org/10.1021/acsinfecdis.8b00286 2373-8227 0000-0002-1800-8102 0000-0002-8692-8955 https://hdl.handle.net/10356/151589 10.1021/acsinfecdis.8b00286 30387343 2-s2.0-85059820233 1 5 4 8 en NRF2015NRF-POC0001-19 ACS Infectious Diseases © 2018 American Chemical Society. All rights reserved. |
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Engineering::Materials Engineering::Bioengineering Enveloped Viruses Fusion Inhibitor |
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Engineering::Materials Engineering::Bioengineering Enveloped Viruses Fusion Inhibitor Jackman, Joshua A. Shi, Pei-Yong Cho, Nam-Joon Targeting the Achilles heel of mosquito-borne viruses for antiviral therapy |
| description |
Mosquito-borne viruses encompass a wide range of pathogens, such as dengue and Zika viruses, that often cocirculate geographically. These viruses affect hundreds of millions of people worldwide, yet no clinically approved therapy is currently available for treating these viral infections. Thus, innovative therapies, especially inhibitors with broad antiviral activities against all these viruses, are urgently needed. While traditional therapeutic strategies mainly focus on inhibiting viral replication in a "one lock, one key" manner (e.g., viral protease and polymerase inhibitors), inhibitors targeting virions have recently emerged as a promising approach to achieve broad antiviral activities. Within this approach, Lipid Envelope Antiviral Disruption (LEAD) molecules were shown to broadly inhibit mosquito-borne viruses and other lipid membrane-enveloped viruses. Several LEAD molecules have been demonstrated to act against viral membranes in vitro, some of which have even shown in vivo efficacy to treat mosquito-borne viral infections. This therapeutic potential is further enhanced by molecular engineering to improve the inhibitors' pharmacological properties, laying the foundation for the LEAD antiviral strategy to be explored for possible treatment of mosquito-borne viral infections. |
| author2 |
School of Materials Science and Engineering |
| author_facet |
School of Materials Science and Engineering Jackman, Joshua A. Shi, Pei-Yong Cho, Nam-Joon |
| format |
Article |
| author |
Jackman, Joshua A. Shi, Pei-Yong Cho, Nam-Joon |
| author_sort |
Jackman, Joshua A. |
| title |
Targeting the Achilles heel of mosquito-borne viruses for antiviral therapy |
| title_short |
Targeting the Achilles heel of mosquito-borne viruses for antiviral therapy |
| title_full |
Targeting the Achilles heel of mosquito-borne viruses for antiviral therapy |
| title_fullStr |
Targeting the Achilles heel of mosquito-borne viruses for antiviral therapy |
| title_full_unstemmed |
Targeting the Achilles heel of mosquito-borne viruses for antiviral therapy |
| title_sort |
targeting the achilles heel of mosquito-borne viruses for antiviral therapy |
| publishDate |
2021 |
| url |
https://hdl.handle.net/10356/151589 |
| _version_ |
1705151325651599360 |