Controllable NO release from Cu1.6S nanoparticle decomposition of S-nitrosoglutathiones following photothermal disintegration of polymersomes to elicit cerebral vasodilatory activity

Po Tsung Kao; I. Ju Lee; Ian Liau; Chen Sheng Yeh

doi:10.1039/c6sc02774a

Controllable NO release from Cu_1.6S nanoparticle decomposition of S-nitrosoglutathiones following photothermal disintegration of polymersomes to elicit cerebral vasodilatory activity

Po Tsung Kao, I. Ju Lee, Ian Liau, Chen Sheng Yeh

化學系

研究成果: Article › 同行評審

23 引文斯高帕斯（Scopus）

摘要

Since the discovery of nitric oxide (NO) as a vasodilator, numerous NO therapies have been attempted to remedy disorders related to pathological vasoconstriction such as coronary artery disease. Despite the advances, clinical applications of NO therapies remain limited mainly because of the low stability of molecular NO donors (and NO molecules), and concerns about the increased oxidative stress and reduced arterial pressure associated with the systemic administration of NO. Here we design a photo-responsive polymersome with nitrosothiols and Cu_1.6S nanoparticles in its core and shell, respectively, and demonstrate the photo-triggered release of NO and its vasodilatory activity on zebrafish. Unlike conventional approaches, our design enhances the stability of NO donors and prospectively enables spatiotemporal regulation of NO release, thus minimizing the harmful effects associated with conventional NO therapies. We anticipate that such a strategy will open up new clinical applications of NO and help reveal the complex biological effects of NO in vivo.

原文	English
頁（從 - 到）	291-297
頁數	7
期刊	Chemical Science
卷	8
發行號	1
DOIs	https://doi.org/10.1039/c6sc02774a
出版狀態	Published - 2016

All Science Journal Classification (ASJC) codes

一般化學

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10.1039/c6sc02774a

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title = "Controllable NO release from Cu1.6S nanoparticle decomposition of S-nitrosoglutathiones following photothermal disintegration of polymersomes to elicit cerebral vasodilatory activity",

abstract = "Since the discovery of nitric oxide (NO) as a vasodilator, numerous NO therapies have been attempted to remedy disorders related to pathological vasoconstriction such as coronary artery disease. Despite the advances, clinical applications of NO therapies remain limited mainly because of the low stability of molecular NO donors (and NO molecules), and concerns about the increased oxidative stress and reduced arterial pressure associated with the systemic administration of NO. Here we design a photo-responsive polymersome with nitrosothiols and Cu1.6S nanoparticles in its core and shell, respectively, and demonstrate the photo-triggered release of NO and its vasodilatory activity on zebrafish. Unlike conventional approaches, our design enhances the stability of NO donors and prospectively enables spatiotemporal regulation of NO release, thus minimizing the harmful effects associated with conventional NO therapies. We anticipate that such a strategy will open up new clinical applications of NO and help reveal the complex biological effects of NO in vivo.",

author = "Kao, {Po Tsung} and Lee, {I. Ju} and Ian Liau and Yeh, {Chen Sheng}",

note = "Funding Information: P. T. Kao and C. S. Yeh thank the financial support from the Ministry of Science and Technology (MOST 103-2113-M-006-008-MY2), and in part by the Headquarters of University Advancement at the National Cheng Kung University, which is sponsored by the Ministry of Education, Taiwan. I. J. Lee and I. Liau thank the financial support from National Chiao Tung University, Ministry of Science and Technology (MOST 103-2113-M-009 -013 -MY3) and the MOE-ATU program of Taiwan and acknowledge the Taiwan Zebrafish Core Facility and grant (NSC 101-2321-B400-014) to support the source of zebrafish Publisher Copyright: {\textcopyright} The Royal Society of Chemistry.",

year = "2016",

doi = "10.1039/c6sc02774a",

language = "English",

volume = "8",

pages = "291--297",

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AU - Kao, Po Tsung

AU - Lee, I. Ju

AU - Liau, Ian

AU - Yeh, Chen Sheng

N1 - Funding Information: P. T. Kao and C. S. Yeh thank the financial support from the Ministry of Science and Technology (MOST 103-2113-M-006-008-MY2), and in part by the Headquarters of University Advancement at the National Cheng Kung University, which is sponsored by the Ministry of Education, Taiwan. I. J. Lee and I. Liau thank the financial support from National Chiao Tung University, Ministry of Science and Technology (MOST 103-2113-M-009 -013 -MY3) and the MOE-ATU program of Taiwan and acknowledge the Taiwan Zebrafish Core Facility and grant (NSC 101-2321-B400-014) to support the source of zebrafish Publisher Copyright: © The Royal Society of Chemistry.

PY - 2016

Y1 - 2016

N2 - Since the discovery of nitric oxide (NO) as a vasodilator, numerous NO therapies have been attempted to remedy disorders related to pathological vasoconstriction such as coronary artery disease. Despite the advances, clinical applications of NO therapies remain limited mainly because of the low stability of molecular NO donors (and NO molecules), and concerns about the increased oxidative stress and reduced arterial pressure associated with the systemic administration of NO. Here we design a photo-responsive polymersome with nitrosothiols and Cu1.6S nanoparticles in its core and shell, respectively, and demonstrate the photo-triggered release of NO and its vasodilatory activity on zebrafish. Unlike conventional approaches, our design enhances the stability of NO donors and prospectively enables spatiotemporal regulation of NO release, thus minimizing the harmful effects associated with conventional NO therapies. We anticipate that such a strategy will open up new clinical applications of NO and help reveal the complex biological effects of NO in vivo.

AB - Since the discovery of nitric oxide (NO) as a vasodilator, numerous NO therapies have been attempted to remedy disorders related to pathological vasoconstriction such as coronary artery disease. Despite the advances, clinical applications of NO therapies remain limited mainly because of the low stability of molecular NO donors (and NO molecules), and concerns about the increased oxidative stress and reduced arterial pressure associated with the systemic administration of NO. Here we design a photo-responsive polymersome with nitrosothiols and Cu1.6S nanoparticles in its core and shell, respectively, and demonstrate the photo-triggered release of NO and its vasodilatory activity on zebrafish. Unlike conventional approaches, our design enhances the stability of NO donors and prospectively enables spatiotemporal regulation of NO release, thus minimizing the harmful effects associated with conventional NO therapies. We anticipate that such a strategy will open up new clinical applications of NO and help reveal the complex biological effects of NO in vivo.

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Controllable NO release from Cu1.6S nanoparticle decomposition of S-nitrosoglutathiones following photothermal disintegration of polymersomes to elicit cerebral vasodilatory activity

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Controllable NO release from Cu_1.6S nanoparticle decomposition of S-nitrosoglutathiones following photothermal disintegration of polymersomes to elicit cerebral vasodilatory activity