Controlled Recognition and Corona Formation by Cascade Micellar Nanoprobes: For Boosting Glioma Theranostics

Yao Yu; Minxuan Wang; Mengzhen Li; Limin Zhang; Jinge Zhao; Jie Cao; Weizhi Wang

doi:10.1021/acs.analchem.2c02501

Controlled Recognition and Corona Formation by Cascade Micellar Nanoprobes: For Boosting Glioma Theranostics

Yao Yu, Minxuan Wang, Mengzhen Li, Limin Zhang, Jinge Zhao, Jie Cao^*, Weizhi Wang^*

^*Corresponding author for this work

School of Chemistry and Chemical Engineering

Beijing Institute of Technology

Research output: Contribution to journal › Article › peer-review

2 Citations (Scopus)

Abstract

Both tumor-cell-targeting and BBB (blood-brain barrier)-penetrating ability are the key characteristics for glioma theranostics. We established one type of nanomicellar probe functionalized with a newly developed peptide WES. The micellar system could enact a series of cascaded functions in living bodies. It could specifically recruit the ApoE corona in blood circulation rather than perform nonspecific protein absorption. Following, it could penetrate into the BBB in an active manner. Finally, and most importantly, it could recognize and target the tumor marker as well as deliver drugs effectively toward glioma. The cascaded micellar system has shown satisfactory therapeutic ability for glioma in both a subcutaneous and orthotopic model, which provides a prospective strategy for brain cancer treatment.

Original language	English
Pages (from-to)	11118-11123
Number of pages	6
Journal	Analytical Chemistry
Volume	94
Issue number	32
DOIs	https://doi.org/10.1021/acs.analchem.2c02501
Publication status	Published - 16 Aug 2022

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abstract = "Both tumor-cell-targeting and BBB (blood-brain barrier)-penetrating ability are the key characteristics for glioma theranostics. We established one type of nanomicellar probe functionalized with a newly developed peptide WES. The micellar system could enact a series of cascaded functions in living bodies. It could specifically recruit the ApoE corona in blood circulation rather than perform nonspecific protein absorption. Following, it could penetrate into the BBB in an active manner. Finally, and most importantly, it could recognize and target the tumor marker as well as deliver drugs effectively toward glioma. The cascaded micellar system has shown satisfactory therapeutic ability for glioma in both a subcutaneous and orthotopic model, which provides a prospective strategy for brain cancer treatment.",

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T1 - Controlled Recognition and Corona Formation by Cascade Micellar Nanoprobes

T2 - For Boosting Glioma Theranostics

AU - Yu, Yao

AU - Wang, Minxuan

AU - Li, Mengzhen

AU - Zhang, Limin

AU - Zhao, Jinge

AU - Cao, Jie

AU - Wang, Weizhi

PY - 2022/8/16

Y1 - 2022/8/16

N2 - Both tumor-cell-targeting and BBB (blood-brain barrier)-penetrating ability are the key characteristics for glioma theranostics. We established one type of nanomicellar probe functionalized with a newly developed peptide WES. The micellar system could enact a series of cascaded functions in living bodies. It could specifically recruit the ApoE corona in blood circulation rather than perform nonspecific protein absorption. Following, it could penetrate into the BBB in an active manner. Finally, and most importantly, it could recognize and target the tumor marker as well as deliver drugs effectively toward glioma. The cascaded micellar system has shown satisfactory therapeutic ability for glioma in both a subcutaneous and orthotopic model, which provides a prospective strategy for brain cancer treatment.

AB - Both tumor-cell-targeting and BBB (blood-brain barrier)-penetrating ability are the key characteristics for glioma theranostics. We established one type of nanomicellar probe functionalized with a newly developed peptide WES. The micellar system could enact a series of cascaded functions in living bodies. It could specifically recruit the ApoE corona in blood circulation rather than perform nonspecific protein absorption. Following, it could penetrate into the BBB in an active manner. Finally, and most importantly, it could recognize and target the tumor marker as well as deliver drugs effectively toward glioma. The cascaded micellar system has shown satisfactory therapeutic ability for glioma in both a subcutaneous and orthotopic model, which provides a prospective strategy for brain cancer treatment.

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DO - 10.1021/acs.analchem.2c02501

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JO - Analytical Chemistry

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Controlled Recognition and Corona Formation by Cascade Micellar Nanoprobes: For Boosting Glioma Theranostics

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