Mitochondria-targeted polydopamine nanoprobes for visualizing endogenous sulfur dioxide derivatives in a rat epilepsy model

Qiaoqiao Ci; Xiaofei Qin; Jinhua Liu; Rui Wang; Zheng Li; Wenjing Qin; Kah Leong Lim; Cheng Wu Zhang; Lin Li

doi:10.1039/d0cc04575f

Mitochondria-targeted polydopamine nanoprobes for visualizing endogenous sulfur dioxide derivatives in a rat epilepsy model

Qiaoqiao Ci, Xiaofei Qin, Jinhua Liu, Rui Wang, Zheng Li, Wenjing Qin, Kah Leong Lim, Cheng Wu Zhang, Lin Li

SCHOOL OF FLEXIBLE ELECTRONICS(FUTURE TECHNOLOGIES)|INSTITUTE OF ADVANCED MATERIALS(IAM)

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

16 Scopus citations

Abstract

Epilepsy is the fourth most common neurological disorder, and aberrantly elevated sulfur dioxide derivatives (SO₃²⁻/HSO₃⁻) are thought to underlie the hippocampal neuronal apoptosis in epilepsy. We have designed and synthesized a mitochondria-targeted polydopamine nanoprobe for visualizing endogenous SO₃²⁻/HSO₃⁻by the nucleophilic addition reaction. The nanoprobe was used for imaging SO₂derivatives both in the mitochondria of cultured cells and zebrafish, and successfully applied in the hippocampus of a rat model of epilepsy. The PDAD nanoprobe could be of great value for the elucidation of mechanisms of abnormal SO₃²⁻/HSO₃⁻involved in diseases such as epilepsy.

Original language	English
Pages (from-to)	11823-11826
Number of pages	4
Journal	Chemical Communications
Volume	56
Issue number	79
DOIs	https://doi.org/10.1039/d0cc04575f
State	Published - 11 Oct 2020

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title = "Mitochondria-targeted polydopamine nanoprobes for visualizing endogenous sulfur dioxide derivatives in a rat epilepsy model",

abstract = "Epilepsy is the fourth most common neurological disorder, and aberrantly elevated sulfur dioxide derivatives (SO32−/HSO3−) are thought to underlie the hippocampal neuronal apoptosis in epilepsy. We have designed and synthesized a mitochondria-targeted polydopamine nanoprobe for visualizing endogenous SO32−/HSO3−by the nucleophilic addition reaction. The nanoprobe was used for imaging SO2derivatives both in the mitochondria of cultured cells and zebrafish, and successfully applied in the hippocampus of a rat model of epilepsy. The PDAD nanoprobe could be of great value for the elucidation of mechanisms of abnormal SO32−/HSO3−involved in diseases such as epilepsy.",

author = "Qiaoqiao Ci and Xiaofei Qin and Jinhua Liu and Rui Wang and Zheng Li and Wenjing Qin and Lim, {Kah Leong} and Zhang, {Cheng Wu} and Lin Li",

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doi = "10.1039/d0cc04575f",

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T1 - Mitochondria-targeted polydopamine nanoprobes for visualizing endogenous sulfur dioxide derivatives in a rat epilepsy model

AU - Ci, Qiaoqiao

AU - Qin, Xiaofei

AU - Liu, Jinhua

AU - Wang, Rui

AU - Li, Zheng

AU - Qin, Wenjing

AU - Lim, Kah Leong

AU - Zhang, Cheng Wu

AU - Li, Lin

PY - 2020/10/11

Y1 - 2020/10/11

N2 - Epilepsy is the fourth most common neurological disorder, and aberrantly elevated sulfur dioxide derivatives (SO32−/HSO3−) are thought to underlie the hippocampal neuronal apoptosis in epilepsy. We have designed and synthesized a mitochondria-targeted polydopamine nanoprobe for visualizing endogenous SO32−/HSO3−by the nucleophilic addition reaction. The nanoprobe was used for imaging SO2derivatives both in the mitochondria of cultured cells and zebrafish, and successfully applied in the hippocampus of a rat model of epilepsy. The PDAD nanoprobe could be of great value for the elucidation of mechanisms of abnormal SO32−/HSO3−involved in diseases such as epilepsy.

AB - Epilepsy is the fourth most common neurological disorder, and aberrantly elevated sulfur dioxide derivatives (SO32−/HSO3−) are thought to underlie the hippocampal neuronal apoptosis in epilepsy. We have designed and synthesized a mitochondria-targeted polydopamine nanoprobe for visualizing endogenous SO32−/HSO3−by the nucleophilic addition reaction. The nanoprobe was used for imaging SO2derivatives both in the mitochondria of cultured cells and zebrafish, and successfully applied in the hippocampus of a rat model of epilepsy. The PDAD nanoprobe could be of great value for the elucidation of mechanisms of abnormal SO32−/HSO3−involved in diseases such as epilepsy.

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Mitochondria-targeted polydopamine nanoprobes for visualizing endogenous sulfur dioxide derivatives in a rat epilepsy model

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