TY - JOUR
T1 - Real-Time Detection and Visualization of Amyloid‑β Aggregates Induced by Hydrogen Peroxide in Cell and Mouse Models of Alzheimer's Disease
AU - Wang, Xueli
AU - Iyaswamy, Ashok
AU - Xu, Di
AU - Krishnamoorthi, Senthilkumar
AU - Sreenivasmurthy, Sravan Gopalkrishnashetty
AU - Yang, Yuncong
AU - Li, Yinhui
AU - Chen, Chen
AU - Li, Min
AU - Li, Hung Wing
AU - Wong, Man Shing
N1 - Publisher Copyright:
© 2023 American Chemical Society. All rights reserved.
PY - 2023
Y1 - 2023
N2 - Oxidative stress, caused by an imbalance between the production and the accumulation of reactive oxygen species (ROS), is a prominent cause of the neurotoxicity induced by aggregated amyloid-β (Aβ) in Alzheimer's disease (AD). Tools that can directly detect and monitor the presence and amount of Aβ-induced ROS are still lacking. We report herein the first Aβ-targeted ratiometric H2O2-responsive fluorescent probe for realtime detection and monitoring of the Aβ-induced H2O2level in cell and AD mouse models. The H2O2-responsive probe is constructed based on a methylamino-substituted quinolinium-based cyanine as the fluorescence moiety and a phenylboronate ester as the sensing reaction site. This sensing probe exhibits a large emission wavelength shift of ∼87 nm upon reacting with H2O2, a high binding selectivity for Aβ, and a faster response toward H2O2in the presence of Aβ, concomitant with an enhanced fluorescence intensity, hence greatly boosting the sensitivity of in-situ H2O2detection. This biocompatible and nontoxic probe is capable of ratiometrically detecting and imaging endogenous H2O2induced by Aβ in a neuronal cell model. Remarkably, this Aβ-targeted H2O2-responsive probe is also able to detect, monitor, and differentiate different Aβ-induced H2O2levels in real time in different age groups of transgenic AD mice in which the cerebral H2O2level increases age dependently concomitant with the plaque contents. Therefore, this smart probe can act as a powerful tool to diagnose high-risk subjects and diseased brains of AD and to further study the role of ROS in AD pathology.
AB - Oxidative stress, caused by an imbalance between the production and the accumulation of reactive oxygen species (ROS), is a prominent cause of the neurotoxicity induced by aggregated amyloid-β (Aβ) in Alzheimer's disease (AD). Tools that can directly detect and monitor the presence and amount of Aβ-induced ROS are still lacking. We report herein the first Aβ-targeted ratiometric H2O2-responsive fluorescent probe for realtime detection and monitoring of the Aβ-induced H2O2level in cell and AD mouse models. The H2O2-responsive probe is constructed based on a methylamino-substituted quinolinium-based cyanine as the fluorescence moiety and a phenylboronate ester as the sensing reaction site. This sensing probe exhibits a large emission wavelength shift of ∼87 nm upon reacting with H2O2, a high binding selectivity for Aβ, and a faster response toward H2O2in the presence of Aβ, concomitant with an enhanced fluorescence intensity, hence greatly boosting the sensitivity of in-situ H2O2detection. This biocompatible and nontoxic probe is capable of ratiometrically detecting and imaging endogenous H2O2induced by Aβ in a neuronal cell model. Remarkably, this Aβ-targeted H2O2-responsive probe is also able to detect, monitor, and differentiate different Aβ-induced H2O2levels in real time in different age groups of transgenic AD mice in which the cerebral H2O2level increases age dependently concomitant with the plaque contents. Therefore, this smart probe can act as a powerful tool to diagnose high-risk subjects and diseased brains of AD and to further study the role of ROS in AD pathology.
KW - Alzheimer's disease
KW - Aβ-enhanced sensitivity
KW - Aβ-targeting
KW - HO-responsive fluorescent probe
KW - in-vivo detection
KW - ratiometric imaging
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U2 - 10.1021/ACSAMI.2C07859
DO - 10.1021/ACSAMI.2C07859
M3 - Article
C2 - 35866616
AN - SCOPUS:85135941035
SN - 1944-8244
VL - 15
SP - 39
EP - 47
JO - ACS Applied Materials and Interfaces
JF - ACS Applied Materials and Interfaces
IS - 1
ER -