TY - JOUR
T1 - Enhanced Detection Specificity and Sensitivity of Alzheimer's Disease Using Amyloid-β-Targeted Quantum Dots
AU - Quan, Li
AU - Wu, Jiangxiao
AU - Lane, Lucas A.
AU - Wang, Jianquan
AU - Lu, Qian
AU - Gu, Zheng
AU - Wang, Yiqing
N1 - Publisher Copyright:
© 2016 American Chemical Society.
PY - 2016/3/16
Y1 - 2016/3/16
N2 - Diagnostics of Alzheimer's disease (AD) commonly employ the use of fluorescent thioflavin derivatives having affinity for the amyloid-β (Aβ) proteins associated with AD progression. However, thioflavin probes have limitations in their diagnostic capabilities arising from a number of undesireable qualities, including poor photostability, weak emission intensity, and high emission overlap with the backgound tissue autofluorescence. To overcome such limitations, we have developed nanoformulated probes consisting of a red-emitting fluorescent quantum dot (QD) core encapsulated in a PEGylated shell with benzotriazole (BTA) targeting molecules on the surface (QD-PEG-BTA). The combination of strong red fluorescence, multivalent binding, and decreased backgound signal and nonspecific binding provided the ability of the QD-PEG-BTA probes to achieve detection sensitivites 4 orders of magnitude greater than those of conventional thioflavin derivatives. This study opens the door for the use of QDs in AD detection applications.
AB - Diagnostics of Alzheimer's disease (AD) commonly employ the use of fluorescent thioflavin derivatives having affinity for the amyloid-β (Aβ) proteins associated with AD progression. However, thioflavin probes have limitations in their diagnostic capabilities arising from a number of undesireable qualities, including poor photostability, weak emission intensity, and high emission overlap with the backgound tissue autofluorescence. To overcome such limitations, we have developed nanoformulated probes consisting of a red-emitting fluorescent quantum dot (QD) core encapsulated in a PEGylated shell with benzotriazole (BTA) targeting molecules on the surface (QD-PEG-BTA). The combination of strong red fluorescence, multivalent binding, and decreased backgound signal and nonspecific binding provided the ability of the QD-PEG-BTA probes to achieve detection sensitivites 4 orders of magnitude greater than those of conventional thioflavin derivatives. This study opens the door for the use of QDs in AD detection applications.
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U2 - 10.1021/acs.bioconjchem.6b00019
DO - 10.1021/acs.bioconjchem.6b00019
M3 - Article
C2 - 26918848
AN - SCOPUS:84962291539
SN - 1043-1802
VL - 27
SP - 809
EP - 814
JO - Bioconjugate Chemistry
JF - Bioconjugate Chemistry
IS - 3
ER -