Ultrasensitive and Highly Selective Detection of Alzheimer’s Disease Biomarker Using Two-Photon Rayleigh Scattering Properties of Gold Nanoparticle

Ultrasensitive and Highly Selective Detection of Alzheimer’s Disease Biomarker Using Two-Photon Rayleigh Scattering Properties of Gold Nanoparticle

Alzheimer’s disease (AD) is a progressive mental disorder disease, which affects 26.6 million people worldwide and estimated increments can be 100 millions by 2050. Since there is no cure at present, early diagnosis of AD is crucial for the current drug treatments. Driven by the need, here we demons...

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Bibliographic Details
Published in:ACS nano Vol. 3; no. 9; pp. 2834 - 2840
Main Authors: Neely, Adria, Perry, Candice, Varisli, Birsen, Singh, Anant K, Arbneshi, Tahir, Senapati, Dulal, Kalluri, Jhansi Rani, Ray, Paresh Chandra
Format: Journal Article
Language:English
Published: United States American Chemical Society 22-09-2009
Subjects:
Alzheimer Disease - diagnosis
Alzheimer Disease - metabolism
Antibodies, Monoclonal - immunology
Biomarkers - metabolism
Colorimetry
Gold - chemistry
Linear Models
Metal Nanoparticles - chemistry
Photons
Scattering, Radiation
tau Proteins - immunology
tau Proteins - metabolism
gold nanoparticle
plasmonics
tau protein
Alzheimer’s biomarker
two-photon Rayleigh scattering
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Summary:Alzheimer’s disease (AD) is a progressive mental disorder disease, which affects 26.6 million people worldwide and estimated increments can be 100 millions by 2050. Since there is no cure at present, early diagnosis of AD is crucial for the current drug treatments. Driven by the need, here we demonstrate for the first time that monoclonal anti-tau antibody-coated gold nanoparticle based two-photon scattering assay can be used for the detection of Alzheimer’s tau protein in the 1 pg/mL level which is about 2 orders of magnitude lower than cutoff values (195 pg/mL) for tau protein in CSF (cerebrospinal fluid). We have shown that when anti-tau antibody-coated gold nanoparticles were mixed with 20 ng/mL of tau protein, two-photon Rayleigh scattering intensity (TPRS) increases by about 16 times. The mechanism of TPRS intensity change has been discussed. Our data demonstrated that our TPRS assay is highly sensitive to tau protein and it can distinguish from BSA, which is one of the most abundant protein components in CSF. Our results demonstrate the potential for a broad application of this type of nanobionanotechnology in practical biomedical applications.
ISSN:1936-0851
1936-086X
DOI:10.1021/nn900813b