Bioconjugated quantum rods as targeted probes for efficient transmigration across an in vitro blood-brain barrier

Gaixia Xu; Ken Tye Yong; Indrajit Roy; Supriya D. Mahajan; Hong Ding; Stanley A. Schwartz; Paras N. Prasad

doi:10.1021/bc700477u

Bioconjugated quantum rods as targeted probes for efficient transmigration across an in vitro blood-brain barrier

Gaixia Xu
, Ken Tye Yong
, Indrajit Roy
, Supriya D. Mahajan
, Hong Ding
, Stanley A. Schwartz
, Paras N. Prasad

University at Buffalo

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

113 Scopus citations

Abstract

We report here, what we believe to be the first time, the successful transport of bioconjugated quantum rods (QRs) across an in vitro blood-brain barrier (BBB) model via a receptor-mediated transport, as well as the use of QR multiplexing technique to compare simultaneously the transmigration efficiency of different biomolecules across the BBB. The migration rate of bioconjugated QRs crossing the in vitro BBB was found to be concentration-and time-dependent. This work illustrates a nanoparticle-based platform that will not only allow a direct visualization of the transmigration ability of various kinds of biomolecules across the BBB, but also facilitate the development of novel diagnostic and therapeutic nanoprobes for early diagnosis and therapy of various disorders of the brain following systemic administration.

Original language	English
Pages (from-to)	1179-1185
Number of pages	7
Journal	Bioconjugate Chemistry
Volume	19
Issue number	6
DOIs	https://doi.org/10.1021/bc700477u
State	Published - Jun 2008

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title = "Bioconjugated quantum rods as targeted probes for efficient transmigration across an in vitro blood-brain barrier",

abstract = "We report here, what we believe to be the first time, the successful transport of bioconjugated quantum rods (QRs) across an in vitro blood-brain barrier (BBB) model via a receptor-mediated transport, as well as the use of QR multiplexing technique to compare simultaneously the transmigration efficiency of different biomolecules across the BBB. The migration rate of bioconjugated QRs crossing the in vitro BBB was found to be concentration-and time-dependent. This work illustrates a nanoparticle-based platform that will not only allow a direct visualization of the transmigration ability of various kinds of biomolecules across the BBB, but also facilitate the development of novel diagnostic and therapeutic nanoprobes for early diagnosis and therapy of various disorders of the brain following systemic administration.",

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doi = "10.1021/bc700477u",

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T1 - Bioconjugated quantum rods as targeted probes for efficient transmigration across an in vitro blood-brain barrier

AU - Xu, Gaixia

AU - Yong, Ken Tye

AU - Roy, Indrajit

AU - Mahajan, Supriya D.

AU - Ding, Hong

AU - Schwartz, Stanley A.

AU - Prasad, Paras N.

PY - 2008/6

Y1 - 2008/6

N2 - We report here, what we believe to be the first time, the successful transport of bioconjugated quantum rods (QRs) across an in vitro blood-brain barrier (BBB) model via a receptor-mediated transport, as well as the use of QR multiplexing technique to compare simultaneously the transmigration efficiency of different biomolecules across the BBB. The migration rate of bioconjugated QRs crossing the in vitro BBB was found to be concentration-and time-dependent. This work illustrates a nanoparticle-based platform that will not only allow a direct visualization of the transmigration ability of various kinds of biomolecules across the BBB, but also facilitate the development of novel diagnostic and therapeutic nanoprobes for early diagnosis and therapy of various disorders of the brain following systemic administration.

AB - We report here, what we believe to be the first time, the successful transport of bioconjugated quantum rods (QRs) across an in vitro blood-brain barrier (BBB) model via a receptor-mediated transport, as well as the use of QR multiplexing technique to compare simultaneously the transmigration efficiency of different biomolecules across the BBB. The migration rate of bioconjugated QRs crossing the in vitro BBB was found to be concentration-and time-dependent. This work illustrates a nanoparticle-based platform that will not only allow a direct visualization of the transmigration ability of various kinds of biomolecules across the BBB, but also facilitate the development of novel diagnostic and therapeutic nanoprobes for early diagnosis and therapy of various disorders of the brain following systemic administration.

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DO - 10.1021/bc700477u

M3 - Article

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SN - 1043-1802

VL - 19

SP - 1179

EP - 1185

JO - Bioconjugate Chemistry

JF - Bioconjugate Chemistry

IS - 6

ER -

Bioconjugated quantum rods as targeted probes for efficient transmigration across an in vitro blood-brain barrier

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