Delivery and efficacy of a cancer drug as a function of the bond to the gold nanoparticle surface

Yu Cheng; Anna C. Samia; Jun Li; Malcolm E. Kenney; Andrew Resnick; Clemens Burda

doi:10.1021/la902390d

Delivery and efficacy of a cancer drug as a function of the bond to the gold nanoparticle surface

Yu Cheng
, Anna C. Samia
, Jun Li
, Malcolm E. Kenney
, Andrew Resnick
, Clemens Burda

Physics

Case Western Reserve University
Case Western Reserve University

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

158 Scopus citations

Abstract

In this feature article, gold nanoparticle conjugates loaded with phthalocyanine-based PDT drugs are prepared and tested for delivery efficiency and PDT efficacy on HeLa cancer cells. It could be shown that the delivery and PDT outcome are strongly affected by the bond that links the drug load to the nanoparticle surface. Whereas labile amino adsorption to the Au nanoparticle surface allows for efficient drug release into the cancer cells and for efficient PDT, a covalent thiol bond to the Au nanoparticle leads to the delivery of the drug into cell vesicles, and no PDT effect is observed. This work highlights the importance of carefully choosing the interaction between drug molecules and the nanoparticle surface. © 2009 American Chemical Society.

Original language	English
Pages (from-to)	2248-2255
Number of pages	8
Journal	Langmuir
Volume	26
Issue number	4
DOIs	https://doi.org/10.1021/la902390d
State	Published - Feb 16 2010

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SDG 3 Good Health and Well-being

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10.1021/la902390d

Cite this

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abstract = "In this feature article, gold nanoparticle conjugates loaded with phthalocyanine-based PDT drugs are prepared and tested for delivery efficiency and PDT efficacy on HeLa cancer cells. It could be shown that the delivery and PDT outcome are strongly affected by the bond that links the drug load to the nanoparticle surface. Whereas labile amino adsorption to the Au nanoparticle surface allows for efficient drug release into the cancer cells and for efficient PDT, a covalent thiol bond to the Au nanoparticle leads to the delivery of the drug into cell vesicles, and no PDT effect is observed. This work highlights the importance of carefully choosing the interaction between drug molecules and the nanoparticle surface. {\textcopyright} 2009 American Chemical Society.",

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AU - Samia, Anna C.

AU - Li, Jun

AU - Kenney, Malcolm E.

AU - Resnick, Andrew

AU - Burda, Clemens

PY - 2010/2/16

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N2 - In this feature article, gold nanoparticle conjugates loaded with phthalocyanine-based PDT drugs are prepared and tested for delivery efficiency and PDT efficacy on HeLa cancer cells. It could be shown that the delivery and PDT outcome are strongly affected by the bond that links the drug load to the nanoparticle surface. Whereas labile amino adsorption to the Au nanoparticle surface allows for efficient drug release into the cancer cells and for efficient PDT, a covalent thiol bond to the Au nanoparticle leads to the delivery of the drug into cell vesicles, and no PDT effect is observed. This work highlights the importance of carefully choosing the interaction between drug molecules and the nanoparticle surface. © 2009 American Chemical Society.

AB - In this feature article, gold nanoparticle conjugates loaded with phthalocyanine-based PDT drugs are prepared and tested for delivery efficiency and PDT efficacy on HeLa cancer cells. It could be shown that the delivery and PDT outcome are strongly affected by the bond that links the drug load to the nanoparticle surface. Whereas labile amino adsorption to the Au nanoparticle surface allows for efficient drug release into the cancer cells and for efficient PDT, a covalent thiol bond to the Au nanoparticle leads to the delivery of the drug into cell vesicles, and no PDT effect is observed. This work highlights the importance of carefully choosing the interaction between drug molecules and the nanoparticle surface. © 2009 American Chemical Society.

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Delivery and efficacy of a cancer drug as a function of the bond to the gold nanoparticle surface

Abstract

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