Covalently linked Au nanoparticles to a viral vector: potential for combined photothermal and gene cancer therapy.

Maaike Everts; Vaibhav Saini; Jennifer L Leddon; Robbert J Kok; Mariam Stoff-Khalili; Meredith A Preuss; C Leigh Millican; Guy Perkins; Joshua M Brown; Hitesh Bagaria; David E Nikles; Duane T Johnson; Vladimir P Zharov; David T Curiel

Covalently linked Au nanoparticles to a viral vector: potential for combined photothermal and gene cancer therapy.

Maaike Everts, Vaibhav Saini, Jennifer L Leddon, Robbert J Kok, Mariam Stoff-Khalili, Meredith A Preuss, C Leigh Millican, Guy Perkins, Joshua M Brown, Hitesh Bagaria, David E Nikles, Duane T Johnson, Vladimir P Zharov, David T Curiel

Pharmaceutics

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

Abstract

Hyperthermia can be produced by near-infrared laser irradiation of gold nanoparticles present in tumors and thus induce tumor cell killing via a bystander effect. To be clinically relevant, however, several problems still need to be resolved. In particular, selective delivery and physical targeting of gold nanoparticles to tumor cells are necessary to improve therapeutic selectivity. Considerable progress has been made with respect to retargeting adenoviral vectors for cancer gene therapy. We therefore hypothesized that covalent coupling of gold nanoparticles to retargeted adenoviral vectors would allow selective delivery of the nanoparticles to tumor cells, thus feasibilizing hyperthermia and gene therapy as a combinatorial therapeutic approach. For this, sulfo-N-hydroxysuccinimide labeled gold nanoparticles were reacted to adenoviral vectors encoding a luciferase reporter gene driven by the cytomegalovirus promoter (AdCMVLuc). We herein demonstrate that covalent coupling could be achieved, while retaining virus infectivity and ability to retarget tumor-associated antigens. These results indicate the possibility of using adenoviral vectors as carriers for gold nanoparticles.

Original language	English
Pages (from-to)	587-591
Number of pages	5
Journal	Nano Letters
Volume	6
Issue number	4
Publication status	Published - 1 Apr 2006

Keywords

gold
nanotube
Adenoviridae
article
binding site
cell survival
chemistry
gene targeting
gene therapy
gene vector
genetics
HeLa cell line
human
hyperthermic therapy
light
methodology
phototherapy
radiation exposure

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Cite this

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title = "Covalently linked Au nanoparticles to a viral vector: potential for combined photothermal and gene cancer therapy.",

abstract = "Hyperthermia can be produced by near-infrared laser irradiation of gold nanoparticles present in tumors and thus induce tumor cell killing via a bystander effect. To be clinically relevant, however, several problems still need to be resolved. In particular, selective delivery and physical targeting of gold nanoparticles to tumor cells are necessary to improve therapeutic selectivity. Considerable progress has been made with respect to retargeting adenoviral vectors for cancer gene therapy. We therefore hypothesized that covalent coupling of gold nanoparticles to retargeted adenoviral vectors would allow selective delivery of the nanoparticles to tumor cells, thus feasibilizing hyperthermia and gene therapy as a combinatorial therapeutic approach. For this, sulfo-N-hydroxysuccinimide labeled gold nanoparticles were reacted to adenoviral vectors encoding a luciferase reporter gene driven by the cytomegalovirus promoter (AdCMVLuc). We herein demonstrate that covalent coupling could be achieved, while retaining virus infectivity and ability to retarget tumor-associated antigens. These results indicate the possibility of using adenoviral vectors as carriers for gold nanoparticles.",

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pages = "587--591",

journal = "Nano Letters",

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TY - JOUR

T1 - Covalently linked Au nanoparticles to a viral vector: potential for combined photothermal and gene cancer therapy.

AU - Everts, Maaike

AU - Saini, Vaibhav

AU - Leddon, Jennifer L

AU - Kok, Robbert J

AU - Stoff-Khalili, Mariam

AU - Preuss, Meredith A

AU - Millican, C Leigh

AU - Perkins, Guy

AU - Brown, Joshua M

AU - Bagaria, Hitesh

AU - Nikles, David E

AU - Johnson, Duane T

AU - Zharov, Vladimir P

AU - Curiel, David T

PY - 2006/4/1

Y1 - 2006/4/1

N2 - Hyperthermia can be produced by near-infrared laser irradiation of gold nanoparticles present in tumors and thus induce tumor cell killing via a bystander effect. To be clinically relevant, however, several problems still need to be resolved. In particular, selective delivery and physical targeting of gold nanoparticles to tumor cells are necessary to improve therapeutic selectivity. Considerable progress has been made with respect to retargeting adenoviral vectors for cancer gene therapy. We therefore hypothesized that covalent coupling of gold nanoparticles to retargeted adenoviral vectors would allow selective delivery of the nanoparticles to tumor cells, thus feasibilizing hyperthermia and gene therapy as a combinatorial therapeutic approach. For this, sulfo-N-hydroxysuccinimide labeled gold nanoparticles were reacted to adenoviral vectors encoding a luciferase reporter gene driven by the cytomegalovirus promoter (AdCMVLuc). We herein demonstrate that covalent coupling could be achieved, while retaining virus infectivity and ability to retarget tumor-associated antigens. These results indicate the possibility of using adenoviral vectors as carriers for gold nanoparticles.

AB - Hyperthermia can be produced by near-infrared laser irradiation of gold nanoparticles present in tumors and thus induce tumor cell killing via a bystander effect. To be clinically relevant, however, several problems still need to be resolved. In particular, selective delivery and physical targeting of gold nanoparticles to tumor cells are necessary to improve therapeutic selectivity. Considerable progress has been made with respect to retargeting adenoviral vectors for cancer gene therapy. We therefore hypothesized that covalent coupling of gold nanoparticles to retargeted adenoviral vectors would allow selective delivery of the nanoparticles to tumor cells, thus feasibilizing hyperthermia and gene therapy as a combinatorial therapeutic approach. For this, sulfo-N-hydroxysuccinimide labeled gold nanoparticles were reacted to adenoviral vectors encoding a luciferase reporter gene driven by the cytomegalovirus promoter (AdCMVLuc). We herein demonstrate that covalent coupling could be achieved, while retaining virus infectivity and ability to retarget tumor-associated antigens. These results indicate the possibility of using adenoviral vectors as carriers for gold nanoparticles.

KW - gold

KW - nanotube

KW - Adenoviridae

KW - article

KW - binding site

KW - cell survival

KW - chemistry

KW - gene targeting

KW - gene therapy

KW - gene vector

KW - genetics

KW - HeLa cell line

KW - human

KW - hyperthermic therapy

KW - light

KW - methodology

KW - phototherapy

KW - radiation exposure

M3 - Article

SN - 1530-6984

VL - 6

SP - 587

EP - 591

JO - Nano Letters

JF - Nano Letters

IS - 4

ER -

Covalently linked Au nanoparticles to a viral vector: potential for combined photothermal and gene cancer therapy.

Abstract

Keywords

UN SDGs

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