Skin tattooing as a novel approach for DNA vaccine delivery

Yung Nung Chiu; Jared M. Sampson; Xunqing Jiang; Susan B. Zolla-Pazner; Xiang Peng Kong

doi:10.3791/50032

Skin tattooing as a novel approach for DNA vaccine delivery

Yung Nung Chiu
, Jared M. Sampson
, Xunqing Jiang
, Susan B. Zolla-Pazner
, Xiang Peng Kong

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

6 Scopus citations

Abstract

Nucleic acid-based vaccination is a topic of growing interest, especially plasmid DNA (pDNA) encoding immunologically important antigens. After the engineered pDNA is administered to the vaccines, it is transcribed and translated into immunogen proteins that can elicit responses from the immune system. Many ways of delivering DNA vaccines have been investigated; however each delivery route has its own advantages and pitfalls. Skin tattooing is a novel technique that is safe, cost-effective, and convenient. In addition, the punctures inflicted by the needle could also serve as a potent adjuvant. Here, we a) demonstrate the intradermal delivery of plasmid DNA encoding enhanced green fluorescent protein (pCX-EGFP) in a mouse model using a tattooing device and b) confirm the effective expression of EGFP in the skin cells using confocal microscopy.

Original language	English
Journal	Journal of Visualized Experiments
Issue number	68
DOIs	https://doi.org/10.3791/50032
State	Published - 2012
Externally published	Yes

Keywords

Bioengineering
Biomedical engineering
DNA
GFP
Genetics
Immunization method
Intradermal delivery
Issue 68
Medicine
Skin tattooing
Vaccine

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10.3791/50032

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title = "Skin tattooing as a novel approach for DNA vaccine delivery",

abstract = "Nucleic acid-based vaccination is a topic of growing interest, especially plasmid DNA (pDNA) encoding immunologically important antigens. After the engineered pDNA is administered to the vaccines, it is transcribed and translated into immunogen proteins that can elicit responses from the immune system. Many ways of delivering DNA vaccines have been investigated; however each delivery route has its own advantages and pitfalls. Skin tattooing is a novel technique that is safe, cost-effective, and convenient. In addition, the punctures inflicted by the needle could also serve as a potent adjuvant. Here, we a) demonstrate the intradermal delivery of plasmid DNA encoding enhanced green fluorescent protein (pCX-EGFP) in a mouse model using a tattooing device and b) confirm the effective expression of EGFP in the skin cells using confocal microscopy.",

keywords = "Bioengineering, Biomedical engineering, DNA, GFP, Genetics, Immunization method, Intradermal delivery, Issue 68, Medicine, Skin tattooing, Vaccine",

author = "Chiu, \{Yung Nung\} and Sampson, \{Jared M.\} and Xunqing Jiang and Zolla-Pazner, \{Susan B.\} and Kong, \{Xiang Peng\}",

year = "2012",

doi = "10.3791/50032",

language = "English",

journal = "Journal of Visualized Experiments",

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T1 - Skin tattooing as a novel approach for DNA vaccine delivery

AU - Chiu, Yung Nung

AU - Sampson, Jared M.

AU - Jiang, Xunqing

AU - Zolla-Pazner, Susan B.

AU - Kong, Xiang Peng

PY - 2012

Y1 - 2012

N2 - Nucleic acid-based vaccination is a topic of growing interest, especially plasmid DNA (pDNA) encoding immunologically important antigens. After the engineered pDNA is administered to the vaccines, it is transcribed and translated into immunogen proteins that can elicit responses from the immune system. Many ways of delivering DNA vaccines have been investigated; however each delivery route has its own advantages and pitfalls. Skin tattooing is a novel technique that is safe, cost-effective, and convenient. In addition, the punctures inflicted by the needle could also serve as a potent adjuvant. Here, we a) demonstrate the intradermal delivery of plasmid DNA encoding enhanced green fluorescent protein (pCX-EGFP) in a mouse model using a tattooing device and b) confirm the effective expression of EGFP in the skin cells using confocal microscopy.

AB - Nucleic acid-based vaccination is a topic of growing interest, especially plasmid DNA (pDNA) encoding immunologically important antigens. After the engineered pDNA is administered to the vaccines, it is transcribed and translated into immunogen proteins that can elicit responses from the immune system. Many ways of delivering DNA vaccines have been investigated; however each delivery route has its own advantages and pitfalls. Skin tattooing is a novel technique that is safe, cost-effective, and convenient. In addition, the punctures inflicted by the needle could also serve as a potent adjuvant. Here, we a) demonstrate the intradermal delivery of plasmid DNA encoding enhanced green fluorescent protein (pCX-EGFP) in a mouse model using a tattooing device and b) confirm the effective expression of EGFP in the skin cells using confocal microscopy.

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KW - Biomedical engineering

KW - DNA

KW - GFP

KW - Genetics

KW - Immunization method

KW - Intradermal delivery

KW - Issue 68

KW - Medicine

KW - Skin tattooing

KW - Vaccine

UR - https://www.scopus.com/pages/publications/84868268384

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DO - 10.3791/50032

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SN - 1940-087X

JO - Journal of Visualized Experiments

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ER -

Skin tattooing as a novel approach for DNA vaccine delivery

Abstract

Keywords

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