A new developing class of gene delivery: Messenger RNA-based therapeutics

Zhao Meng; Jonathan O'Keeffe-Ahern; Jing Lyu; Luca Pierucci; Dezhong Zhou; Wenxin Wang

doi:10.1039/c7bm00712d

A new developing class of gene delivery: Messenger RNA-based therapeutics

Zhao Meng
, Jonathan O'Keeffe-Ahern
, Jing Lyu
, Luca Pierucci
, Dezhong Zhou
, Wenxin Wang

Research output: Contribution to journal › Review article › peer-review

82 Scopus citations

Abstract

Gene therapy has long been held as having the potential to become a front line treatment for various genetic disorders. However, the direct delivery of nucleic acids to correct a genetic disorder has numerous limitations owing to the inability of naked nucleic acids (DNA and RNA) to traverse the cell membrane. Recently, messenger RNA (mRNA) based delivery has become a more attractive alternative to DNA due to the relatively easier transfection process, higher efficiency and safety profile. As with all gene therapies, the central challenge that remains is the efficient delivery of nucleic acids intracellularly. This review presents the recent progress in mRNA delivery, focusing on comparing the advantages and limitations of non-viral based delivery vectors.

Original language	English
Pages (from-to)	2381-2392
Number of pages	12
Journal	Biomaterials Science
Volume	5
Issue number	12
DOIs	https://doi.org/10.1039/c7bm00712d
State	Published - Dec 2017
Externally published	Yes

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10.1039/c7bm00712d

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title = "A new developing class of gene delivery: Messenger RNA-based therapeutics",

abstract = "Gene therapy has long been held as having the potential to become a front line treatment for various genetic disorders. However, the direct delivery of nucleic acids to correct a genetic disorder has numerous limitations owing to the inability of naked nucleic acids (DNA and RNA) to traverse the cell membrane. Recently, messenger RNA (mRNA) based delivery has become a more attractive alternative to DNA due to the relatively easier transfection process, higher efficiency and safety profile. As with all gene therapies, the central challenge that remains is the efficient delivery of nucleic acids intracellularly. This review presents the recent progress in mRNA delivery, focusing on comparing the advantages and limitations of non-viral based delivery vectors.",

author = "Zhao Meng and Jonathan O'Keeffe-Ahern and Jing Lyu and Luca Pierucci and Dezhong Zhou and Wenxin Wang",

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AU - Meng, Zhao

AU - O'Keeffe-Ahern, Jonathan

AU - Lyu, Jing

AU - Pierucci, Luca

AU - Zhou, Dezhong

AU - Wang, Wenxin

PY - 2017/12

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N2 - Gene therapy has long been held as having the potential to become a front line treatment for various genetic disorders. However, the direct delivery of nucleic acids to correct a genetic disorder has numerous limitations owing to the inability of naked nucleic acids (DNA and RNA) to traverse the cell membrane. Recently, messenger RNA (mRNA) based delivery has become a more attractive alternative to DNA due to the relatively easier transfection process, higher efficiency and safety profile. As with all gene therapies, the central challenge that remains is the efficient delivery of nucleic acids intracellularly. This review presents the recent progress in mRNA delivery, focusing on comparing the advantages and limitations of non-viral based delivery vectors.

AB - Gene therapy has long been held as having the potential to become a front line treatment for various genetic disorders. However, the direct delivery of nucleic acids to correct a genetic disorder has numerous limitations owing to the inability of naked nucleic acids (DNA and RNA) to traverse the cell membrane. Recently, messenger RNA (mRNA) based delivery has become a more attractive alternative to DNA due to the relatively easier transfection process, higher efficiency and safety profile. As with all gene therapies, the central challenge that remains is the efficient delivery of nucleic acids intracellularly. This review presents the recent progress in mRNA delivery, focusing on comparing the advantages and limitations of non-viral based delivery vectors.

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EP - 2392

JO - Biomaterials Science

JF - Biomaterials Science

IS - 12

ER -

A new developing class of gene delivery: Messenger RNA-based therapeutics

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