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Title (en)
Prolonged activity of the transposase helper may raise safety concerns during DNA transposon-based gene therapy
Language
English
Description (en)
DNA transposon-based gene delivery vectors represent a promising new branch of randomly integrating vector development for gene therapy. For the side-by-side evaluation of the piggyBac and Sleeping Beauty systems-the only DNA transposons currently employed in clinical trials-during therapeutic intervention, we treated the mouse model of tyrosinemia type I with liver-targeted gene delivery using both transposon vectors. For genome-wide mapping of transposon insertion sites we developed a new next-generation sequencing procedure called streptavidin-based enrichment sequencing, which allowed us to identify approximately one million integration sites for both systems. We revealed that a high proportion of piggyBac integrations are clustered in hot regions and found that they are frequently recurring at the same genomic positions among treated animals, indicating that the genome-wide distribution of Sleeping Beauty-generated integrations is closer to random. We also revealed that the piggyBac transposase protein exhibits prolonged activity, which predicts the risk of oncogenesis by generating chromosomal double-strand breaks. Safety concerns associated with prolonged transpositional activity draw attention to the importance of squeezing the active state of the transposase enzymes into a narrower time window.
Keywords (en)
Tyrosinemia Type-I; Sleeping-Beauty Transposase; Piggybac Transposon; Murine Model; Hepatic-Dysfunction; Site Selection; Mouse-Liver; Methylations; Mutagenesis; Expression
DOI
10.1016/j.omtm.2023.03.003
Author of the digital object
Gergely Imre  (University of Szeged / Biological Research Centre Szeged)
Lajos Haracska  (Biological Research Centre Szeged / Delta Bio 2000 Ltd.)
Lajos Mátés  (Biological Research Centre Szeged)
István Nagy  (Biological Research Centre Szeged)
Endre Barta  (University of Debrecen)
Thomas Rülicke  (University of Veterinary Medicine Vienna)
Lajos Pintér  (Delta Bio 2000 Ltd.)
Farkas Sükösd  (University of Szeged)
László G. Nagy  (Biological Research Centre Szeged)
Anita Kovács  (Wenzhou-Kean University / Chinese Academy of Sciences)
Anna Georgina Kopasz  (Biological Research Centre Szeged)
Khaldoon Sadiq Ahmed Abdullah  (University of Szeged / Biological Research Centre Szeged)
Balázs Bálint  (Biological Research Centre Szeged)
Péter Germán  (Biological Research Centre Szeged)
Zoltán Hegedűs  (Biological Research Centre Szeged)
András Blastyák  (Biological Research Centre Szeged)
Gabriella Pankotai-Bodó  (University of Szeged)
Bálint Márk Vásárhelyi  (Biological Research Centre Szeged)
Liza Hudoba  (Biological Research Centre Szeged)
Liza Hudoba  (Biological Research Centre Szeged)
Réka Karkas  (University of Szeged / Biological Research Centre Szeged)
Andrea Nagy  (Biological Research Centre Szeged)
Dóra Latinovics  (Seqomics Biotechnology Ltd)
Gábor Jaksa  (Delta Bio 2000 Ltd.)
Andrea Bakné Drubi  (University of Szeged / Biological Research Centre Szeged)
Bertalan Takács  (Biological Research Centre Szeged)
Erik Czipa  (University of Debrecen)
Format
application/pdf
Size
1.9 MB
Licence Selected
CC BY 4.0 International
Type of publication
Article
Name of Publication (en)
Molecular Therapy - Methods and Clinical Developement
Pages or Volume
15
Volume
29
From Page
145
To Page
159
Publisher
Cell Press
Publication Date
2023