| Literature DB >> 28267358 |
Naoya Uchida1, Kareem N Washington2, Brian Mozer3, Charlotte Platner1, Josiah Ballantine1, Luke P Skala1, Lydia Raines1, Anna Shvygin1, Matthew M Hsieh1, Lloyd G Mitchell4, John F Tisdale1.
Abstract
Sickle cell disease results from a point mutation in exon 1 of the β-globin gene (total 3 exons). Replacing sickle β-globin exon 1 (and exon 2) with a normal sequence by trans-splicing is a potential therapeutic strategy. Therefore, this study sought to develop trans-splicing targeting β-globin pre-messenger RNA among human erythroid cells. Binding domains from random β-globin sequences were comprehensively screened. Six candidates had optimal binding, and all targeted intron 2. Next, lentiviral vectors encoding RNA trans-splicing molecules were constructed incorporating a unique binding domain from these candidates, artificial 5' splice site, and γ-globin cDNA, and trans-splicing was evaluated in CD34+ cell-derived erythroid cells from healthy individuals. Lentiviral transduction was efficient, with vector copy numbers of 9.7 to 15.3. The intended trans-spliced RNA product, including exon 3 of endogenous β-globin and γ-globin, was detected at the molecular level. Trans-splicing efficiency was improved to 0.07-0.09% by longer binding domains, including the 5' splice site of intron 2. In summary, screening was performed to select efficient binding domains for trans-splicing. Detectable levels of trans-splicing were obtained for endogenous β-globin RNA in human erythroid cells. These methods provide the basis for future trans-splicing directed gene therapy.Entities:
Keywords: RNA trans-splicing; lentiviral vector; β-globin gene
Mesh:
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Year: 2017 PMID: 28267358 PMCID: PMC5397226 DOI: 10.1089/hgtb.2016.077
Source DB: PubMed Journal: Hum Gene Ther Methods ISSN: 1946-6536 Impact factor: 2.396