Systemically injected 2'-O-methoxyethyl (2'-O-MOE)-phosphorothioate and PNA-4K oligomers (peptide nucleic acid with four lysines linked at the C terminus) exhibited sequence-specific antisense activity in a number of mouse organs. Morpholino oligomers were less effective, whereas PNA oligomers with only one lysine (PNA-1K) were completely inactive. The latter result indicates that the four-lysine tail is essential for the antisense activity of PNA oligomers in vivo. These results were obtained in a transgenic mouse model designed as a positive readout test for activity, delivery, and distribution of antisense oligomers. In this model, the expressed gene (EGFP-654) encoding enhanced green fluorescence protein (EGFP) is interrupted by an aberrantly spliced mutated intron of the human beta-globin gene. Aberrant splicing of this intron prevented expression of EGFP-654 in all tissues, whereas in tissues and organs that took up a splice site-targeted antisense oligomer, correct splicing was restored and EGFP-654 expression upregulated. The sequence-specific ability of PNA-4K and the 2'-O-MOE oligomers to upregulate EGFP-654 provides strong evidence that systemically delivered, chemically modified oligonucleotides affect gene expression by sequence-specific true antisense activity, validating their application as potential therapeutics.

Systemically delivered antisense oligomers upregulate gene expression in mouse tissues

GEMIGNANI, FEDERICA
Secondo
;
2002-01-01

Abstract

Systemically injected 2'-O-methoxyethyl (2'-O-MOE)-phosphorothioate and PNA-4K oligomers (peptide nucleic acid with four lysines linked at the C terminus) exhibited sequence-specific antisense activity in a number of mouse organs. Morpholino oligomers were less effective, whereas PNA oligomers with only one lysine (PNA-1K) were completely inactive. The latter result indicates that the four-lysine tail is essential for the antisense activity of PNA oligomers in vivo. These results were obtained in a transgenic mouse model designed as a positive readout test for activity, delivery, and distribution of antisense oligomers. In this model, the expressed gene (EGFP-654) encoding enhanced green fluorescence protein (EGFP) is interrupted by an aberrantly spliced mutated intron of the human beta-globin gene. Aberrant splicing of this intron prevented expression of EGFP-654 in all tissues, whereas in tissues and organs that took up a splice site-targeted antisense oligomer, correct splicing was restored and EGFP-654 expression upregulated. The sequence-specific ability of PNA-4K and the 2'-O-MOE oligomers to upregulate EGFP-654 provides strong evidence that systemically delivered, chemically modified oligonucleotides affect gene expression by sequence-specific true antisense activity, validating their application as potential therapeutics.
2002
Sazani, P; Gemignani, Federica; Kang, Sh; Maier, Ma; Manoharan, M; Persmark, M; Bortner, D; Kole, R.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11568/73999
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