Antisense oligonucleotides bound in the polysaccharide complex and the enhanced antisense effect due to the low hydrolysis

Schizophyllan is a β-(1→3)- d-glucan and can form a novel complex with some single-chains of DNAs. As the preceding paper revealed, the polynucleotide bound in the complex is more stable to nuclease-mediated hydrolysis than the polynucleotide itself (i.e., naked polynucleotide). This paper examined...

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Veröffentlicht in:	Biomaterials 2004-07, Vol.25 (15), p.3117-3123
Hauptverfasser:	Mizu, Masami, Koumoto, Kazuya, Anada, Takahisa, Sakurai, Kazuo, Shinkai, Seiji
Format:	Artikel
Sprache:	eng
Schlagworte:	Antisense Biocompatible Materials - chemistry Cell-Free System Complexation DNA Drug Carriers - chemistry Enzyme Activation Enzyme Stability Exodeoxyribonucleases - chemistry Gene expression Gene Silencing Hydrolysis Kinetics Materials Testing Oligonucleotides, Antisense - chemistry Polysaccharide Polysaccharides - chemistry Sizofiran - chemistry Thionucleotides - chemistry
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container_issue	15
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container_title	Biomaterials
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creator	Mizu, Masami Koumoto, Kazuya Anada, Takahisa Sakurai, Kazuo Shinkai, Seiji
description	Schizophyllan is a β-(1→3)- d-glucan and can form a novel complex with some single-chains of DNAs. As the preceding paper revealed, the polynucleotide bound in the complex is more stable to nuclease-mediated hydrolysis than the polynucleotide itself (i.e., naked polynucleotide). This paper examined possibility to apply this complex to an antisense DNA carrier, using an in vitro (cell-free) transcription/translation assay. In this assay, we used a plasmid DNA coding a green fluorescence protein (GFP) and an antisense DNA designed to hybridize the ribosome-binding site in the GFP-coded mRNA. When the antisense DNA was administered as the complex, a lower GFP expression efficiency (or higher antisense effect) is observed over naked DNA. This is because the antisense DNA in the complex is protected from the attack of deoxyribonuclease. When exonuclease I, which specifically hydrolyzes single DNA chains, was present in the GEP assay system, the antisense effect was not changed for the complex while being weakened in the naked antisense DNA system. These results imply that the exonuclease I cannot hydrolyze the antisense DNA in the complex, while it can hydrolyze naked DNA to reduce its antisense effect.
doi_str_mv	10.1016/j.biomaterials.2003.11.008
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As the preceding paper revealed, the polynucleotide bound in the complex is more stable to nuclease-mediated hydrolysis than the polynucleotide itself (i.e., naked polynucleotide). This paper examined possibility to apply this complex to an antisense DNA carrier, using an in vitro (cell-free) transcription/translation assay. In this assay, we used a plasmid DNA coding a green fluorescence protein (GFP) and an antisense DNA designed to hybridize the ribosome-binding site in the GFP-coded mRNA. When the antisense DNA was administered as the complex, a lower GFP expression efficiency (or higher antisense effect) is observed over naked DNA. This is because the antisense DNA in the complex is protected from the attack of deoxyribonuclease. When exonuclease I, which specifically hydrolyzes single DNA chains, was present in the GEP assay system, the antisense effect was not changed for the complex while being weakened in the naked antisense DNA system. 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As the preceding paper revealed, the polynucleotide bound in the complex is more stable to nuclease-mediated hydrolysis than the polynucleotide itself (i.e., naked polynucleotide). This paper examined possibility to apply this complex to an antisense DNA carrier, using an in vitro (cell-free) transcription/translation assay. In this assay, we used a plasmid DNA coding a green fluorescence protein (GFP) and an antisense DNA designed to hybridize the ribosome-binding site in the GFP-coded mRNA. When the antisense DNA was administered as the complex, a lower GFP expression efficiency (or higher antisense effect) is observed over naked DNA. This is because the antisense DNA in the complex is protected from the attack of deoxyribonuclease. When exonuclease I, which specifically hydrolyzes single DNA chains, was present in the GEP assay system, the antisense effect was not changed for the complex while being weakened in the naked antisense DNA system. 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subjects	Antisense Biocompatible Materials - chemistry Cell-Free System Complexation DNA Drug Carriers - chemistry Enzyme Activation Enzyme Stability Exodeoxyribonucleases - chemistry Gene expression Gene Silencing Hydrolysis Kinetics Materials Testing Oligonucleotides, Antisense - chemistry Polysaccharide Polysaccharides - chemistry Sizofiran - chemistry Thionucleotides - chemistry
title	Antisense oligonucleotides bound in the polysaccharide complex and the enhanced antisense effect due to the low hydrolysis
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