肽核酸(PNA)细胞穿透肽(CPP)偶联物作为反义寡聚物的细胞递送载体。

Takehiko Shiraishi, Peter E Nielsen
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引用次数: 47

摘要

我们已经探索了一种基于细胞穿透肽(CPP)共轭到载体PNA的反义低聚物的新递送策略的优点,其序列与反义低聚物的一部分互补。这些载体pcp - pnas的作用通过在HeLa pLuc705细胞系中使用反义PNA靶向剪接校正突变的荧光素酶基因来评估,通过荧光素酶活性测量报告细胞(核)摄取反义PNA。研究了载体pcp -PNA构建体的结构修饰(用辛精氨酸和/或癸酸)和载体PNA长度(调整结合亲和力)。总的来说,包括十二烷基修饰在内的载体pcp -PNA结构体显著增加了未修饰的反义PNA以及反义辛精氨酸-PNA偶联物的活性。在6 μM下,与等摩尔量的高分子载体癸烷基pcp -PNA (Deca-cPNA1(9)-(D-Arg)8)络合后,未修饰的反义PNA的反义活性和细胞传递能力增强了至少20倍。七聚体载体CPP-PNA (cPNA1(7)-(D-Arg)8)和六聚体载体癸醇基CPP-PNA (Deca-cPNA1(6)-(D-Arg)8)的反义活性(2 μM)分别提高了6倍和8倍,而没有表现出明显的细胞毒性。最有趣的是,该活性达到了与内溶性氯喹(CQ)处理后的活性相同的水平,这表明该载体可能促进了内体逃逸。此外,使用这种载体pcp - pna递送策略(与CQ共处理),针对正常荧光素酶mRNA的单链反义RNA在60 nM siRNA处的荧光素酶表达下调50%。这些结果表明,CPP- pna载体可以作为不同类型的反义寡聚物的有效细胞递送载体,并且还允许使用(至少两种)不同CPP配体的组合。
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Peptide nucleic acid (PNA) cell penetrating peptide (CPP) conjugates as carriers for cellular delivery of antisense oligomers.

We have explored the merits of a novel delivery strategy for the antisense oligomers based on cell penetrating peptide (CPP) conjugated to a carrier PNA with sequence complementary to part of the antisense oligomer. The effect of these carrier CPP-PNAs was evaluated by using antisense PNA targeting splicing correction of the mutated luciferase gene in the HeLa pLuc705 cell line, reporting cellular (nuclear) uptake of the antisense PNA via luciferase activity measurement. Carrier CPP-PNA constructs were studied in terms of construct modification (with octaarginine and/or decanoic acid) and carrier PNA length (to adjust binding affinity). In general, the carrier CPP-PNA constructs including the ones with decanoyl modification provided significant increase of the activity of unmodified antisense PNA as well as of antisense octaarginine-PNA conjugates. Antisense activity, and by inference cellular delivery, of unmodified antisense PNA was enhanced at least 20-fold at 6 μM upon the complexation with an equimolar amount of nonamer carrier decanoyl-CPP-PNA (Deca-cPNA1(9)-(D-Arg)8). The antisense activity of a CPP-PNA ((D-Arg)8-asPNA) (at 2 μM) was improved 6-fold and 8-fold by a heptamer carrier CPP-PNA (cPNA1(7)-(D-Arg)8) and hexamer carrier decanoyl-CPP-PNA (Deca-cPNA1(6)-(D-Arg)8), respectively, without showing significant additional cellular toxicity. Most interestingly, the activity reached the same level obtained by enhancement with endosomolytic chloroquine (CQ) treatment, suggesting that the carrier might facilitate endosomal escape. Furthermore, 50% downregulation of luciferase expression at 60 nM siRNA was obtained using this carrier CPP-PNA delivery strategy (with CQ co-treatment) for a single stranded antisense RNA targeting normal luciferase mRNA. These results indicated that CPP-PNA carriers may be used as effective cellular delivery vectors for different types of antisense oligomers and also allows use of combinations of (at least two) different CPP ligands.

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