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胍基化环合合成多肽通过模拟细胞穿透肽和核定位信号肽的生物功能，可有效地递送 siRNA。

Guanidinylated Cyclic Synthetic Polypeptides Can Effectively Deliver siRNA by Mimicking the Biofunctions of Both Cell-Penetrating Peptides and Nuclear Localization Signal Peptides.

机构信息

The Key Laboratory of Molecular Target & Clinical Pharmacology, School of Pharmaceutical Sciences, The Fifth Affiliated Hospital, Guangzhou Medical University, Guangzhou 511436, China.

Center of Cancer Research, The Second Affiliated Hospital, Guangzhou Medical University, Guangzhou 510260, China.

出版信息

ACS Macro Lett. 2021 Jul 20;10(7):767-773. doi: 10.1021/acsmacrolett.1c00236. Epub 2021 Jun 8.

DOI:10.1021/acsmacrolett.1c00236

PMID:35549206

Abstract

Preventing endosomal entrapment of gene/vector nanocomplexes (NCs) remains a challenge for highly effective siRNA delivery. To address this problem, guanidinylated cyclic synthetic polypeptides (GCSPs) were synthesized using an efficient and easy method. GCSPs can condense siRNAs into NCs with an encapsulation efficiency of approximately 90%, over twice the effectiveness of Lipofectamine2000 (Lipo2000). The NCs can also mediate luciferase knockdown in HeLa cells with a silencing efficiency of 80%, nearly 2- and 1.1-fold that of Lipo2000 and PEI, respectively. More importantly, the NCs can enter cells by mimicking the bioactivity of cell-penetrating peptides (CPPs). NCs can also exert a nuclear localized function similar to nuclear localization signal peptides (NLSPs). Both biofunctions are helpful for preventing the common endosomal entrapment of NCs and greatly enhance the efficiency of siRNA delivery.

摘要

防止基因/载体纳米复合物 (NC) 的内体捕获仍然是高效 siRNA 递送的一个挑战。为了解决这个问题，使用一种高效且简单的方法合成了胍基化环状合成多肽 (GCSP)。GCSP 可以将 siRNA 包裹成 NC，其包裹效率约为 90%，是 Lipofectamine2000 (Lipo2000) 的两倍多。NC 还可以介导 HeLa 细胞中荧光素酶的沉默，沉默效率为 80%，分别是 Lipo2000 和 PEI 的 2 倍和 1.1 倍。更重要的是，NC 可以通过模拟细胞穿透肽 (CPP) 的生物活性进入细胞。NC 还可以发挥类似于核定位信号肽 (NLSP) 的核定位功能。这两种生物功能都有助于防止 NC 的常见内体捕获，并大大提高 siRNA 的递送效率。

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胍基化环合合成多肽通过模拟细胞穿透肽和核定位信号肽的生物功能，可有效地递送 siRNA。

Guanidinylated Cyclic Synthetic Polypeptides Can Effectively Deliver siRNA by Mimicking the Biofunctions of Both Cell-Penetrating Peptides and Nuclear Localization Signal Peptides.

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