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用富含精氨酸的带电荷肽解开内体包裹

Unlocking Endosomal Entrapment with Supercharged Arginine-Rich Peptides.

作者信息

Najjar Kristina, Erazo-Oliveras Alfredo, Mosior John W, Whitlock Megan J, Rostane Ikram, Cinclair Joseph M, Pellois Jean-Philippe

机构信息

Department of Biochemistry and Biophysics, ⊥Program in Integrative Nutrition & Complex Diseases, Department of Nutrition and Food Science, and §Department of Chemistry, Texas A&M University , College Station, Texas 77843, United States.

出版信息

Bioconjug Chem. 2017 Dec 20;28(12):2932-2941. doi: 10.1021/acs.bioconjchem.7b00560. Epub 2017 Nov 13.

DOI:10.1021/acs.bioconjchem.7b00560
PMID:29065262
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5905407/
Abstract

Endosomal entrapment is a common bottleneck in various macromolecular delivery approaches. Recently, the polycationic peptide dfTAT was identified as a reagent that induces the efficient leakage of late endosomes and, thereby, enhances the penetration of macromolecules into the cytosol of live human cells. To gain further insights into the features that lead to this activity, the role of peptide sequence was investigated. We establish that the leakage activity of dfTAT can be recapitulated by polyarginine analogs but not by polylysine counterparts. Efficiencies of peptide endocytic uptake increase linearly with the number of arginine residues present. In contrast, peptide cytosolic penetration displays a threshold behavior, indicating that a minimum number of arginines is required to induce endosomal escape. Increasing arginine content above this threshold further augments delivery efficiencies. Yet, it also leads to increasing the toxicity of the delivery agents. Together, these data reveal a relatively narrow arginine-content window for the design of optimally active endosomolytic agents.

摘要

内体截留是各种大分子递送方法中常见的瓶颈。最近,聚阳离子肽dfTAT被鉴定为一种能诱导晚期内体有效渗漏的试剂,从而增强大分子进入活的人类细胞质的穿透能力。为了进一步深入了解导致这种活性的特征,研究了肽序列的作用。我们发现聚精氨酸类似物可以重现dfTAT的渗漏活性,而聚赖氨酸类似物则不能。肽的内吞摄取效率随精氨酸残基数量的增加而线性增加。相比之下,肽的胞质穿透表现出阈值行为,表明诱导内体逃逸需要最少数量的精氨酸。将精氨酸含量增加到超过这个阈值会进一步提高递送效率。然而,这也会导致递送剂毒性增加。总之,这些数据揭示了设计具有最佳活性的溶酶体溶解剂时精氨酸含量的相对狭窄范围。

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