一种在细胞内肽递送方面具有高效性的基于锰（II）的配位树枝状大分子。

A manganese (II)-based coordinative dendrimer with robust efficiency in intracellular peptide delivery.

作者信息

Ren Lanfang, Gao Yang, Cheng Yiyun

机构信息

Shanghai Key Laboratory of Regulatory Biology, School of Life Sciences, East China Normal University, Shanghai, 200241, China.

College of Physics and Optoelectronic Engineering, Shenzhen University, Shenzhen, 518060, China.

出版信息

Bioact Mater. 2021 Aug 11;9:44-53. doi: 10.1016/j.bioactmat.2021.08.006. eCollection 2022 Mar.

DOI:10.1016/j.bioactmat.2021.08.006

PMID:34820554

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8586439/

Abstract

Peptides have gained increasing interests as drug candidates in modern pharmaceutical industry, however, the development of peptide drugs acting on intracellular targets is limited due to their membrane impermeability. Here, we reported the use of metal-terpyridine based coordinative dendrimer for cytosolic peptide delivery. Among the investigated transition metal ions, Mn-coordinated polymer showed the highest delivery efficiency due to balanced peptide binding and release. It showed robust efficiency in the delivery of peptides with different charge property and hydrophobicity into various primary cells. The efficiency of Mn-terpyridine based polymer is superior to cell penetrating peptides such as oligoarginines. The material also delivered an autophagy-inducing peptide derived from Beclin-1 into cells and efficiently induced autophagy in the cells. This study provides a promising alternative to cell penetrating peptides for cytosolic peptide delivery.

摘要

在现代制药行业中，肽作为药物候选物越来越受到关注。然而，由于其膜不透性，作用于细胞内靶点的肽类药物的开发受到限制。在此，我们报道了使用基于金属 - 三联吡啶的配位树枝状聚合物进行胞质肽递送。在所研究的过渡金属离子中，锰配位聚合物由于肽的结合和释放平衡而表现出最高的递送效率。它在将具有不同电荷性质和疏水性的肽递送至各种原代细胞中表现出强大的效率。基于锰 - 三联吡啶的聚合物的效率优于细胞穿透肽，如寡聚精氨酸。该材料还将源自Beclin-1的自噬诱导肽递送至细胞中，并在细胞中有效诱导自噬。这项研究为细胞穿透肽进行胞质肽递送提供了一种有前景的替代方法。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3342/8586439/28431cceea00/ga1.jpg

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一种在细胞内肽递送方面具有高效性的基于锰（II）的配位树枝状大分子。

A manganese (II)-based coordinative dendrimer with robust efficiency in intracellular peptide delivery.

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