基于 MMP-2 响应性的短肽水凝胶的合理设计用于控制抗癌肽递药。

Rational Design of Short Peptide-Based Hydrogels with MMP-2 Responsiveness for Controlled Anticancer Peptide Delivery.

机构信息

State Key Laboratory of Heavy Oil Processing and Center for Bioengineering and Biotechnology, China University of Petroleum (East China) , 66 Changjiang West Road, Qingdao 266580, China.

出版信息

Biomacromolecules. 2017 Nov 13;18(11):3563-3571. doi: 10.1021/acs.biomac.7b00911. Epub 2017 Sep 8.

DOI:10.1021/acs.biomac.7b00911

PMID:28828862

Abstract

Molecular self-assembly makes it feasible to harness the structures and properties of advanced materials via initial molecular design. To develop short peptide-based hydrogels with stimuli responsiveness, we designed here short amphiphilic peptides by engineering protease cleavage site motifs into self-assembling peptide sequences. We demonstrated that the designed Ac-ISLKG-NH and Ac-ISLGK-NH self-assembled into fibrillar hydrogels and that the Ac-ISLKG-NH hydrogel showed degradation in response to MMP-2 but the Ac-ISLGK-NH hydrogel did not. The cleavage of Ac-ISLKG-NH into Ac-IS and LKG-NH was found to be mechanistically responsible for the enzymatic degradation. Finally, when an anticancer peptide G(IIKK)I-NH (G3) was entrapped into Ac-ISLKG-NH hydrogels, its release was revealed to occur in a "cell-demanded" way in the presence of HeLa cells that overexpress MMP-2, therefore leading to a marked inhibitory effect on their growth on the gels.

摘要

分子自组装使得通过初始分子设计利用先进材料的结构和性能成为可能。为了开发具有刺激响应性的基于短肽的水凝胶，我们通过将蛋白酶切割位点模体设计到自组装肽序列中，设计了短的两亲性肽。我们证明，设计的 Ac-ISLKG-NH 和 Ac-ISLGK-NH 自组装成纤维状水凝胶，并且 Ac-ISLKG-NH 水凝胶对 MMP-2 表现出降解，而 Ac-ISLGK-NH 水凝胶则没有。发现 Ac-ISLKG-NH 切割成 Ac-IS 和 LKG-NH 是酶降解的机械原因。最后，当抗癌肽 G(IIKK)I-NH (G3) 被包埋在 Ac-ISLKG-NH 水凝胶中时，发现当存在过表达 MMP-2 的 HeLa 细胞时，其释放以“细胞需求”的方式发生，因此导致在凝胶上的生长受到明显抑制。

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基于 MMP-2 响应性的短肽水凝胶的合理设计用于控制抗癌肽递药。

Rational Design of Short Peptide-Based Hydrogels with MMP-2 Responsiveness for Controlled Anticancer Peptide Delivery.

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