Kim Hyun-Ouk, Lim Jong-Woo, Choi Jihye, Lee Hwunjae, Son Hye Young, Kim Jihye, Park Geunseon, Chun Haejin, Song Daesub, Huh Yong-Min, Haam Seungjoo
Department of Chemical & Biomolecular Engineering, Yonsei University, Republic of Korea.
J Mater Chem B. 2017 Dec 28;5(48):9571-9578. doi: 10.1039/c7tb01675a. Epub 2017 Dec 1.
Real-time quantitative and qualitative analyses of metastasis-associated proteases are critical for precise diagnosis and novel therapeutic treatment of advanced cancers. However, conventional methods based on DNA, peptides, and proteins require sophisticated chemistry and additional processes to expose detection moieties, and they lack elements of temporal control, which limit their applicability. We designed unique protease-activatable polymersomes (PeptiSomes) for high sensitivity, in situ quantitative analysis of activating membrane-type 1 matrix metalloproteinases (MT1-MMP, MMP14). To do this, we first synthesized an amphiphilic block polymer-peptide and a copolypeptide based on mPEG-b-pLeu and MT1-peptide-b-pLeu, respectively. Amphiphilic self-assembled PeptiSomes in water were capable of disassembling and releasing the encapsulated self-quenched fluorescence dye (calcein) via enzymatic activation by MT1-MMP. Our PeptiSome system may potentially prevent the initiation and progression of cancer metastasis. Furthermore, the PeptiSome approach described here is likely to facilitate the development of rapid protease assay techniques and further extend the role of proteases as metastasis indicators and therapeutic targets.
转移相关蛋白酶的实时定量和定性分析对于晚期癌症的精确诊断和新型治疗至关重要。然而,基于DNA、肽和蛋白质的传统方法需要复杂的化学过程和额外的步骤来暴露检测部分,并且它们缺乏时间控制元素,这限制了它们的适用性。我们设计了独特的蛋白酶可激活聚合物囊泡(PeptiSomes),用于对激活的膜型1基质金属蛋白酶(MT1-MMP,MMP14)进行高灵敏度的原位定量分析。为此,我们首先分别基于mPEG-b-pLeu和MT1-肽-b-pLeu合成了两亲性嵌段聚合物-肽和共多肽。两亲性的PeptiSomes在水中能够通过MT1-MMP的酶促激活而解体并释放包封的自猝灭荧光染料(钙黄绿素)。我们的PeptiSomes系统可能潜在地预防癌症转移的起始和进展。此外,这里描述的PeptiSomes方法可能有助于快速蛋白酶检测技术的发展,并进一步扩展蛋白酶作为转移指标和治疗靶点的作用。
