For each citation that was shared on social media (LinkedIn, Facebook, or Twitter) with the “@GenScript” tag, the author will be rewarded with a $10 Amazon gift card or 2,000 GS points.

Polyarginine Peptide R11 Actin Interaction Induces a Domino Effect on Cytoskeleton Remodeling to Suppress Bladder Cancer Metastasis

RESEARCH. 2025-04; 
Zhenghong Liu; Chuanzan Zhou; Wentao Xu; Dahong Zhang; Bin Zheng; Facai Zhang; Xiaowen Qin; Heng Wang; Yixuan Mou; Yang Liu; Haichang Li; Jing Quan; Li Sun; Yiyang Chen; Chenkai Wang; Xuanyi Zhou; Xinyi Chen; Hong Tang; Dingyi Liu; Wenyan Zuo; Dechao Feng; Pu Zhang; Qi Zhang
Products/Services Used Details Operation
Protein Electrophoresis and Western Scientific). After denaturation, 20 g of protein per sample was resolved by electrophoresis on 4% to 20% gradient precast SDS-PAGE gels (SurePAGE, M00656, GenScript, Nanjing) prior to transfer to a polyvinylidene difluoride (PVDF) membrane (Merck Millipore, Germany). The membranes were blocked for 2 h with 10% nonfat Get A Quote

Abstract

Cytoskeletal remodeling, particularly actin dynamics, is a central driver of tumor metastasis. However, actin-targeting agents have faced major translational barriers due to poor specificity and the absence of defined druggable sites. Here, we report a bladder tumor-targeting polyarginine peptide, R11, as a precision modulator of actin dynamics capable of disrupting the cytoskeletal architecture of bladder cancer (BCa) to suppress its lung metastasis potently and persistently. R11 directly interacts with actin, weakening the actin plectin vimentin/integrin 4 axis and initiating a cascade of cytoskeletal disorganization that ultimately impairs cellular motility and metastatic potential. Remarkably, nanoscale mul... More

Keywords