The Role of Nesprin-4 in Breast Cancer Migration and Invasion.
Badria Fouad Al-Sammak, Lutfiye Yildiz Ozer, Hend Salah Fayed, Nada Mohamed Kafour, Johan Ericsson, Ayman Al Haj Zen, Henning F Horn
Abstract
Open AccessCancer metastasis is responsible for most cancer-related deaths. Migration and invasion, key steps in the metastatic cascade, require nuclear pliability to traverse the physical barriers of the extracellular matrix and cell-cell junctions. The nuclear envelope (NE) contains LINC complex proteins, including nesprin-4, which regulate nuclear integrity, stiffness, and cell movement. We report that nesprin-4 expression is generally upregulated in breast cancer samples but is reduced in triple-negative breast cancer (TNBC) samples compared to other subtypes. A nesprin-4 expression analysis in 62 breast cancer cell lines showed that nesprin-4 expression correlates positively with cell lines representing less aggressive tumors, while TNBC cell lines have low or no nesprin-4 expression. To determine the role of nesprin-4, we modulated nesprin-4 expression levels in three breast cancer cell lines: MCF7, T47D (luminal A and nesprin-4-positive), and MDA-MB-231 (TNBC and nesprin-4-negative). We found that nesprin-4 promotes migration and invasion by driving cell polarization. However, we also found that nesprin-4 impedes intravasation into endothelial microvessels. Thus, we propose that nesprin-4 plays a dual role in breast cancer, promoting efficient migration and invasion, but blocking intravasation.