Dynamic integrin expression, atypical nuclear localization, and spatial distribution during ovarian cancer progression and metastasis
Nazia Bano, Jack L. Browning, Isabelle Lewis, Malaika Amin, Piper Zimmerman, Lina Lee, Eva M. Schmelz

TL;DR
This study explores how integrins change during ovarian cancer progression, revealing their dynamic expression and nuclear localization, which may support cancer cell survival and metastasis.
Contribution
The study identifies dynamic integrin expression and nuclear localization during ovarian cancer progression, suggesting new therapeutic targets for metastasis.
Findings
Integrin expression changes support aggregation and adhesion during ovarian cancer progression.
Nuclear localization of integrins and CD44 may influence gene transcription and promote cancer cell proliferation.
Inhibition of ITGαVβ1 and ITGα2β1 effectively suppresses spheroid adhesion and outgrowth.
Abstract
Aggregation and adhesion of ovarian cancer cells are facilitated by integrins, key adhesion receptors in ovarian cancer. Here we identify changes in the expression of integrins (ITG), their ligands and regulators during ovarian cancer progression and metastatic dissemination that allow for the adaptation of the cellular phenotype to aggregation and adhesion and promote cancer cell survival and metastatic outgrowth. We mimicked the stages of peritoneal dissemination of ovarian metastases by using benign cells and ovarian cancer cells representing slow- and fast developing disease and generated adherent, spheroid, and adherent-spheroid mouse ovarian surface epithelial cultures adjusted for oxygen and glucose levels as reported for malignant ascites. We determined changes in integrin expression, other adhesion receptors, ECM proteins and their regulators by qPCR RT2 PCR arrays and Western…
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Taxonomy
TopicsCell Adhesion Molecules Research · Cellular Mechanics and Interactions · Cancer Cells and Metastasis
