Abstract

Abstract The proto-oncogene pituitary tumor transforming gene binding factor (PTTG1IP/PBF) is overexpressed in multiple tumors and associated with tumor progression. PBF mediates several tumorigenic processes, including cell motility, whereby it potently induces cancer cell migration and invasion. PBF is phosphorylated by Src kinase at Y174 and mutation of this residue (Y174A) renders PBF unable to induce cell invasion, suggesting that phosphorylation mediates the stimulation of cancer cell motility by PBF. This study aimed to further elucidate the mechanism of PBF-induced cell motility. PBF-Y174 is also the key residue in a YXXΦ endocytosis motif. Both PBF phosphorylation and endocytosis were found to be essential for PBF-induced cell motility as mutants which disrupted either process were unable to stimulate thyroid and breast cancer cell migration and invasion. To elucidate molecular events downstream of PBF overexpression, phosphoproteomic and RNA-Seq analyses of normal thyroid cells (Nthy-ori 3-1) with stable PBF overexpression were performed and showed an enrichment in molecules involved in cell adhesion and cytoskeleton organisation. These findings prompted further investigation into a physiological role for PBF in cell motility. We utilised a novel Pbf knockout (Pbf−/−) mouse model generated through CRISPR/Cas9-mediated deletion of Pbf exon 4 in C57BL/6N mice to determine the impact of Pbf deletion on cellular mechanisms. Mouse embryonic fibroblasts (MEFs) were isolated at embryonic day 13.5 and used as primary cultures. Pbf−/- MEFs showed a significant reduction in migration and invasion compared with wild-type (Pbf+/+) MEFs. Interestingly, the loss of one functional copy of Pbf in heterozygote MEFs (Pbf+/−) resulted in an intermediate decrease in motility suggesting a gene-dosage effect. Initial immunofluorescent studies of Pbf−/− MEFs suggest alterations in focal adhesions (FAs). In Pbf+/+ MEFs focal adhesion kinase (FAK) and paxillin staining highlighted FA structures that were normally elongated and aligned with actin stress fibers. In contrast, Pbf−/- MEFs demonstrated a significant reduction in FAK and paxillin staining with smaller, punctate and more radially distributed FAs. These studies demonstrate a physiological role for PBF in cell adhesion and migration and further elucidate the mechanism by which PBF induces cell motility in tumor progression. Citation Format: Merve Kocbiyik, Selvambigai Manivannan, Ling Zha, Katie Brookes, Martin L Read, Chris J McCabe, Vicki E Smith. Investigating proto-oncogene PBF-induced cell migration and invasion. [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2023; Part 1 (Regular and Invited Abstracts); 2023 Apr 14-19; Orlando, FL. Philadelphia (PA): AACR; Cancer Res 2023;83(7_Suppl):Abstract nr 3616.

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