A novel role for NUAK1 in promoting ovarian cancer metastasis through regulation of fibronectin production in spheroids.

Jamie Lee Fritz,Kevin R Brown,Olga Collins,Yudith Ramos Valdes,Anne-Claude Gingras,Adrian Buensuceso,Robert Rottapel,Kyle E Francis,Brett Larsen,Parima Saxena,Trevor G Shepherd,Karen Colwill

doi:10.3390/cancers12051250

Abstract

Epithelial ovarian cancer (EOC) has a unique mode of metastasis, where cells shed from the primary tumour, form aggregates called spheroids to evade anoikis, spread through the peritoneal cavity, and adhere to secondary sites. We previously showed that the master kinase Liver kinase B1 (LKB1) is required for EOC spheroid viability and metastasis. We have identified novel (nua) kinase 1 (NUAK1) as a top candidate LKB1 substrate in EOC cells and spheroids using a multiplex inhibitor beads-mass spectrometry approach. We confirmed that LKB1 maintains NUAK1 phosphorylation and promotes its stabilization. We next investigated NUAK1 function in EOC cells. Ectopic NUAK1-overexpressing EOC cell lines had increased adhesion, whereas the reverse was seen in OVCAR8-NUAK1KO cells. In fact, cells with NUAK1 loss generate spheroids with reduced integrity, leading to increased cell death after long-term culture. Following transcriptome analysis, we identified reduced enrichment for cell interaction gene expression pathways in OVCAR8-NUAK1KO spheroids. In fact, the FN1 gene, encoding fibronectin, exhibited a 745-fold decreased expression in NUAK1KO spheroids. Fibronectin expression was induced during native spheroid formation, yet this was completely lost in NUAK1KO spheroids. Co-incubation with soluble fibronectin restored the compact spheroid phenotype to OVCAR8-NUAK1KO cells. In a xenograft model of intraperitoneal metastasis, NUAK1 loss extended survival and reduced fibronectin expression in tumours. Thus, we have identified a new mechanism controlling EOC metastasis, through which LKB1-NUAK1 activity promotes spheroid formation and secondary tumours via fibronectin production.

Highlights

Epithelial ovarian cancer (EOC) is the most lethal gynecologic malignancy in the developed world and it is characterized by early and rapid metastasis [1]
By examining spheroids generated from high-grade serous ovarian cancer (HGSOC) cells lines OVCAR8 and OVCAR5 [27,28], we found that NUAK1 protein levels are down-regulated in spheroids when compared to adherent cells (Figure 2A)
NUAK1 serves as a key Liver kinase B1 (LKB1) target in EOC to promote its pro-metastatic functions via cell adhesion and spheroid integrity

Summary

Introduction

Epithelial ovarian cancer (EOC) is the most lethal gynecologic malignancy in the developed world and it is characterized by early and rapid metastasis [1]. The standard treatment plan for patients with late-stage EOC is maximal surgical cytoreduction with adjuvant chemotherapy of carboplatin and paclitaxel [1]. The majority of patients will eventually develop disease recurrence and resistance to chemotherapy. In EOC metastasis, malignant cells shed from the primary ovarian tumour and spread into the peritoneal cavity [4]. Ascites commonly accumulates in the peritoneal cavity of patients with advanced-stage disease. In addition to playing a key role in efficient peritoneal metastasis, spheroids acquire resistance to chemotherapy due to the acquisition of cellular quiescence [7,8]

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