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RET overexpression leads to increased brain metastatic competency in luminal breast cancer

Petra Jagušt, Aoibhín M. Powell, Mihaela Ola, L. Watson, Ana de Pablos-Aragoneses, Pedro García- Gómez, Ramón Fallon, Fiona T. Bane, Mona Heiland, Gareth Morris, Brenton Cavanagh, Jason McGrath, Daniela Ottaviani, Aisling Hegarty, Sinéad Cocchiglia, Kieron J. Sweeney, Stephen MacNally, Francesca Brett, Jane Cryan, Alan Beausang, Patrick G. Morris, Manuel Valiente, Arnold D. Hill, Damir Varešlija, Leonie S. Young

2024JNCI Journal of the National Cancer Institute10 citationsDOIOpen Access PDF

Abstract

BACKGROUND: Breast cancer brain metastasis is a rising occurrence, necessitating a better understanding of the mechanisms involved for effective management. Breast cancer brain metastases diverge notably from the primary tumor, with gains in kinase and concomitant losses of steroid signaling observed. In this study, we explored the role of the kinase receptor RET in promoting breast cancer brain metastases and provide a rationale for targeting this receptor. METHODS: RET expression was characterized in a cohort of patients with primary and brain metastatic tumors. RET functionality was assessed using pharmacological inhibition and gene silencing in patient-derived brain metastatic tumor explants and in vivo models, organoid models, and brain organotypic cultures. RNA sequencing was used to uncover novel brain metastatic relevant RET mechanisms of action. RESULTS: A statistically significant enrichment of RET in brain metastases was observed in estrogen receptor-positive breast cancer, where it played a role in promoting cancer cell adhesion, survival, and outgrowth in the brain. In vivo, RET overexpression enhanced brain metastatic competency in patient-derived models. At a mechanistic level, RET overexpression was found to enhance the activation of gene programs involved in cell adhesion, requiring EGFR cooperation to deliver a pro-brain metastatic phenotype. CONCLUSION: Our results illustrate, for the first time, the role of RET in regulating colonization and outgrowth of breast cancer brain metastasis and provide data to support the use of RET inhibitors in the management strategy for patients with breast cancer brain metastases.

Topics & Concepts

Metastatic breast cancerBreast cancerMedicineCancer researchCancerOncologyInternal medicinePathologyBrain Metastases and TreatmentHER2/EGFR in Cancer ResearchGlioma Diagnosis and Treatment
RET overexpression leads to increased brain metastatic competency in luminal breast cancer | Litcius