Cell cycle deregulation in breast cancer subgroups and effects on proliferation, migration and tamoxifen resistance

Research output: ThesisDoctoral Thesis (compilation)

Abstract

Breast cancer is a heterogenous disease which can be divided in subgroups of distinct biology with disparate prognosis and response to treatment. The overall aim of this thesis was to delineate subgroup specific behaviour in breast cancer cells with focus on proliferation, migration and stem-like cell activity. In addition, we have studied the functional retinoblastoma tumour suppressor (RB) protein pathway and associations to tamoxifen response. Furthermore, the expression of yes-associated protein (YAP1), reported to have both oncogenic and tumour suppressive functions, was investigated in breast cancer subgroups and related to tamoxifen response.

Two of the key processes in malignant behaviour, proliferation and migration, have previously been reported to act as two opposing events in a cancer cell. We found that siRNA-mediated reduction of cyclin D1, a protein expressed in the active cell cycle, resulted in a migratory increase in cell lines negative of estrogen receptor (ER) expression. Conversely, in ER positive cell lines, downregulation of cyclin D1 resulted in decreased migratory capacity and a reduced number of stem-like cells, as measured by the mammosphere assay. Two agents inhibiting the cell cycle machinery, currently undergoing clinical trials, were further evaluated. Results showed that use of these agents in ER negative cell lines increased the number of stem-like cells, whereas a decrease was observed in the ER positive cells. These results point to the disparate effects of cell cycle-targeting treatments on breast cancer cells and highlight the importance of subgroup analysis.

The breast cancer therapy tamoxifen is widely used in patients with ER positive breast cancers; however resistance occurs in approximately one-third of patients. By analysing a breast cancer tumour material from a patient cohort randomised to receive tamoxifen or control treatment, we have found that a non-functional RB pathway in ER positive breast tumours was predictive of tamoxifen insensitivity. The non-functional RB pathway was however not correlated to prognosis, indicating that status of RB pathway holds purely treatment predictive information.

In addition, YAP1 was analysed in the tamoxifen randomised patient cohort and tumours lacking YAP1 protein expression were correlated with resistance to tamoxifen. Furthermore, in ER negative breast tumours, higher YAP1 expression was associated with increased proliferation whereas in ER positive tumours, YAP1 was negatively correlated to proliferation and grade. In vitro experiments downregulating YAP1 resulted in increased levels of ER and progesterone receptor (PgR), indicating deregulated signalling of the ER pathway.

Taken together, we have shown that the consequences of targeting cell cycle proteins may differ depending on ER expression. Furthermore, we have linked a non-functional pathway of the cell-cycle regulator RB and absent YAP1 protein expression to impaired tamoxifen response, identifying two potential biomarkers for predicting tamoxifen insensitivity.

Details

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Organisations
Research areas and keywords

Subject classification (UKÄ) – MANDATORY

  • Clinical Medicine

Keywords

  • Breast cancer, subgroups, proliferation, migration, stem cells, tamoxifen, estrogen receptor
Original languageEnglish
QualificationDoctor
Awarding Institution
Supervisors/Assistant supervisor
Award date2013 Feb 22
Publisher
  • Department of Laboratory Medicine, Lund University
Print ISBNs978-91-87189-82-1
Publication statusPublished - 2013
Publication categoryResearch

Bibliographic note

Defence details Date: 2013-02-22 Time: 09:15 Place: Jan Waldenströms gata 59, SUS Malmö, Main lecture hall External reviewer(s) Name: Leonie, Young Title: Associate professor Affiliation: Royal College of Surgeons in Ireland, Dublin ---

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