LS Young scite author profile

LS Young

5Publications

6Citation Statements Received

0Citation Statements Given

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Royal College of Surgeons in Ireland

Publications

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Coassociation of ERα and p160 proteins predicts resistance to endocrine treatment; SRC-1 is an independent predictor of breast cancer recurrence.

Redmond

Bane

Stafford

et al. 2009

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#3032 The p160 coactivators AIB1 and SRC-1 are known to play a critical role in modulating transcription in breast cancer cells in conjunction with ligand-bound estrogen receptor. The interactions of the p160 proteins with this nuclear receptor are also important in the development of resistance to endocrine treatments. Using quantitative coassociation immunofluorescent microscopy, the colocalisation of the p160s and ERα was increased in the LY2 endocrine resistant cell line following treatment with the anti-estrogen tamoxifen in comparison to the endocrine sensitive MCF-7 cell line. In cell cultures derived from patient tumours at the time of primary surgery prior to treatment, there was an increase in association of the coactivators with ERα following treatment with estrogen but dissociation was evident in the presence of tamoxifen. Immunohistochemical staining of a tissue microarray, constructed from 560 breast cancer patients, revealed that SRC-1 was a strong predictor of reduced disease-free survival, both in patients receiving adjuvant tamoxifen treatment and untreated patients (p<0.0001 and p=0.0111 respectively). AIB1 was not a significant independent predictor of disease recurrence. SRC-1 was assigned a hazard ratio of 2.12 when survival analysis using a Cox proportional hazards model was applied. Quantitative coassociation analysis of the p160 coactivators with ERα in the patient TMA revealed significantly stronger colocalisation of SRC-1 and ERα in patients who are known to have relapsed than those patients who did not recur (p=0.00001). This data suggests SRC-1 is pivotal in tumour aggressiveness and is a powerful predictor of progression of disease in breast cancer patients. Citation Information: Cancer Res 2009;69(2 Suppl):Abstract nr 3032.

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Abstract P6-04-01: Global analysis of breast cancer metastasis suggests cellular reprogramming is central to the endocrine resistant phenotype.

Bolger¹,

McCartan²,

Walsh³

et al. 2012

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The development of breast cancer resistance to endocrine therapy results from altered cellular plasticity leading to the emergence of a hormone independent tumour. We have previously shown that the endocrine resistant phenotype is poorly differentiated and has greater metastatic potential when compared with an endocrine sensitive phenotype. The underlying mechanism of how an ER positive, endocrine sensitive tumour can turn on these adaptive mechanisms remains unresolved. We hypothesise that cellular reprogramming can occur as a result of long-term exposure to endocrine treatment which manifests clinically as tumour recurrence. Our aim was to identify the mechanism of breast cancer cellular reprogramming in a clinical context. In this study we adopted a global approach to define transcriptional networks significantly elevated in the breast cancer metastatic setting. Using RNAseq we determined the gene expression profile of three ER positive patients who developed tumour recurrence on tamoxifen treatment. RNAseq was performed on primary tumours, axillary node metastases and subsequent distant metastases. Following bioinformatic analysis, we defined the genes that were significantly elevated in the metastatic tumours. In the metastases, genes clustered away from those in the primary and node, with 209 genes uniquely elevated in the metastatic context, suggesting altered gene expression in response to endocrine therapy. Pathway analysis of genes significantly elevated in the metastatic setting included developmental pathways (WNT signalling and TGFbeta), growth factor signalling pathways (MAPkinase), cell adhesion molecules, junction adherens and pathways in cancer. Further analysis provided a list of clinically relevant transcriptional networks which may facilitate tumour cell de-differentiation. Transcription factors including Myc, SMAD2, ESR, TCF3, CUX1 and CLOCK were identified which potentially drive reprogramming in response to endocrine treatment. We interrogated this data to identify downstream targets of this ‘de-differentiation’ network for new predictive markers of response to endocrine treatment. Bioinformatic analysis identified PAWR, an inhibitor of progenitor cell expansion as a potential SMAD2 target. In a xenograft model of endocrine resistance, PAWR expression was found to be reduced in metastatic tissue from lung, liver and bone compared with the primary tumour. In human breast cancer patients PAWR significantly associated with a good response to endocrine treatment and luminal A status (p = 0.0008), establishing PAWR as a predictor of good response to endocrine therapies. We have identified a transcriptional network which may drive a de-differentiated phenotype following endocrine treatment. Data presented here proposes a mechanism by which apparently less aggressive Luminal A type tumours may fail endocrine treatment and develop subsequent recurrence. This represents a fundamental shift in how we approach the development of resistance to endocrine therapy, establishing a number of biomarkers which will allow tracking of response to endocrine therapy or allow accurate early prediction of those who will respond to treatment. Citation Information: Cancer Res 2012;72(24 Suppl):Abstract nr P6-04-01.

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Protein bomarkers Ki67, HOXC10 and HOXC11 for the prediction of response to endocrine treatment in breast cancer

et al. 2015

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PO-178 Androstenedione (4AD) activates an androgen receptor (AR) mediated transcriptome and AR interactions associated with cell-cell adhesion in aromatase inhibitor (AI) resistant breast cancer cells

Bleach¹,

Creevey²,

Hill³

et al. 2018

ESMO Open

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A role for the developmental protein HOXc11 as a mediator of endocrine resistance in breast cancer

McCartan

McIlroy

Early

et al. 2008

European Journal of Surgical Oncology (EJSO)

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LS Young

Coassociation of ERα and p160 proteins predicts resistance to endocrine treatment; SRC-1 is an independent predictor of breast cancer recurrence.

Abstract P6-04-01: Global analysis of breast cancer metastasis suggests cellular reprogramming is central to the endocrine resistant phenotype.

Protein bomarkers Ki67, HOXC10 and HOXC11 for the prediction of response to endocrine treatment in breast cancer

PO-178 Androstenedione (4AD) activates an androgen receptor (AR) mediated transcriptome and AR interactions associated with cell-cell adhesion in aromatase inhibitor (AI) resistant breast cancer cells

A role for the developmental protein HOXc11 as a mediator of endocrine resistance in breast cancer

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