Associate Professor Theresa Hickey

Externally-Funded Research Fellow (D)

Adelaide Medical School

Faculty of Health and Medical Sciences

Eligible to supervise Masters and PhD - email supervisor to discuss availability.

Associate Professor Theresa Hickey is the Scientific Program Leader of the Dame Roma Mitchell Cancer Research Laboratories (DRMCRL), Adelaide Medical School, University of Adelaide and a current National Breast Cancer Foundation Research (NCBF) Fellow.

She is internationally recognised for her research on sex hormone action in female reproductive tissues and disorders, with speciﬁc expertise in breast cancer. Theresa has pioneered new treatment strategies for breast cancer and established a patient-derived ex vivo culture methodology as a powerful new pre-clinical tool for drug development. Her group’s innovative work in this area has attracted substantial national and international interest in using the ex vivo culture technique as a pre-clinical model in several different tumour types.

Since award of her PhD on androgen receptor (AR) signalling in polycystic ovary syndrome (PCOS) from the University of Adelaide in 2006, Theresa has received continuous funding by nationally and internationally competitive grants and fellowships (NHMRC, US DoD, RAHRC, NBCF). Her current research focuses on AR signalling in human breast biology and breast cancer and extends into the field of prostate cancer, leveraging similarities between these two hormone-driven cancers to forge new insights that may benefit patients of either disease. Theresa has expertise in contemporary techniques for whole genome interrogation of transcription factor chromatin binding (ChIPseq, ChIPexo) and novel proteomic techniques to interrogate protein interactions (RIME; qPLEX-RIME) and is committed to translational research by developing and employing model systems that use patient-derived material to maximize clinical relevance (PDX, MIND xenografts).

Theresa is passionate about community engagement, enjoys sharing her team’s work through the media or via active interaction with patients and consumer advocates to develop collaborative partnerships. She was instrumental in establishing a core group of consumer advocates that advise and inform DRMCRL research and is an active member of the South Australia Breast Cancer Study Group (SABCSG). This group brings together people working in all facets of breast cancer (e.g. surgeons, radiologists, nurses, researchers, oncologists, genetic counsellors) to improve patient outcomes.

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The Dame Roma Mitchell Cancer Research Laboratories (DRMCRL) have an international reputation for research into sex hormone action in hormone-dependent cancers, with a particular emphasis on breast and prostate cancers.

This world-class cancer research centre brings together expertise spanning more than 30 years in basic and translational prostate and breast cancer research. It is the leading centre in Australia with a multidisciplinary team of scientists, clinicians and patient advocates dedicated to understanding how sex hormones and their receptors control tumour behaviour in both disease contexts. The information is used to understand mechanisms of resistance to existing hormonal therapies for breast and prostate cancer and in developing new strategies for disease treatment and management. Research programs span discovery, drug development and clinical translation.

A major research focus at the DRMCRL is the development of novel androgen receptor (AR) targeted therapies for breast and prostate cancer. In prostate cancer, this involves the generation of drugs to inhibit aberrant forms of the AR that drive the disease and are unresponsive to conventional androgen deprivation therapies. In breast cancer, our research has led to new strategies to activate the AR as well as the progesterone receptor (PR) to inhibit growth of tumours that are driven by the estrogen receptor (ER), This includes interrogation of Selective Androgen Receptor Modulators (SARMs), compounds that lack masculinizing action in women but are able to stimulate AR activity in select tissues. Our breast cancer research program also investigates AR action in the context of breast cancers that lack ER to determine what is the optimal approach for targeting AR in this context.

Our laboratory has pioneered integration of genomic technologies with unique preclinical models of human breast and prostate cancers, especially patient-derived explant cultures, xenograft and organoid models, to better understand disease mechanisms and facilitate translation of breast and prostate cancer research into the clinic.

We publish in high impact journals such as Nature, Nature Genetics, Nature Reviews Cancer, Cancer Research, Clinical Cancer Research and Oncogene. Our research is well supported by funding from nationally and internationally competitive grants. The DRMCRL offers students a wide array of projects that span cutting-edge biomedical research using contemporary pre-clinical models, genome-wide technologies and access to large proteomic/genomic databases.

We are currently actively seeking students interested in bioinformatics to interrogate these databases, with opportunities of cross faculty supervision in fields such as mathematics and machine learning.

Key Research Projects Available for DRMCRL

Project 1 - Transforming endocrine therapy for breast and prostate cancer

Description - Breast and prostate cancers are diseases driven by abnormal sex hormone receptor activity mediated by the estrogen receptor (ER) in breast and the androgen receptor (AR) in prostate cancers. Surgery and radiation therapy for these diseases work well when the tumour is confined within the organ of origin. However, for cancers that have spread out of the breast or prostate, either locally or to other parts of the body, the major treatment strategy is to completely abolish the activity of the offending sex hormone receptor. This treatment strategy is called hormone deprivation therapy and has been employed for the past century. Overwhelming evidence indicates that hormone deprivation therapy has run its course in providing a survival advantage to people with breast or prostate cancer.

Our hypothesis is that reprogramming estrogen or androgen receptors (ER and AR) away from oncogenic activity toward more benign activity will transform endocrine therapy for breast and prostate cancer. In this project we aim to discover optimal strategies to reprogram ER or AR activity in breast and prostate cancer by investigating three complementary approaches to reprogramming ER/AR: 1) Activate other nuclear receptors that directly inhibit ER/AR signalling; 2) Utilize selective ER/AR ligands; and 3) Enhance ER/AR reprogramming with epigenetic drugs. We will then validate optimal reprogramming strategies in patient-derived xenograft “clinical trials” and clinical samples.