Progesterone Signalling In Normal And Malignant Breast Relies On Chromosomal Positioning Of Progesterone Receptor
Funder
National Health and Medical Research Council
Funding Amount
$569,346.00
Summary
The cell nucleus carries genetic information that directs cell function. The nucleus is organised into compartments, which are altered in breast cancer, leading to altered function. The ovarian hormone progesterone acts via a receptor, which clumps into foci in the nucleus when active. In cancers, this clumping is disrupted. In this project we will work out how these foci control cell function, and how this leads to the specific functions of progesterone in normal breast and breast cancers.
Steroid hormones, such as oestrogen and cortisol, act in the body by binding a family of proteins (nuclear receptors) that bind directly to the DNA to regulate genes. The mechanisms underlying this process are complex and involve recruitment of additional molecules or coactivators to improve efficiency. Recently a novel coactivator was identified termed SRA, which remarkably is never made into protein in cells, rather exerting its effects as a RNA. We have identified a novel family of proteins t ....Steroid hormones, such as oestrogen and cortisol, act in the body by binding a family of proteins (nuclear receptors) that bind directly to the DNA to regulate genes. The mechanisms underlying this process are complex and involve recruitment of additional molecules or coactivators to improve efficiency. Recently a novel coactivator was identified termed SRA, which remarkably is never made into protein in cells, rather exerting its effects as a RNA. We have identified a novel family of proteins that bind to SRA in cancer cells, and may well play a critical role in regulating how SRA modulates genes. This project seeks to understand how this family interacts with SRA, the functional effects on breast cancer cells, and the detailed 3-dimensional structure of the family members coupled with SRA. This work will provide novel insight into how SRA regulates steroid hormone action, and may create new potential avenues for developing therapeutics in breast cancer.Read moreRead less
Progesterone Regulation Of Epithelial Cell Lineages In The Breast
Funder
National Health and Medical Research Council
Funding Amount
$534,186.00
Summary
The ovaries play a pivotal role in breast cancer in ways that are unknown. Progesterone increases breast cancer risk, and response to hormonal treatments is critically associated with tumour progesterone receptor content, but how it does this is unknown. We will pursue our findings that progesterone influences cell types in the breast similar to those that become cancerous. This will uncover critical vulnerabilities in breast cancer development and potential targets for prevention and treatment.
Modulation Of Cytoskeletal Structure By Progesterone Receptor Isoforms
Funder
National Health and Medical Research Council
Funding Amount
$337,650.00
Summary
Ovarian hormones are fundamental regulators of normal cell growth and differentiation, and crucial to the development and progression of breast cancer. We have recently shown that the ovarian hormone progesterone can influence the expression of proteins in the cell scaffolding, known as the cytoskeleton. The cytoskeleton is responsible for maintaining cell shape, and there is growing evidence that alterations in the cytoskeleton can actually cause normal cells to become cancerous. We have shown ....Ovarian hormones are fundamental regulators of normal cell growth and differentiation, and crucial to the development and progression of breast cancer. We have recently shown that the ovarian hormone progesterone can influence the expression of proteins in the cell scaffolding, known as the cytoskeleton. The cytoskeleton is responsible for maintaining cell shape, and there is growing evidence that alterations in the cytoskeleton can actually cause normal cells to become cancerous. We have shown that progesterone affects the levels of a cytoskeletal protein called tropomyosin, which plays a pivotal role in cell shape maintenance. We have hypothesised that this effect may be important in the cell shape changes in breast cancer that lead to metastasis. In this grant, we will investigate the role of the progesterone receptor in controlling the expression of the cytokeleton; we will investigate whether cell shape changes caused by progesterone cause more aggressive behaviour in breast cancer cells and we will determine whether there are changes in cytokeletal proteins in breast tumours. This will provide a rational basis for further studies aimed at delineating the significance of hormonal regulation of cell architecture.Read moreRead less
NR1F (ROR) Nuclear Hormone Receptors And Metabolism: Insights Into The Control Of Lipid Homeostasis.
Funder
National Health and Medical Research Council
Funding Amount
$581,892.00
Summary
ROR is a member of a gene family, that regulates reproduction, endocrine physiology, and metabolism, and are important in human health. ROR function remains illusive. However, it is expressed in liver, fat and muscle, tissues that (i) modulate blood lipids, insulin sensitivity and energy balance, and (ii) have an important role in diabetes and obesity. Understanding ROR function in metabolism provides the opportunity for the discovery of new pathways that ameliorate metabolic disease.
Genetic Programs Regulated By The Nuclear Hormone Receptor, LXR, In Muscle: Control Of Cholesterol And Lipid Metabolism
Funder
National Health and Medical Research Council
Funding Amount
$425,250.00
Summary
The heightened occurrence of cardiovascular disease has been linked to disorders in lipid metabolism. Obesity, insulin resistance, and atherosclerosis are prevalent diseases associated with these dyslipidemias. Lipid homeostasis is regulated by dietary intake, de novo synthesis and catabolism. Disorders of lipid metabolism are associated with cardiovascular disease, insulin resistance-diabetes, obesity and hypertension. Raised levels of serum TGs, and low high density lipoprotein (HDL) cholester ....The heightened occurrence of cardiovascular disease has been linked to disorders in lipid metabolism. Obesity, insulin resistance, and atherosclerosis are prevalent diseases associated with these dyslipidemias. Lipid homeostasis is regulated by dietary intake, de novo synthesis and catabolism. Disorders of lipid metabolism are associated with cardiovascular disease, insulin resistance-diabetes, obesity and hypertension. Raised levels of serum TGs, and low high density lipoprotein (HDL) cholesterol levels are characteristic of lipotoxic diseases. HDLs have a defensive role in the prevention of atherogenic dyslipidemia by mediating cholesterol efflux from peripheral tissues through the hormone -dependent ATP-binding cassette (ABC) transporters back to the liver for excretion and elimination. Agents that raise the levels of high density lipoprotein cholesterol (HDLc) through cholesterol efflux provide a pharmaceutical solution for the prevention of hypercholesterolemia, atherogenic and cardiovascular disease. These hormone dependent cholesterol and lipid effluxing proteins are regulated by a protein named LXR. Understanding the functional role of LXR in skeletal muscle, a peripheral tissue that accounts for 40% of total body weight is of paramount importance in understanding whole body cholesterol homeostasis and lipid metabolism. Furthermore, LXR and LXR target genes that facilitate cholesterol efflux and consequently raise HDLc levels are important pharmaceutical targets. Identification of novel LXR targets in skeletal muscle, which has a significant role in insulin sensitivity and the blood lipid profile provides an additional platform for therapeutic intervention.Read moreRead less
Focimatrix Regulation Of Sex Steroid Hormones In The Ovary
Funder
National Health and Medical Research Council
Funding Amount
$291,309.00
Summary
Sex steroid hormones (e.g. oestrogen and testosterone), are important to male and female health. In the ovarian follicle I identified a novel form of extracellular matrix (focimatrix) which develops in the ovary before the synthetic enzymes needed for sex steroids are present. Using evidence from other tissues, I developed ideas on how this matrix regulates the enzymes for hormone synthesis. I will examine a mechanism by which focimatrix could directly affect steroid hormone production.
Genetic Programs Induced By The Nuclear Hormone Receptor PPARdelta In Muscle: Control Of Lipid And Energy Homeostasis
Funder
National Health and Medical Research Council
Funding Amount
$432,750.00
Summary
Lipid homeostasis is regulated by dietary intake, de novo synthesis and catabolism. Lipid disease is associated with hyperinsulinemia, and anomalous levels of the lipid triad, i.e. low HDL-cholesterol, high LDL-cholesterol and elevated triglycerides. Increased incidence of cardiovascular disease has been linked to dyslipidemias associated with diet and lifestyle. Diabetes, atherosclerosis, and obesity are comorbidities with these lipid disorders. HDLs have a defensive role in the prevention of d ....Lipid homeostasis is regulated by dietary intake, de novo synthesis and catabolism. Lipid disease is associated with hyperinsulinemia, and anomalous levels of the lipid triad, i.e. low HDL-cholesterol, high LDL-cholesterol and elevated triglycerides. Increased incidence of cardiovascular disease has been linked to dyslipidemias associated with diet and lifestyle. Diabetes, atherosclerosis, and obesity are comorbidities with these lipid disorders. HDLs have a defensive role in the prevention of dyslipidemia by mediating cholesterol efflux from tissues. In contrast, the LDLs accumulate in the arterial wall leading to atherosclerosis. Physiological maintenance of lipid homeostasis requires a dynamic balance between metabolic signalling cascades, diet, lifestyle etc. PPPARs are nuclear hormone receptors that function as fatty acid activated transcription factors that regulate lipid and cholesterol homeostasis. PPARs are bona fide targets for the development of therapeutic compounds useful in the treatment of lipid disorders. PPAR delta is abundantly expressed in skeletal muscle, a major mass peripheral tissue that accounts for ~40% of total body weight. Muscle is a major site of glucose metabolism and, fatty acid oxidation. Furthermore, it is an important regulator of cholesterol homeostasis and HDL levels. Consequently, it has a significant role in insulin sensitivity, the blood lipid profile and lipid metabolism. Understanding the functional role of PPAR delta in skeletal muscle, a peripheral tissue that accounts for 40% of total body weight is of paramount importance in understanding whole body lipid homeostasis. Understsanding these receptors may provide a pharmaceutical solution for the prevention of hyper-lipidemia--cholesterolemia, and atherogenic disease. Moreover, it may lead to the identification of agents that influence a major mass tissue in terms of lipid absorption, and increased fatty acid oxidation, and consequently normalize the blood lipid profile.Read moreRead less
IMMUNOPHILINS IN STEROID RECEPTOR- AND TISSUE-SPECIFIC ACTIONS: IMPLICATIONS FOR TREATMENT OF STEROID-BASED DISEASE
Funder
National Health and Medical Research Council
Funding Amount
$480,211.00
Summary
To convert steroid hormone signals in the cell steroid receptors rely on Hsp90 molecular chaperone machinery that is essential for receptor function and in particular 'helper' cohaperones that form part of receptor- Hsp90 complexes and fine-tune receptor responses to hormone. The present study addresses the fundamental role of the receptor helper' chaperone cyclophilin 40. Our study may have important implications for the treatment of steroid-based disease.
Role Of Liver Receptor Homologue-1 (LRH-1) In Male Germ Cells
Funder
National Health and Medical Research Council
Funding Amount
$224,250.00
Summary
Historically the steroid sex hormones - oestrogens and androgens - have been regarded as female- and male- specific sex hormones, respectively. Oestrogens are produced by the ovary and regulate female-specific processes such as ovulation and development of female sexual characteristics, whereas androgens are produced by the testis and regulate male-specific functions. However it is now clear that the distinction between oestrogen and androgen is not a sharp one. For example, we now know that oes ....Historically the steroid sex hormones - oestrogens and androgens - have been regarded as female- and male- specific sex hormones, respectively. Oestrogens are produced by the ovary and regulate female-specific processes such as ovulation and development of female sexual characteristics, whereas androgens are produced by the testis and regulate male-specific functions. However it is now clear that the distinction between oestrogen and androgen is not a sharp one. For example, we now know that oestrogens are produced within the testis and play a very important role in male fertility. Human males patients who are unable to synthesise oestrogens are infertile. Similarly, mice that cannot produce oestrogens are also infertile, due to a defect in sperm production. Oestrogens are therefore critical for normal male fertility, and reduced oestrogen production within the testis may be a significant cause of infertility which would be easily treatable in the clinic. The protein LRH-1 regulates oestrogen production in other tissues. This proposal aims to identify the role of LRH-1 in testicular oestrogen production by identifiying the genes regulated by LRH-1 and the proteins that interact with it in the testis. We also aim to study the structure of these proteins in infertile men. These studies will define new genes associated with male infertility and may lead to the development of more effective treatments for this common condition.Read moreRead less