Probing Changes In G Protein-coupled Receptor Signalling Networks During Breast Cancer Progression
Funder
National Health and Medical Research Council
Funding Amount
$892,733.00
Summary
The b2-adrenoceptor is a protein receptor that enables cells to respond to hormones. In breast cancer, this receptor causes more aggressive tumour cells to metastasise faster in response to stress. This proposal aims to understand why this response occurs in only very aggressive cells, and to identify how we can better target blocking drugs to this receptor. This could allow us to design better drugs with fewer side effects.
Elucidation Of The Molecular Requirements Of The Low Affinity 'state' Of The Beta1-adrenoceptor
Funder
National Health and Medical Research Council
Funding Amount
$535,500.00
Summary
Beta-blockers are used for the management of cardiovascular diseases including heart failure, ischaemic heart disease and high blood pressure. Beta-blockers mostly work by blocking the effects of a naturally occuring chemical called noradrenaline. Beta-blockers can be used to prevent noradrenaline induced increases in the rate and force of human heart contraction. We have discovered that one group of beta-blockers exemplified by CGP 12177 has the remarkable property of not only being able to blo ....Beta-blockers are used for the management of cardiovascular diseases including heart failure, ischaemic heart disease and high blood pressure. Beta-blockers mostly work by blocking the effects of a naturally occuring chemical called noradrenaline. Beta-blockers can be used to prevent noradrenaline induced increases in the rate and force of human heart contraction. We have discovered that one group of beta-blockers exemplified by CGP 12177 has the remarkable property of not only being able to block beta-receptors but they can also stimulate them at higher concentrations. Thus low concentrations block the effects of noradrenaline, but higher concentrations stimulate the receptor. More puzzling is that the stimulant effects of this group of beta-blockers cannot be easily blocked. To explain this we hypothesize that human beta-receptors can exist in two different 'states'. One 'state' can be stimulated by noradrenaline and blocked by low concentrations of beta-blockers such as propranolol and CGP 12177. Another 'state' of the same receptor is resistant to blockade by beta-blockers such as propranolol but can be stimulated by beta-blockers such as CGP 12177. This project seeks to investigate the molecular basis of the beta-adrenoceptor that is responsible for stimulant effects of beta-blockers. Specifically it explores the components of the beta-adrenoceptor that are critically and uniquely important for interacting with the stimulant beta-blockers. This project is an important increment in our laboratories research program to increase our understanding of the effects of beta-blockers. Our long term goal is to be able to develop beta-blockers that can block both states of the beta-adrenoceptor to provide a more effective block of the receptor and in particular for the improved management of heart failure.Read moreRead less
Novel Muscle Therapeutics Through Selective Beta-Adrenoceptor Signalling
Funder
National Health and Medical Research Council
Funding Amount
$603,608.00
Summary
Muscle wasting is an urgent and unmet health risk commonly associated with ageing; cancer, muscle diseases, and conditions including cardiovascular and metabolic disorders. Manipulating beta-adrenergic signalling is a therapeutic target for muscle wasting but treatments have so far been limited due to cardiaovascular side effects. Using cutting edge technologies, we will identify treatments that effectively separate beneficial effects on skeletal muscles from unwanted effects on the heart.
Novel Actions Of Beta-adrenoceptor Antagonists: Implications For The Treatment Of Cardiac Failure
Funder
National Health and Medical Research Council
Funding Amount
$142,630.00
Summary
Almost 2-3 of drugs on the market act on G protein-coupled receptors, and many are antagonists that block receptors. Antagonists were seen as inert compounds that prevent access of natural neurotransmitters or hormones, but recent studies indicate distinct actions. We believe that atypical effects of beta-adrenergic antagonists may explain their usefulness in treating cardiac failure. We seek to understand the process and develop assays to aid the development of new drugs for cardiac failure.