Is The Tumour Suppressor Activity Of P53 Independent Of Its Transcriptional Role?
Funder
National Health and Medical Research Council
Funding Amount
$162,920.00
Summary
To become cancerous, a cell must avoid death. As such, cancer cells often contain defects in cell death pathways which render them resistant to pro-death stimuli, including many chemotherapeutic drugs. To design new and better cancer therapies, it is essential that we understand the critical molecular processes that control cell death. This will allow the development of more effective ways to either reset, or bypass, defects in cell death pathways which have contributed to cancer formation.
Role Of Insulin-like Growth Factor Binding Protein-3 As A Mediator Of Apoptosis In Human Breast Cancer
Funder
National Health and Medical Research Council
Funding Amount
$352,234.00
Summary
Human breast cancer, like other human cancers, is characterised by a disruption of normal cellular growth due to defects in the control of both cell proliferation and cell death. Understanding how these processes are regulated in normal and cancerous breast cells is an important goal for breast cancer treatment. Insulin-like growth factor binding protein (IGFBP)-3 is a regulator of normal and cancerous breast cell growth and has been implicated as a negative prognostic indicator for breast cance ....Human breast cancer, like other human cancers, is characterised by a disruption of normal cellular growth due to defects in the control of both cell proliferation and cell death. Understanding how these processes are regulated in normal and cancerous breast cells is an important goal for breast cancer treatment. Insulin-like growth factor binding protein (IGFBP)-3 is a regulator of normal and cancerous breast cell growth and has been implicated as a negative prognostic indicator for breast cancer progression. IGFBP-3 inhibits the growth of breast cancer cells and causes them to die by a process called apoptosis. We are determining how IGFBP-3 causes breast cancer cells to die by apoptosis. In particular, we are investigating whether IGFBP-3 may make breast cancer cells more sensitive to the apoptotic effects of ionising radiation and chemotherapeutic drugs which are both current therapies for the treatment of breast carcinoma. These studies may, in turn, elucidate the mechanisms that lead to increased resistance of breast cancers to these treatments.Read moreRead less