Molecular Targeting To Telomerase And Cancer Cell Immortality By A Novel Inhibitor
Funder
National Health and Medical Research Council
Funding Amount
$430,812.00
Summary
Infinite growth of cancer cells is a hallmark of cancer. Telomerase is required for cancer cell immortality. Inhibition of telomerase may thus offer an opportunity to stop cancer cells. We have identified an inhibitor of telomerase. This project will study the mechanisms of action of the novel inhibitor, investigating how to control cancer cell immortality as a baseline for more applied anti-cancer therapeutic studies.
OVERCOMING RESISTANCE OF HUMAN MELANOMA TO CHEMOTHERAPY
Funder
National Health and Medical Research Council
Funding Amount
$499,500.00
Summary
Melanoma is the third most common cancer in women and men respectively. In NSW alone approximately 400 die each year from the disease. The main treatment of melanoma is surgical removal of the primary tumor on the skin but once the disease spreads beyond the skin to other organs there is no curative treatment. This study will identify whether resistance of melanoma to chemotherapy is due to failure to induce sufficient levles of pro-apoptotic BH3 only proteins and-or activation of apoptosis resi ....Melanoma is the third most common cancer in women and men respectively. In NSW alone approximately 400 die each year from the disease. The main treatment of melanoma is surgical removal of the primary tumor on the skin but once the disease spreads beyond the skin to other organs there is no curative treatment. This study will identify whether resistance of melanoma to chemotherapy is due to failure to induce sufficient levles of pro-apoptotic BH3 only proteins and-or activation of apoptosis resistance pathways. The results will be directly relevant to subsequent clinical trials in melanoma paients. Apoptosis may be triggered by chemotherapeutic agents but human melanoma shows wide variability in apoptotic responses to chemotherapy. Recent studies have shown that the Bcl-2 family of pro- and anti-apoptotic proteins and inhibitor of apoptosis proteins appear to be key regulators of the (mitochondrial) apoptosis pathway induced by chemotherapy. The activity of the proteins appear to be regulated by several signal pathways in the cell which may be activated by signals external or intrinsic to the cell. We wish to characterize the proteins involved in chemotherapy induced apoptosis, assess their variability between melanoma cells that are sensitive or resistant to apoptosis and characterize the signal pathways involved in regulating the proteins in human melanoma.Read moreRead less
Targeting Adaptive Mechanisms To Endoplasmic Reticulum Stress In Melanoma
Funder
National Health and Medical Research Council
Funding Amount
$511,294.00
Summary
Melanoma is a major Australian health problem, but there is no curative treatment once the disease spreads beyond the skin. We will study the role the response of melanoma cells to stress conditions of an organelle called endoplasmic reticulum in determining sensitivity of melanoma to killing induced by therapeutic drugs. If successful, this study will provide much needed new insights into the resistance of melanoma to treatment and point to new treatment approaches against the disease.
This Fellowship will focus on psychosocial issues in cancer, empowering patients to participate in their care, and improving communication between patients and health professionals. Research aims to reduce distress in immigrant, rural, advanced and young cancer patients and reduce fear of cancer recurrence in survivors; better understand the role of stress, coping and social support in the development of breast cancer; and improve communication about prognosis and end of life issues.