Elucidating The Function Of Rho-ROCK Signalling In The Regulation Of Cancer Progression
Funder
National Health and Medical Research Council
Funding Amount
$636,568.00
Summary
As cancers progress from benign to more malignant forms, the way in which cancer cells respond to external influences changes dramatically. These cells subvert the normal interactions between proteins which pass signals from outside the cell to the inside, to control cell behaviour and assume a survival advantage. We plan to study a form of cell signalling that is often abnormal in cancer in order to identify technologies for limiting cancer growth and spread by interfering with these signals.
Regulation Of Breast Cancer Metastasis By MiR-193b And MiR-342-3p
Funder
National Health and Medical Research Council
Funding Amount
$581,537.00
Summary
When breast cancer spreads to other organs, it results in high morbidity and mortality. MicroRNAs are a class of genes that control the expression of other genes, some of which are involved in the spread of cancer. In this project we will examine the function of two microRNA species that we have found to be associated with breast cancer spread. The anticipated outcome is a better knowledge of the genes that control cancer spread and the identification of new molecular targets for therapy.
Deciphering Tumour Heterogeneity Of Breast Cancer Metastases Using Barcoded Patient Derived Xenografts
Funder
National Health and Medical Research Council
Funding Amount
$583,161.00
Summary
Breast cancer mortality is largely due to metastases that seed from the primary tumour. Breast tumours are known to contain a heterogeneous mix of cells, but the precise way that cells are selected for tumour growth and metastasis (as well as their response to systemic therapy) is not well understood. In this study we will use patient samples and cellular ‘barcoding’ to track the destiny of every single clone throughout disease progression and study the effect of various therapies on metastasis.
Identification Of New Therapeutic Targets In Neuroblastoma Through ABCC Transporter Associated Pathways.
Funder
National Health and Medical Research Council
Funding Amount
$591,436.00
Summary
Neuroblastoma accounts for 15% of childhood cancer deaths. Children diagnosed over 1 year have survival rates below 40%. New research shows that certain genes previously implicated in drug resistance contribute to neuroblastoma development. We will investigate their role using a new neuroblastoma model and a range of biochemical and cell biology techniques. This research will improve our understanding of neuroblastoma biology and identify new therapeutic targets in this and other cancers.
Improving Outcomes For Women Diagnosed With Mucinous Ovarian Cancer
Funder
National Health and Medical Research Council
Funding Amount
$598,238.00
Summary
Mucinous ovarian cancer (MOC) is different from other ovarian cancers but few studies have characterized the genetic changes specific to this subtype. It is often confused with metastases from other organs and does not respond well to standard ovarian cancer therapies. If MOC is more similar to mucinous cancers from other organs than other ovarian cancers, it may be better treated with chemotherapeutics that show success with other mucinous tumours.
Sympathetic Nervous System Regulation Of The Tumour Microenvironment
Funder
National Health and Medical Research Council
Funding Amount
$396,212.00
Summary
Metastasis is the major cause of morbidity and mortality in breast cancer. These studies will evaluate the translational opportunity of targeting the sympathetic nervous system as a common regulator of cancer progression pathways. By exploiting sensitive imaging technology for non-invasive, real-time assessment of stress biology, these studies will define the neuroendocrine mechanisms that operate in the tumour microenvironment to support dissemination and arrest of cancer cells in target organs ....Metastasis is the major cause of morbidity and mortality in breast cancer. These studies will evaluate the translational opportunity of targeting the sympathetic nervous system as a common regulator of cancer progression pathways. By exploiting sensitive imaging technology for non-invasive, real-time assessment of stress biology, these studies will define the neuroendocrine mechanisms that operate in the tumour microenvironment to support dissemination and arrest of cancer cells in target organs.Read moreRead less
The Ludwig Institute is adopting a two prong approach in the fight against cancer. Ludwig scientists are developing improved and sensitive scanning methods to aid in the conduct of field trials of new anti-cancer antibodies. In addition, they are also developing new targeted anti-cancer antibodies with improved properties that have the ability to bind to tumours while sparing normal tissues. These drugs can either attack the cancer directly or be used to carry drugs to the target thereby shrinki ....The Ludwig Institute is adopting a two prong approach in the fight against cancer. Ludwig scientists are developing improved and sensitive scanning methods to aid in the conduct of field trials of new anti-cancer antibodies. In addition, they are also developing new targeted anti-cancer antibodies with improved properties that have the ability to bind to tumours while sparing normal tissues. These drugs can either attack the cancer directly or be used to carry drugs to the target thereby shrinking the tumour.Read moreRead less