Activation Of GDF9 Regulates Human Folliculogenesis
Funder
National Health and Medical Research Council
Funding Amount
$531,690.00
Summary
GDF9 is a key regulator of fertility in female mammals, as it controls the process of folliculogenesis. In this grant, we will demonstrate the importance of GDF9 in human folliculogenesis, determine the mechanisms that activate GDF9 and show why aberrant GDF9 activation leads to ovarian disorders. Collectively, the outcomes of this proposal will increase our understanding of the fundamental mechanisms that regulate ovarian folliculogenesis and provide new avenues to manipulate this process.
SOFT And TEXT Premenopausal Randomised Adjuvant Endocrine Breast Cancer Trials.
Funder
National Health and Medical Research Council
Funding Amount
$722,380.00
Summary
SOFT and TEXT trials enrolled premenopausal women with hormone-sensitive early breast cancer to assess if post-operative hormone treatment that included ovarian function suppression plus tamoxifen, or an aromatase inhibitor exemestane, could improve outcomes. Initial results indicate fewer breast cancer recurrences with the treatment combination of ovarian suppression plus exemestane as compared with tamoxifen, and follow-up of women in these trials can show if overall survival can be improved.
Polycystic ovary syndrome (PCOS) affects 5-10% of women worldwide, yet its origins remain unknown. Androgens are implicated in the development of PCOS, but the decisive, invasive studies needed to confirm and elucidate their roles are not feasible in women. Hence, using our innovative mouse models of androgen resistant female mice, this study will determine the role of androgens in PCOS aiming to better understand, and identify new treatments for this common female reproductive disorder.
Using Mouse Models To Decipher The Function Of Caspase-2 In Limiting Aneuploidy Tolerance And Cancer
Funder
National Health and Medical Research Council
Funding Amount
$871,162.00
Summary
Aneuploidy or abnormal chromosome number is a feature of cancer cells. The extent of aneuploidy is often predictive of prognosis and the effectiveness of cancer treatment. We discovered that a tumour suppressing protein, caspase-2, is important for deleting aneuploid cells that may otherwise become cancerous. In this project we will use cancer models to decipher how caspase-2 safeguards against aneuploidy and cancer to better understand how cancer cells can survive and be targeted for treatment.
Attenuating Severe Infections In Chronic Inflammatory Diseases Through Modulation Of Transforming Growth Factor-β Activity
Funder
National Health and Medical Research Council
Funding Amount
$611,793.00
Summary
Asthma and chronic obstructive pulmonary disease (COPD) are characterised by enhanced TGF? expression, which is accompanied by susceptibility to recurrent viral and bacterial infections. Such infections exacerbate lung inflammation in these patients, generally requiring emergency department treatment. This project proposes to clarify the therapeutic potential of TGF? inhibitors to reduce the impact of viral infections in patients with COPD and asthma.
‘Transcriptional Tumour Suppression’ By Pax5 And Ikaros In B Progenitor Acute Lymphoblastic Leukaemia
Funder
National Health and Medical Research Council
Funding Amount
$558,927.00
Summary
B-progenitor acute lymphoblastic leukaemia (B-ALL) is the most common cancer in children. The genes Pax5 and Ikaros are frequently mutated in B-ALL, but how this contributes to leukaemia development and treatment resistance remains unclear. We have recently produced new B-ALL models driven by reversible suppression of Pax5 or Ikaros activity, and propose to use these models to uncover how these genes control leukaemia differentiation and regression.
Mechanism Of Leukaemia Suppression By The Transcription Factor Ikaros
Funder
National Health and Medical Research Council
Funding Amount
$655,630.00
Summary
A subset of acute lymphoblastic leukaemias are characterised by mutations in the Ikaros gene. These leukaemias respond poorly to chemotherapy and require novel therapeutic approaches. We have discovered a new function of Ikaros in regulating leukaemia cell death. This project investigates how Ikaros regulates cell death and whether this is a general mechanism. Understanding Ikaros function is a step toward improved treatments for this aggressive type of leukaemia.
Molecular Pathways Mediating The Anti-tumour Activity Of WIF1
Funder
National Health and Medical Research Council
Funding Amount
$462,342.00
Summary
Osteosarcoma is the most common bone cancer. Treatment often entails aggressive surgery with intensive chemotherapy, although one third of those diagnosed will still die from this disease. We have found that the molecule WIF1 can suppress osteosarcoma growth. In this project we aim to identify genetic modifiers of WIF1, potential WIF1 interactors and define active domains of WIF1 for the development of more effective targeted therapeutics for osteosarcoma.
Defining The Role Of Reserve Stem Cells In Gastric Cancer
Funder
National Health and Medical Research Council
Funding Amount
$563,739.00
Summary
Over 800,000 deaths from stomach cancer occur annually. This often fatal disease is caused by chronic inflammation of the stomach lining. This proposal will investigate how stomach inflammation ‘reprograms’ a new type of 'cancer stem cell' to form tumours and evaluate ways to therapeutically target these cells to prevent disease. Collectively, these studies will inform new approaches for stomach cancer prevention and treatment.
Cancers have thousands of mutations, so they should look a bit like a viral infection. If so, why doesn’t the immune system just destroy them outright, like they would a virus? We think the mutated proteins cause a ‘brake’ to be put on the anti-cancer immune response, and also that cancers subvert the anti-cancer attack by remaining hidden in the target zone. Unblocking these “brakes” might lead to new treatments.