Discovering The Cell Of Origin For Rare Ovarian Cancers
Funder
National Health and Medical Research Council
Funding Amount
$599,438.00
Summary
Ovarian cancer has many different varieties, and even though they all grow at the ovary, for some types we don't know the cell where the cancer starts. Using novel sequencing methods, this study will find the tissue of origin for two rare subtypes. This finding will help us to develop appropriate pre-clinical models that we can use to test emerging cancer therapies. Identifying the cell of origin will provide key insights into early detection or even prevention of these rare but deadly diseases.
Identification Of Therapy-resistant Cells Driving Relapse In Medulloblastoma From Integrated Spatial Transcriptomics And Tissue Imaging
Funder
National Health and Medical Research Council
Funding Amount
$749,272.00
Summary
Medulloblastoma (MB) is the most common cause of cancer related mortality in children, with relapsed MB nearly a universally fatal event. Relapsed MB can be caused by pre-existing rare cells that escape treatment and continue to evolve. This project will identify the organisation of all cell types within patient derived xenograft models of MB, monitoring how this changes throughout tumour progression and drug treatment. We will identify rare cells responsible for driving recurrence.
Modulating COVID-19 Disease By Targeting Virus And Virus-induced Responses Through Pharmaceutical And Mechanical Ventilation Strategies: SARS-CoV-2 S-protein, ACE2 And TMPRSS2
Funder
National Health and Medical Research Council
Funding Amount
$628,856.00
Summary
COVID-19 is a current global pandemic that is likely to be an on-going threat. We need a multipronged strategy to combat COVID-19, including therapeutic anti-virals and clinical practice management strategy. We will address both these points to define the mechanisms triggering disease, test existing drugs targeting androgens and modify the way doctors use ventilators to treat COVID-19 disease in the intensive care unit. Outcomes will have impact beyond COVID-19 for managing viral lung disease.