Diagnosing Chromosomal Translocations In Solid Tumours
Funder
National Health and Medical Research Council
Funding Amount
$410,997.00
Summary
Mis-repair of broken chromosomes can fuse together genes that then cause cancer. Current clinical tests are only capable of detecting single well-known gene fusions and are incapable of identifying new fusion events or fusion variations. We have developed a diagnostic technology, termed CaptureSeq, that is capable of finding all fusion genes in a patient sample. In this grant, we will demonstrate the use and advantages of CaptureSeq for diagnosing fusion genes in cancer patients.
Development Of Novel Gene Therapy Vectors For Thalassaemia
Funder
National Health and Medical Research Council
Funding Amount
$287,307.00
Summary
Thalassaemia, is a common inherited disorder affecting haemoglobin synthesis. Synthesis of ?/?-globin chain is balanced during normal red blood cell production. Any disruption in the ratio of ?/?-globin chain results in anaemia. In this study, we will explore gene therapy strategies to restore balanced ?:? globin expression and ultimately improve the severely anaemic phenotype in ?-thalassaemia patients.
Development Of A Blood-based Screening Test For Colorectal Neoplasia; Biomarker Expression In Circulating Tumor Cells And Tumor-derived Microvesicles
Funder
National Health and Medical Research Council
Funding Amount
$513,938.00
Summary
A blood-based test for bowel cancer and the premalignant lesion (i.e. adenomas) has potential to improve several aspects of screening for bowel cancer – improved capacity to detect lesions in well people who do not suspect their presence, avoidance of faecal sampling and fewer false-positive results. There is no reliable simple screening test for adenomas. This study aims at developing a practical blood test based on a device that filters and enriches cells from blood that carry these markers
Pancreatic Targeting Of IL-22 Therapy For Diabetes
Funder
National Health and Medical Research Council
Funding Amount
$484,644.00
Summary
Type 2 diabetes is one of the largest problems facing health care and presents an enormous therapeutic market. Our approach with IL-22 fights the disease at the core of the problem in the pancreatic ?-cells that make insulin. Our patent focuses on targeting IL-22 to the ?-cells which promises to maximise therapeutic benefits while minimising potential adverse effects in other tissues. Independently, and in collaboration with Novo Nordisk, we are making prototype drugs to achieve this.