MRFF support of Stem Cell Research @ UniMelb

The University of Melbourne administers the Medical Research Future Fund Accelerated Research stem cell projects: five national teams translating stem cell medicine. Read about the research taking stem cells from the lab into the clinic.

Accelerated Research Initiative

In 2018 the University of Melbourne was awarded $3M from the Medical Research Future Fund (MRFF) Accelerated Research initiative to support national teams of experts to translate their stem cell research. The scheme was run for partner organisations of the Stem Cells Australia network and established by Stem Cells Australia and Centre for Stem Cell Systems executive staff.

The Accelerated Research initiative supports researchers working to develop new treatments and cures for debilitating conditions, in areas of identified unmet need and has now been consolidated into the Emerging Priorities and Consumer-Driven Research initiative under the MRFF 10-year plan.

The MRFF Accelerated Research initiative disease teams are managed by Dr Camille Shanahan.

Camille develops translational opportunities  from teams of stem cell researchers across Australia, including reviewing the of scope and capacity of stem cell research towards specific disease areas, clinical translation programs and/or commercialisation opportunities.

Camille can be contacted via csha@unimelb.edu.au or on +61 423 715 640

This funding supports five pilot disease team projects:

  • Towards novel treatments for genetic causes of blindness

    This project aims to save the sight of children with rare genetic defects that slowly cause blindness. This would ultimately involve modifying the mutation within the patient’s eye using gene editing tools. The safety and effectiveness of this approach must be tested before moving to clinical trial. It is possible to build a model of a human eye from patient stem cells. Using this approach, researchers will carry out a unique human-based approach to determining whether this treatment is likely to work. The team includes clinical ophthalmologists with experience in taking novel treatments into eye and the charity Genetic Cures Australia. If successful, this innovative technology will have widespread application in many genetic and congenital diseases that affect millions of people.

    For more information on this project contact Camille Shanahan on csha@unimelb.edu.au or +61 423 715 640

    Investigators from the University of Melbourne

    • Professor Alice P├ębay (University of Melbourne)
    • Lisa Kearns (University of Melbourne and Centre for Eye Research Australia)

    Investigators from other institutes

  • Human heart tissue for understanding heart disease

    This project aims to repair and reconstruct tissues for kids with heart defects. More than 2000 children are born with major heart defects in Australia each year. While many can be saved via early and invasive surgical intervention, in many instances life span is limited and quality of life restricted. It is possible to generate human heart muscle from pluripotent stem cells. This provides the possibility of engineering contractile human tissue that may be able to improve the long term outcome for such children. There is a robust heart stem cell network nationally working right across the space of modelling heart disease, improving heart repair and potentially recreating heart tissue to treat kids with congenital heart disease. This group is well aligned with HeartKids and has strong links with the cardiac surgeons and cardiologists around Australia.

    For more information on this project contact Camille Shanahan on csha@unimelb.edu.au or +61 423 715 640

    Investigators from University of Melbourne

    • LEAD: A/Professor Enzo Porrello (Murdoch Children's Children Institute and University of Melbourne)
    • Dr David Elliott (Murdoch Children's Children Institute and University of Melbourne)
    • Dr Christian Brizard (Royal Children's Hospital, Murdoch Children's Children Institute and University of Melbourne)
    • Dr Yves D'Udekem (Royal Children's Hospital, Murdoch Children's Children Institute and University of Melbourne)
    • Dr Igor Konstantinov (Royal Children's Hospital, Murdoch Children's Children Institute and University of Melbourne)
    • Dr Michael Cheung (Royal Children's Hospital, Murdoch Children's Children Institute and University of Melbourne)

    Investigators from other institutes

  • Stem Cells for Sight: Building the pathway from the lab to the clinic

    This project aims to develop a treatment for people that are blind due to damage to their cornea. Vision impairment burdens society more than heart disease and poor mental health. In Australia, there is an urgent unmet need for stem cell treatments for the cornea that are able to restore vision. This project will develop the best techniques for treating corneal blindness in Australia, manufacturing the cells needed to do this and training clinicians in the technique. This project provides the possibility of restoring vision in patients with corneal blindness in Australia. This Disease Team has support from the National Stem Cells Foundation for Australia and brings together ophthalmic clinicians, stem cell researchers and bioethicists to address the burden of vision impairment.

    For more information on this project contact Camille Shanahan on csha@unimelb.edu.au or +61 423 715 640

    Investigators from the University of Melbourne

    Investigators from other institutes

  • Mechanisms and targeted treatment for neurogenetic disorders: SCN2A

    This project will develop new therapies for severe developmental and epileptic encephalopathies and autism disorders caused by mutations in the SCN2A gene and ultimately for other genetic disorders that affect the nervous system. While these disorders are rare, the unmet need is extremely high: conventional anti-epileptic drugs are mostly ineffective in the treatment of seizures and have no impact on cognitive and developmental delay seen in the affected children. The SCN2A gene has emerged as the major single gene linked to neurogenetic disorders. It encodes a brain sodium channel essential for the regulation of neuronal excitability. Joining the efforts of experts in clinical and functional epilepsy research, neurodevelopment and stem cell molecular genetics, this team aims to use induced pluripotent stem cell (iPSC) models to identify SCN2A disease mechanisms and assess the efficacy of SCN2A targeted treatments in these models. This will enable accelerated deployment of novel therapies that will lead to preferable clinical outcomes, improved quality of life for patients and their families and thus reduced socio-economic burden.

    For more information on this project contact Camille Shanahan on csha@unimelb.edu.au or +61 423 715 640

    Investigators from University of Melbourne

    Investigators from other institutes

  • A stem-cell derived auxiliary kidney to provide partial renal function in end stage renal disease patients

    The ultimate aim of this disease team is to develop transplantable kidneys generated from human pluripotent stem cells. Patients with kidney failure are either treated with dialysis or donor organ transplantation. At present, chronic kidney (renal) failure costs the Australian Government $1 billion per annum (>$25 billion per annum in the US). Globally, more than 3 million patients a year require treatment for kidney failure, with >70% of these treated using dialysis and hence facing a poor quality of life and high mortality. Hence, there is an urgent need to find alternative treatment options. This team including renal clinicians, stem cell biologists and engineers has developed an approach to recreate human kidney tissue from human pluripotent stem cells (kidney organoids). Early studies transplanting such organoids shows that they link to the blood supply of the host. With improvements in scale and structure, this may provide functional replacement for failing kidneys as alternative to dialysis for the treatment of kidney failure.

    For more information on this project contact Camille Shanahan on csha@unimelb.edu.au or +61 423 715 640

    Investigators from University of Melbourne

    Investigators from other institutes

Stem Cell Therapies Mission

The Australian Government’s is also supporting stem cell research through the Medical Research Future Fund Stem Cell Therapies Mission. This research funding program will invest $150 million over nine years to support world-leading translational stem cell research that develops and delivers innovative, safe and effective stem cell medicines to improve health outcomes, in partnership with patients and carers.