Professor Porrello is the Theme Director of Stem Cell Biology and Head of the Heart Regeneration Group at the Murdoch Children’s Research Institute. He also directs the Melbourne Node of the recently established Novo Nordisk Foundation Centre for Stem Cell Medicine (reNEW) and he is the founding Co-Director of the Melbourne Centre for Cardiovascular Genomics and Regenerative Medicine (CardioRegen). Prof Porrello’s research focuses on the development of regenerative therapies for children and adults with heart failure. Over the course of his career, he has made important contributions to our understanding of mammalian heart regeneration and has pioneered the development of human organoids for drug discovery. Prof Porrello is a co-founder of Dynomics, a biotechnology company focused on the development of new heart failure treatments using organoid technologies.
After completing his PhD in Physiology at The University of Melbourne, Prof Porrello was awarded an NHMRC/NHF C.J. Martin Fellowship to undertake postdoctoral training in Prof Eric Olson's laboratory at UT Southwestern Medical Center in Dallas, USA. Upon returning to Australia in 2012, Prof Porrello established the Cardiac Regeneration Laboratory at The University of Queensland, which he co-headed together with Dr James Hudson from 2013-2017.
Professor Porrello is the Theme Director of Stem Cell Biology and Head of the Heart Regeneration Group at the Murdoch Children’s Research Institute. He also directs the Melbourne Node of the recently established Novo Nordisk Foundation Centre for...
Professor Porrello is the Theme Director of Stem Cell Biology and Head of the Heart Regeneration Group at the Murdoch Children’s Research Institute. He also directs the Melbourne Node of the recently established Novo Nordisk Foundation Centre for Stem Cell Medicine (reNEW) and he is the founding Co-Director of the Melbourne Centre for Cardiovascular Genomics and Regenerative Medicine (CardioRegen). Prof Porrello’s research focuses on the development of regenerative therapies for children and adults with heart failure. Over the course of his career, he has made important contributions to our understanding of mammalian heart regeneration and has pioneered the development of human organoids for drug discovery. Prof Porrello is a co-founder of Dynomics, a biotechnology company focused on the development of new heart failure treatments using organoid technologies.
After completing his PhD in Physiology at The University of Melbourne, Prof Porrello was awarded an NHMRC/NHF C.J. Martin Fellowship to undertake postdoctoral training in Prof Eric Olson's laboratory at UT Southwestern Medical Center in Dallas, USA. Upon returning to Australia in 2012, Prof Porrello established the Cardiac Regeneration Laboratory at The University of Queensland, which he co-headed together with Dr James Hudson from 2013-2017.
Top Publications
Voges, HK, Mills, RJ, Porrello, ER, Hudson, JE.
Generation of vascularized human cardiac organoids for 3D in vitro modeling.
STAR Protocols
4(3)
:
102371
2023
view publication
Huurne, MT, Parker, BL, Liu, NQ, Qian, EL, Vivien, C, Karavendzas, K, Mills, RJ, Saville, JT, Abu-Bonsrah, D, Wise, AF, et al.
GLA-modified RNA treatment lowers GB3 levels in iPSC-derived cardiomyocytes from Fabry-affected individuals.
American Journal of Human Genetics
110(9)
:
1600 -1605
2023
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Rudraraju, R, Gartner, MJ, Neil, JA, Stout, ES, Chen, J, Needham, EJ, See, M, Mackenzie-Kludas, C, Lee, LYY, Wang, M, et al.
Parallel use of human stem cell lung and heart models provide insights for SARS-CoV-2 treatment.
Stem Cell Reports
18(6)
:
1308 -1324
2023
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Voges, HK, Foster, SR, Reynolds, L, Parker, BL, Devilée, L, Quaife-Ryan, GA, Fortuna, PRJ, Mathieson, E, Fitzsimmons, R, Lor, M, et al.
Vascular cells improve functionality of human cardiac organoids.
Cell Reports
42(5)
:
112322
2023
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McNamara, JW, Parker, BL, Voges, HK, Mehdiabadi, NR, Bolk, F, Ahmad, F, Chung, JD, Charitakis, N, Molendijk, J, Zech, ATL, et al.
Alpha kinase 3 signaling at the M-band maintains sarcomere integrity and proteostasis in striated muscle.
Nature Cardiovascular Research
2(2)
:
159 -173
2023
view publication