Researcher

Associate Professor Jeff Holst

Biography

Associate Professor Jeff Holst leads the Translational Cancer Metabolism Laboratory in the Adult Cancer Program at the University of NSW. He completed his PhD at St Vincent’s Hospital/University of NSW and undertook postdoctoral studies at St Jude Children’s Research Hospital in the USA (2003-2006). He returned to Australia in 2006, before starting his own lab at the Centenary Institute in 2008. In 2018, he was recruited to the University...view more

Associate Professor Jeff Holst leads the Translational Cancer Metabolism Laboratory in the Adult Cancer Program at the University of NSW. He completed his PhD at St Vincent’s Hospital/University of NSW and undertook postdoctoral studies at St Jude Children’s Research Hospital in the USA (2003-2006). He returned to Australia in 2006, before starting his own lab at the Centenary Institute in 2008. In 2018, he was recruited to the University of NSW, taking up a joint position in the School of Medical Sciences and the Prince of Wales Clinical School, located within the Lowy Cancer Research Centre.


My Research Activities

The Translational Cancer Metabolism Laboratory is focussed on understanding the role of amino acid uptake and metabolism in melanoma, breast and prostate cancer. The lab examines the basic biology regulating amino acid transporter expression and function, the downstream metabolic pathways, as well as developing new therapeutics to target the transporters and metabolic processes.

Key Publications:

van Geldermalsen M, Quek LE, Turner N, Freidman N, Pang A, Guan YF, Krycer JR, Ryan R, Wang Q, Holst J. Benzylserine inhibits breast cancer cell growth by disrupting intracellular amino acid homeostasis and triggering amino acid response pathways. BMC Cancer, 18(1):689, 2018.

Marshall AD, van Geldermalsen M, Otte NJ, Lum T, Vellozzi M, Thoeng A, Pang A, Nagarajah R, Zhang B, Wang Q, Anderson L, Rasko JEJ, Holst J. ASCT2 Regulates Glutamine Uptake and Cell Growth in Endometrial Carcinoma. Oncogenesis, 6(7):e367, 2017.

van Geldermalsen M, Wang Q, Nagarajah R, Marshall A, Thoeng A, Gao D, Ritchie W, Feng Y, Bailey CG, Deng N, Harvey K, Beith JM, Selinger C, O’Toole S, Rasko JEJ, Holst J. ASCT2/SLC1A5 controls glutamine uptake and tumour growth in triple-negative basal-like breast cancer. Oncogene, 35(24):3201-8, 2016.

Wang Q, Hardie R-A, Hoy AJ, van Geldermalsen M, Gao D, Fazli L, Sadowski MC, Balaban S, Schreuder M, Nagarajah R, Wong JJ-L, Metierre C, Pinello N, Otte, NJ, Lehman ML, Gleave M, Nelson CC, Bailey CG, Ritchie W, Rasko JEJ, Holst J. Targeting ASCT2-Mediated Glutamine Uptake Blocks Prostate Cancer Growth and Tumour Development. The Journal of Pathology 236(3):278-89, 2015.

Wang Q, Beaumont KA, Otte NJ, Font J, Bailey CG, van Geldermalsen M, Sharp DM, Tiffen JC, Ryan RM, Jormakka M, Haass NK, Rasko JEJ, Holst J. Targeting glutamine transport to suppress melanoma cell growth. International Journal of Cancer 135(5):1060-71, 2014.

Wang Q, Tiffen J, Bailey CG, Lehman ML, Ritchie W, Fazli L, Metierre C, Feng Y, Li E, Gleave M, Buchanan G, Nelson CC, Rasko JEJ and Holst J. Targeting amino acid transport in metastatic castration-resistant prostate cancer: Effects on cell cycle, cell growth and tumor development. Journal of the National Cancer Institute. 105(19):1463-73, 2013.

Wong JJ-L, Ritchie W, Ebner OA, Selbach M, Wong JWH, Huang Y, Gao D, Pinello N, Gonzalez M, Baidya K, Thoeng A, Khoo T-L, Bailey CG, Holst J* and Rasko JEJ*. Orchestrated intron retention regulates normal granulocyte differentiation. Cell. 154(3) 583-595, 2013.

Wang Q, Bailey CG, Ng C, Tiffen J, Thoeng A, Minhas V, Lehman ML, Hendy SC, Buchanan G, Nelson CC, Rasko JEJ and Holst J. Androgen receptor and nutrient signaling pathways coordinate the demand for increased amino acid transport in prostate cancer progression. Cancer Research 71(24):7525-36, 2011.


My Research Supervision


Supervision keywords


Areas of supervision

PhD

Honours

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Location

Level 2 | Lowy Cancer Research Centre C25
UNSW SYDNEY NSW 2052 AUSTRALIA

Contact

(02) 9385 1475