Jessica Buck
Senior Research Fellow
DPhil
jessica.buck@thekids.org.au
Dr Jessica Buck is using her unique training in both neuroscience and cancer to tackle the challenges of childhood brain cancer research. Jessica completed her Bachelor of Biomedical Science at the University of Newcastle in 2013. Following this she moved to the UK, where she completed her MSc in Neuroscience and a DPhil in Oncology in 2019 from the University of Oxford.
Jessica was supported by Charlie Perkins, Chevening, and Oxford Australia scholarships, and was awarded the 2019 Young Australian Achiever of the Year in the UK award for her research, leadership and sporting achievements. Jessica is currently a Forrest Research Fellow based at The Kids Research Institute Australia and the University of Western Australia.
Find Dr Buck on ORCID.
Projects
Finding new, safer and targeted therapies for paediatric brain cancer that amplify responses to radiation therapy
Radiation therapy is an essential component of brain cancer treatment. However, the high doses currently required are extremely damaging to the growing brains and bodies of children.
Developing and characterising juvenile models of aggressive paediatric brain cancers for the evaluation of novel immunotherapies.
While profound treatment responses have been realised using immunotherapy for some cancer types, this is yet to be seen for paediatric brain cancer patients.
Published research
Towards precision cancer medicine for Aboriginal and Torres Strait Islander cancer health equity
Delivering cancer control at scale for Aboriginal and Torres Strait Islander communities is a national priority that requires Aboriginal and Torres Strait Islander leadership and codesign, as well as significant involvement of the Aboriginal community-controlled health sector. The unique genomic variation observed among Aboriginal and Torres Strait Islander peoples may have implications for standard and precision medicine.
Patient-Derived Orthotopic Xenograft Models for High-Grade Pediatric Brain Cancers
Patient-derived orthotopic xenograft (PDOX) mouse models are considered the gold standard for evidence-based preclinical research in pediatric neuro-oncology. This protocol describes the generation of PDOX models by intracranial implantation of human pediatric brain cancer cells into immune-deficient mice, and their continued propagation to establish cohorts of animals for preclinical research.
Cancer therapies inducing DNA damage
The induction of DNA damage has been employed as an anticancer strategy for more than 100years, first starting with the use of radiation to treat stomach cancer followed by the first uses of DNA-damaging chemotherapy to treat childhood leukemia.
December 2022
Veliparib Is an Effective Radiosensitizing Agent in a Preclinical Model of Medulloblastoma
Medulloblastoma is the most common malignant childhood brain tumor, and 5-year overall survival rates are as low as 40% depending on molecular subtype, with new therapies critically important. As radiotherapy and chemotherapy act through the induction of DNA damage, the sensitization of cancer cells through the inhibition of DNA damage repair pathways is a potential therapeutic strategy.
Education and Qualifications
- DPhil in Oncology (PhD) – University of Oxford, 2019
- MSc in Neuroscience – University of Oxford, 2015
- Bachelor of Biomedical Science with the Faculty of Health and Medicine Medal – University of Newcastle (Australia), 2013
Awards/Honours
- 2020 – Forrest Foundation Postdoctoral Fellowship
- 2019 – Young Australian Achiever of the Year in the United Kingdom
- 2019 – Aurora Internship Program
- 2015 – Green Templeton College DPhil Scholarship
- 2014 – Charlie Perkins Scholarship
- 2014 – Chevening Scholarship
- 2014 – Oxford Australia James Fairfax Scholarship
Active Collaborations
- “Reducing the harm caused by radiation for children with brain cancer” with Prof Martin Ebert, Sir Charles Gairdner Hospital.