Dr Callum Jones
MChem, PhD, AFHEA
Clinical Medicine, School of Medicine and Population Health
Postdoctoral Research Associate
+44 114 215 9210
Full contact details
Clinical Medicine, School of Medicine and Population Health
Room GU02, G Floor
The Medical School
Beech Hill Road
91Ö±²¥
S10 2RX
- Profile
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For enquiries, please contact – SMPH-West-Operational@sheffield.ac.uk
I completed my master’s degree in chemistry at the University of 91Ö±²¥ between 2013-2017 with my dissertation based in organic and medicinal chemistry.
I completed my PhD at the University of 91Ö±²¥ between the Department of Chemistry and the Department of Oncology and Metabolism. My thesis was centred on the development of transition metal complexes for their use in photodynamic therapy.
After this I joined the lab of Dr. Spencer Collis whereby my current research lies in using intermediate frequency, alternating electric fields (termed tumour treating fields) to disrupt and sensitise 3D-cultured, patient-derived glioblastoma cells towards chemoradiotherapy. This is in collaboration with Novocure.
- Qualifications
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- 2013-2017, Master of Chemistry (MChem), the University of 91Ö±²¥
- 2017-2021, Doctor of Philosophy (PhD), The Development of Photodynamic Therapy using Transition Metal Complexes, the University of 91Ö±²¥
- Research interests
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My research aims to develop and test new and innovative combination therapies to treat cancer which offers both higher potency and lower side effects than those currently available.
Currently, my work aims to enhance the treatment for glioblastoma multiforme (GBM) using alternating electric fields of intermediate frequency, termed tumour treating fields (TTF). Currently, GBM treatments still possess high relapse rates which are caused by repopulation from tumour edge cells which are often enriched with treatment resistant stem cell like subpopulations that possess a heightened DDR.
Primarily, TTF impose an anti-mitotic effect by disrupting microtubule alignment and their subsequent polymerisation which stalls mitotic progression and disrupts cytokinesis. Secondary lesser known TTF effects also cause DDR downregulation which permitting for potential sensitisation towards chemoradiotherapy and/or DDR inhibitors.
Additionally, I collaborate with the neurology team at the Royal Hallamshire Hospital to acquire, process and collect 3D grown, patient-derived glioma cells for testing and storage in the newly established GBM repository, the 91Ö±²¥ BioBank. This bank aims to build and store glioma cell lines which model spatial locations, biomarker expression and stem-cell like phenotypes which are all explicit difficulties in globally treating GBM.
- Publications
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Journal articles
- . Dalton Transactions, 48(18), 6132-6152.
- . Inorganic Chemistry.
- . European Journal of Organic Chemistry.
- . Cell Death & Disease, 15(12).
- . F1000Research, 13, 1316-1316.
- . Journal of Medicinal Chemistry.
- . F1000Research, 12, 954-954.
- . Cancers, 16(5), 863-863.
- . JBIC Journal of Biological Inorganic Chemistry.
- . British Journal of Cancer.
- . F1000Research, 12, 954-954.
- Grants
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- RoseTree Foundation PhD funding (2017-2020)
- Doctoral Academic Scholarship from the University of 91Ö±²¥ (2017-2020)
- Recipient of The Ray Charles Undergraduate Scholarship (2013-2017)
- Teaching activities
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- Lecturer (Cancer Biology and Therapeutics, MSc)
- Participates in teaching in lab-based projects both at pre and post graduate levels
- Mentor in the Thesis Mentoring Programme
- Associate Fellow of the Higher Education Academy