Summary
Professor Keun joined Imperial in 2001 after completing undergraduate and postgraduate degrees from Oxford University in Chemistry and Biochemistry. His research programme centres on the application of small molecule profiling (metabolomics & small RNA sequencing) to problems in oncology and toxicology . His current work includes:
- using systems biology to understand and exploit post-transcriptional regulation of metabolism by microRNAs and RNA splicing
- identifying translational biomarkers of drug toxicity
- investigating metabolic inhibitors as an anti-cancer therapies
- measuring metabolic risk factors for cancer in population studies
- understanding the links between lifetime environmental exposure ('the exposome') and health outcomes
Prof Keun's research is supported by Cancer Research UK, EU-FP7/Horizon 2020, AstraZeneca/BBSRC Prostate Cancer UK
Selected Publications
Journal Articles
Xu Y, Nijhuis A, Keun HC, 2022, RNA-binding motif protein 39 (RBM39): an emerging cancer target, British Journal of Pharmacology, Vol:179, ISSN:0007-1188, Pages:2795-2812
Nijhuis A, Sikka A, Yogev O, et al., 2022, Indisulam targets RNA splicing and metabolism to serve as a therapeutic strategy for high-risk neuroblastoma, Nature Communications, Vol:13, ISSN:2041-1723
Stratakis N, Siskos AP, Papadopoulou E, et al., 2022, Urinary metabolic biomarkers of diet quality in European children are associated with metabolic health, Elife, Vol:11, ISSN:2050-084X, Pages:1-20
Dossus L, Kouloura E, Biessy C, et al., 2021, Prospective analysis of circulating metabolites and endometrial cancer risk, Gynecologic Oncology, Vol:162, ISSN:0090-8258, Pages:475-481
Calvo-Serra B, Maitre L, Lau C-HE, et al., 2020, Urinary metabolite quantitative trait loci in children and their interaction with dietary factors, Human Molecular Genetics, Vol:29, ISSN:0964-6906, Pages:3830-3844
Robinson O, 2020, Prenatal exposure to perfluoroalkyl substances associated with increased susceptibility to liver Injury in children, Hepatology, Vol:72, ISSN:0270-9139, Pages:1758-1770
Barnes EME, Xu Y, Benito A, et al., 2020, Lactic acidosis induces resistance to the pan-Akt inhibitor uprosertib in colon cancer cells, British Journal of Cancer, Vol:122, ISSN:0007-0920, Pages:1298-1308
Koufaris C, Valbuena GN, Pomyen Y, et al., 2016, Systematic integration of molecular profiles identifies miR-22 as a regulator of lipid and folate metabolism in breast cancer cells., Oncogene, Vol:35, Pages:2766-2776
Maitre L, 2014, Urinary metabolic profiles in early pregnancy are associated with preterm birth and fetal growth restriction in the Rhea mother–child cohort study, BMC Medicine, Vol:12, ISSN:1741-7015
Stewart JD, Marchan R, Lesjak MS, et al., 2012, Choline-releasing glycerophosphodiesterase EDI3 drives tumor cell migration and metastasis, Proceedings of the National Academy of Sciences of the United States of America, Vol:109, ISSN:0027-8424, Pages:8155-8160
Stebbing J, Sharma A, North B, et al., 2012, A metabolic phenotyping approach to understanding relationships between metabolic syndrome and breast tumour responses to chemotherapy, Annals of Oncology, Vol:23, ISSN:0923-7534, Pages:860-U2
Ellis JK, Athersuch TJ, Thomas LD, et al., 2012, Metabolic profiling detects early effects of environmental and lifestyle exposure to cadmium in a human population., Bmc Medicine, Vol:10, Pages:61-61
Backshall A, Sharma R, Clarke SJ, et al., 2011, Pharmacometabonomic Profiling as a Predictor of Toxicity in Patients with Inoperable Colorectal Cancer Treated with Capecitabine, Clinical Cancer Research, Vol:17, ISSN:1078-0432, Pages:3019-3028
Cavill R, Kamburov A, Ellis JK, et al., 2011, Consensus-Phenotype Integration of Transcriptomic and Metabolomic Data Implies a Role for Metabolism in the Chemosensitivity of Tumour Cells, PLOS Computational Biology, Vol:7, ISSN:1553-734X