A CV and research profile of Professor Bart Vanhaesebroeck, lead of the Cell Signalling Group at the UCL Cancer Institute.
30 years of PI3K with Bart Vanhaesebroeck
I am a basic scientist with a keen interest in applying newly acquired knowledge to understand and treat human disease. Throughout my research career, I have always been involved in fundamental research that could be applied to drug development. I have had the pleasure that some of our discoveries have made it all the way to approved drugs for leukemia. See an interview with me for a non-specialist audience.

Since 2014: Professor of Cell Signalling at the UCL Cancer Institute.
- PhD: Laboratory of Molecular Biology, Ghent University, Belgium – Prof Johan Grooten and Prof. Walter Fiers
- Postdoc: Ludwig Institute for Cancer Research, London – Prof Michael Waterfield, FRS
- First Group Leader position: Ludwig Institute for Cancer Research, London (1998)
- Professor at UCL (2005-2007) and Barts Cancer Institute, Queen Mary University of London (2007-2013)
- Elected member of EMBO, UK Academy of Medical Sciences and the Royal Society
I received my PhD training when molecular biology technology, for the first time, allowed the isolation of human genes. This was a fascinating era, with my PhD Laboratory being at the forefront of cloning genes that regulate the immune system and cell survival (such as interleukins, tumour necrosis factor and others).
Some of these gene products were very quickly progressed to clinical trials, especially in cancer. This time was also the start of the biotech industry, with many of my colleagues becoming involved in spin-out companies in the biomedical sector. This all meant that, very early during my training, I was exposed to what is now called ‘translational research’. This has been very formative for my subsequent research career, in which I have always tried to translate basic science findings into diagnostic and therapeutic applications.
After my PhD, I joined the laboratory of Mike Waterfield, FRS at the Ludwig Institute for Cancer Research in London. The groups of Mike and Peter Parker (now at the Crick Institute) had just isolated the gene for PI3Kalpha, a signal transduction protein implicated in cancer. PI3Kalpha turned out to be a member of a larger family of enzymes, called PI3Ks, the genes of many of which we cloned and characterised while in Mike’s group. This also allowed Mike’s group to suggest a general classification of the PI3K family members, which is now generally accepted.
Since then, the PI3K pathway has become a hot target in drug development, with some PI3K inhibitors approved for cancer and overgrowth syndromes, with other compounds at various stages clinical development in cancer and immune disorders.
I gambled my career as starting PI on PI3Kdelta, a PI3K family member that I found to be highly expressed in leukocytes. My team has been involved in the characterization of PI3Kdelta ‘all the way’, from gene cloning, through to the generation of the first mouse models that allowed us to discover the roles of PI3Kdelta in the organism and in cells, and the development of PI3Kdelta inhibitors by PIramed UK (acquired by Roche in 2008), Intellikine (acquired by Infinity) and other Pharma.
Over the years, we have uncovered PI3Kdelta as a drug target in immunity and haematological malignancies. PI3Kdelta inhibitors are now approved for some B-cell malignancies and are being tested in cancer immunotherapy, including in melanoma and lung cancer.
Alongside my basic research, in 2010, I set up (together with Pedro Cutillas at Queen Mary University London) the mass-spectrometry-based spin-out company Activiomics to develop biomarkers in disease. Activiomics was acquired by Retroscreen (now hVIVO) in 2014.