Investigating KAT2A as a novel therapeutic target in neuroblastoma
The Pina lab is looking for a highly-motivated, technically-able and independent-thinking candidate to undertake a PhD project researching the role of histone acetyl-transferase KAT2A in neuroblastoma.
The project will be supervised by Dr Cristina Pina at the Department of Life Sciences of Brunel University London (College of Health, Medicine and Life Sciences), and will be developed in collaboration with Professor Arturo Sala.
The Pina group is part of the Centre for Genome Engineering and Maintenance where Cristina Pina is the Cluster Lead for Cancer Mechanisms. Professor Sala is a specialist in translational neuroblastoma research, and a member of the Centre for Inflammation Research and Translational Medicine.
The Pina lab specialises in epigenetic and transcriptional regulation of normal and malignant stem cell fate decisions, and has an interest in the role of histone acetyl-transferase KAT2A in cancer. The group has previously characterised KAT2A as a vulnerability in Acute Myeloid Leukaemia, its loss resulting in progressive depletion of leukaemia stem cells. KAT2A exerts its effects through 2 distinct complexes, SAGA and ATAC, which respectively control cell differentiation and biosynthetic programmes .
The Sala group has been involved in neuroblastoma research for over 20 years, contributing to the identification of oncogenes and tumour suppressor genes relevant to this cancer.
Neuroblastoma is the most common solid tumour in children under the age of 5. It has a poor overall 5-year survival of <75%, which drops to <60% in high-risk disease. High-risk disease is associated with amplification of the MYCN gene, which has been shown to partner KAT2A during development of the nervous system. Preliminary data from our group suggests that inhibition of KAT2A kills neuroblastoma cells with MYCN amplification, and may constitute a novel therapeutic strategy in neuroblastoma.
In this project, the successful candidate will use chemical and genetic ablation of KAT2A, and of components of SAGA and ATAC complexes, to dissect the cellular and molecular mechanisms by which KAT2A complexes sustain neuroblastoma cells. They will use 2D and organoid-culture systems and employ transcriptomic and chromatin profiling tools to analyse MYCN amplified and non-amplified cell lines and primary neuroblastoma samples, and to target differentiated and stem-like neuroblastoma cells.
Candidates will have a First or Upper Second-class BSc (Hons) degree or equivalent in Biology, Biomedical Sciences, Natural Sciences, Life Sciences, Genetics, Biochemistry or similar areas, with significant lab experience. An MSc qualification is desirable but not essential. Candidates will be very competent lab workers who value attention to detail, enjoy technical challenges and successfully persevere. They will have excellent oral and written communication skills, and will demonstrate the capacity to autonomously research, synthesise and critically evaluate relevant literature. They will successfully work independently and as part of a team, and will demonstrate a dedicated and flexible approach to work.
Informal enquiries can be made to Cristina Pina (email@example.com) or Arturo Sala (firstname.lastname@example.org). We look forward to hearing from you
How to apply
If you are interested in applying for the above PhD topic please follow the steps below:
- Contact the supervisor by email or phone to discuss your interest and find out if you woold be suitable. Supervisor details can be found on this topic page. The supervisor will guide you in developing the topic-specific research proposal, which will form part of your application.
- Click on the 'Apply here' button on this page and you will be taken to the relevant PhD course page, where you can apply using an online application.
- Complete the online application indicating your selected supervisor and include the research proposal for the topic you have selected.
This is a self funded topic
Brunel offers a number of funding options to research students that help cover the cost of their tuition fees, contribute to living expenses or both. See more information here: https://www.brunel.ac.uk/research/Research-degrees/Research-degree-funding. The UK Government is also offering Doctoral Student Loans for eligible students, and there is some funding available through the Research Councils. Many of our international students benefit from funding provided by their governments or employers. Brunel alumni enjoy tuition fee discounts of 15%.