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A BLUEPRINT for blood cells: Cambridge researchers play leading role in major release of epigenetic studies

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The studies are part of BLUEPRINT, a large-scale research project bringing together 42 leading European universities, research institutes and industry entrepreneurs, with close to €30 million of funding from the EU. BLUEPRINT scientists have this week released a collection of 26 publications, part of a package of 41 publications being released by the International Human Epigenome Consortium.

One of the great mysteries in biology is how the many different cell types that make up our bodies are derived from a single stem cell and how information encoded in different parts of our genome are made available to be used by different cell types. Scientists have learned a lot from studying the human genome, but have only partially unveiled the processes underlying cell determination. The identity of each cell type is largely defined by an instructive layer of molecular annotations on top of the genome – the epigenome – which acts as a blueprint unique to each cell type and developmental stage.

Unlike the genome, the epigenome changes as cells develop and in response to changes in the environment. Defects in the proteins that read, write and erase the epigenetic information are involved in many diseases. The comprehensive analysis of the epigenomes of healthy and abnormal cells will facilitate new ways to diagnose and treat various diseases, and ultimately lead to improved health outcomes.

“This huge release of research papers will help transform our understanding of blood-related and autoimmune diseases,” says Professor Willem H Ouwehand from the Department of Haematology at the University of Cambridge, one of the Principal Investigators of BLUEPRINT. “BLUEPRINT shows the power of collaboration among scientists across Europe in making a difference to our knowledge of how epigenetic changes impact on our health.”

Among the papers led by Cambridge researchers, Professor Nicole Soranzo and Dr Adam Butterworth have co-led a study analysing the effect of genetic variants in our DNA sequence on our blood cells. Using a genome-wide association analysis, the team identified more than 2,700 variants that affect blood cells, including hundreds of rare genetic variants that have far larger effects on the formation of blood cells than the common ones. Interestingly, they found genetic links between the effects of these variants and autoimmune diseases, schizophrenia and coronary heart disease, thereby providing new insights into the causes of these diseases.

A second study led by Professor Soranzo looked at the contribution of genetic and epigenetic factors to different immune cell characteristics in the largest cohort of this kind created with blood donors from the NHS Blood and Transplant centre in Cambridge.

Dr Mattia Frontini and Dr Chris Wallace, together with scientists at the Babraham Institute, have jointly led a third study mapping the regions of the genome that interact with genes in 17 different blood cell types. By creating an atlas of links between genes and the remote regions that regulate them in each cell type, they have been able to uncover thousands of genes affected by DNA modifications, pointing to their roles in diseases such as rheumatoid arthritis and other types of autoimmune disease.

Dr Frontini has also co-led a study with BLUEPRINT colleagues from the University of Vienna that has developed a reference map of how epigenetic changes to DNA can program haematopoietic stem cells – a particular type of ‘master cell’ – to develop into the different types of blood and immune cells.

Professor Jeremy Pearson, Associate Medical Director at the British Heart Foundation, which helped fund the research, said: “Our genes are critical to our health and there’s still a wealth of information hidden in our genetic code. By taking advantage of a large scale international collaboration, involving the combined expertise of dozens of research groups, these unprecedented studies have uncovered potentially crucial knowledge for the development of new life saving treatments for heart disease and many other deadly conditions.

“Collaborations like this, which rely on funding from the public through charities and governments across the globe, are vital for analysing and understanding the secrets of our genetics. Research of this kind is helping us to beat disease and improve millions of lives.”

Departmental Affiliations

  • Professor Nicole Soranzo – Department of Haematology
  • Dr Adam Butterworth – Medical Research Council (MRC)/British Heart Foundation (BHF) Cardiovascular Epidemiology Unit
  • Dr Mattia Frontini – Department of Haematology, and Senior Research Fellow for the BHF Cambridge Centre for Research Excellence
  • Dr Chris Wallace – Department of Medicine and MRC Biostatistics Unit

References

  • Astle, WJ et al. The allelic landscape of human blood cell trait variation. Cell; 17 Nov 2016; DOI: 10.1016/j.cell.2016.10.042
  • Chen, L et al. Genetic drivers of epigenetic and transcriptional variation in human immune cells. Cell; 17 Nov 2016; DOI: 10.1371/journal.pbio.0000051
  • Javierre et al. Lineage-specific genome architecture links enhancers and non-coding disease variants to target gene promoters. Cell; 17 Nov 2016; DOI: 10.1016/j.cell.2016.09.037
  • Farlik et al. Cell Stem Cell; 17 Nov 2016; DOI: 10.1016/j.stem.2016.10.019

Cambridge researchers have played a leading role in several studies released today looking at how variation in and potentially heritable changes to our DNA, known as epigenetic modifications, affect blood and immune cells, and how this can lead to disease. 

BLUEPRINT shows the power of collaboration among scientists across Europe in making a difference to our knowledge of how epigenetic changes impact on our health
Willem Ouwehand
Detail of Epigenome

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