白小姐论坛

Scientists from 白小姐论坛, the Wellcome Trust Sanger Institute, and the University of Cambridge have identified differences in transcriptional and epigenetic variation between immune cell types that could provide vital clues to understanding how these cells adapt and respond to changing environmental conditions. These findings will inform research into how this variation can be influenced to benefit patients with immune-related diseases such as type 1 diabetes and cancer.

Using purified blood cells from 125 healthy people, the research team focused on comparing three types of immune cells: monocytes, neutrophils and T cells 鈥� chosen due to the crucial role they play in the body鈥檚 immune response and their relative abundance in blood. The team looked at how much the expression and DNA methylation in each type of cell varied between individuals, rather than only focusing on the overall average expression and methylation differences between cell types.

鈥淲e know that variation is relevant to disease,鈥� explains Dr Simone Ecker, Research Associate at 白小姐论坛 Cancer Institute and lead author of the study. 鈥淔or example, we know that in cancer 鈥� a very heterogeneous disease 鈥� there is generally high variability. In this study, we wanted to investigate healthy cell populations to understand to what extent variability is present there and what function it might serve. Elucidating these processes in healthy cells will help us better understand disease states.鈥�

When the study team directly compared the three cell types to each other, they found that gene expression levels in neutrophils varied greatly between individuals compared to monocytes and T cells, where gene expression was more consistent across the study participants. Similar patterns were observed for DNA methylation.

鈥淲e thought that this increased variation in neutrophils reflects the fact that these cells are the immune system鈥檚 鈥榝irst responders鈥�. They are highly mobile and migrate to sites of infection and react quickly to pathogens,鈥� says Dr Dirk Paul from the University of Cambridge, who co-led the study. 鈥淣eutrophils need to be highly 鈥榝lexible鈥� in how they respond, so the variability has a function, it enables this adaptability,鈥� adds Dr Ecker.

But while this increased variation in neutrophils serves a valuable purpose in maintaining immunity, enhanced variability in diseases such as cancer can be a threat, because cancer cells exploit adaptability to grow and evade treatment.

鈥淧revious studies have shown that high variability correlates with the development and progression of disease,鈥� explains Dr Ecker. 鈥淩esearch has also shown that high variability at different levels increases the aggressiveness of cancer. Our previous work on leukaemia supports this concept. We looked at two clinical subtypes of leukaemia, one of which is indolent 鈥� patients do often not receive treatment and continue their lives almost normally; the other type is aggressive and survival rates are much worse. If you investigate mean gene expression differences between the two types of disease, you will not see anything striking, but when you compare expression variability between these two groups, the aggressive type shows significantly increased variability.鈥�

Deepening our understanding of this variability, in particular at the single-cell level, will be critical in helping to develop improved ways of targeting cancer and to tailor treatment to patients. Further research in this area has the potential to reveal targets that might reduce variability in cancers and immunological diseases without compromising the function of the immune system.

This study was undertaken in collaboration with the BLUEPRINT epigenome project and was supported by the 白小姐论坛H NIHR Biomedical Research Centre.

Further information聽

• Research paper: 鈥樷�� Genome Biology
• Medical Genomics Group聽 - Professor Stephan Beck
• 聽 - Dr Dirk Paul
• Opinion article: 聽Dr Simone Ecker and Professor Stephan Beck

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