Principal Driver of Inflammatory Bowel Disease Discovered
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Researchers at the Francis Crick Institute, working with UCL and Imperial College London, have discovered a new biological pathway that is a principal driver of inflammatory bowel disease (IBD) and related conditions, and which can be targeted using existing drugs.
About 5% of the world’s population, and one in ten people in the UK, are currently affected by an autoimmune disease, such as IBD, the umbrella term for Crohn’s disease and ulcerative colitis. These diseases are also becoming more common, with over half a million people living with IBD in the UK as of 2022, nearly double the 300,000 previously estimated.
Despite increasing prevalence, current treatments do not work in every patient and attempts to develop new drugs often fail due to our incomplete understanding of what causes IBD.
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In research published in Nature today, scientists at the Crick journeyed into a ‘gene desert’ – an area of DNA that doesn’t code for proteins – which has previously been linked to IBD and several other autoimmune diseases.
They found that this gene desert contains an ‘enhancer’, a section of DNA that is like a volume dial for nearby genes, able to crank up the amount of proteins they make. The team discovered that this particular enhancer was only active in macrophages, a type of immune cell known to be important in IBD, and boosted a gene called ETS2, with higher levels correlating with a higher risk of disease.
Using genetic editing, the scientists showed that ETS2 was essential for almost all inflammatory functions in macrophages, including several that directly contribute to tissue damage in IBD. Strikingly, simply increasing the amount of ETS2 in resting macrophages turned them into inflammatory cells that closely resembled those from IBD patients.
The team also discovered that many other genes previously linked to IBD are part of the ETS2 pathway, providing further evidence that it is a major cause of IBD.
ETS2 as a treatment targetSpecific drugs that block ETS2 don’t exist, so the team searched for drugs that might indirectly reduce its activity. They found that MEK inhibitors, drugs already prescribed for other non-inflammatory conditions, were predicted to switch off the inflammatory effects of ETS2.
The researchers then put this to the test, and discovered that these drugs not only reduced inflammation in macrophages, but also in gut samples from patients with IBD.
As MEK inhibitors can have side effects in other organs, the researchers are now working with LifeArc to find ways to deliver MEK inhibitors directly to macrophages.
Volunteer participants from the NIHR BioResource, with and without IBD, provided blood samples that contributed to this research. The research was funded by Crohn’s and Colitis UK, the Wellcome Trust, MRC and Cancer Research UK, and the researchers worked with collaborators across the UK and Europe.
The unusual thing about the disease variant in the ETS2 enhancer is that it is very common, with approximately 95% of people with IBD carrying one or two copies of it.
Pontus Skoglund and Leo Speidel in the Ancient Genomics Laboratory at the Crick, which studies ancient DNA, worked with James to shed light on when this genetic variant first appeared, showing that it’s incredibly old, at least 500,000 to one million years old, and was even present in Neanderthals and other archaic humans.
They found that the reason this variant remains so common is because switching on ETS2 appears to be an important part of the early response to bacterial infection. Before antibiotics, this may have had a protective effect during infections, which is probably why so many of us still carry the risk variant today, and why it is even commoner in regions with high rates of infectious diseases.
“Using genetics as a starting point, we’ve uncovered a pathway that appears to play a major role in IBD and other inflammatory diseases. Excitingly, we’ve shown that this can be targeted therapeutically, and we’re now working on how to ensure this approach is safe and effective for treating people in the future."
Reference: Stankey CT, Bourges C, Haag LM, et al. A disease-associated gene desert directs macrophage inflammation through ETS2. Nature. 2024. doi: 10.1038/s41586-024-07501-1
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