Scientists have discovered an essential protein that controls inflammation induced by 'tumour necrosis factor' (TNF) – an important part of the body's defences against infection and a driver of cancer-associated inflammation, according to research published in Nature.
The study – led by Cancer Research UK-funded scientists based at Imperial College London in close collaboration with scientists at La Trobe University Melbourne – may also shed light on the causes of certain autoimmune diseases, such as rheumatoid arthritis and psoriasis.
TNF plays a pivotal role in protecting the body against infection by bacteria, viruses and other pathogens. It does this by directing the immune system to spot rogue pathogens and then destroy them.
As the name suggests, when TNF was first discovered scientists thought its main role in the body was to help kill cancer cells. But later research showed that in many types of cancer TNF instead serves to promote cancer growth.
So rather than destroying cancer cells, it encourages them to grow and spread by triggering inflammation in the surrounding tissues.
Short-term inflammation is used by the body to increase blood flow to an injury or infection, helping it heal faster. But scientists believe prolonged inflammation may be exploited by some cancers to help fuel the growth and spread of the disease.
The researchers discovered how a protein called 'Sharpin' prevents TNF from inducing inflammation, providing potential new insights into the link between inflammation and cancer.
Study leader Professor Henning Walczak, based at Imperial College London, said: "Together with our collaborators at La Trobe University in Melbourne, we discovered that the inflammatory skin problems triggered in mice lacking Sharpin could be completely resolved by switching off TNF. This was a striking result, not least because TNF-controlled inflammation is central to a wide variety of different diseases from autoimmune diseases – like rheumatoid arthritis and psoriasis - to cancer.
"Understanding how inflammation is controlled in the body on a molecular level could one day open the door to completely new approaches for treating both cancer and autoimmune disease."
Dr Lesley Walker, director of cancer information at Cancer Research UK, said: "This important discovery is the culmination of six years work and demonstrates how basic research into the fundamental mechanisms of inflammation may lead to exciting new insights into its links with cancer. Although still at an early stage, we hope this will open up new avenues of research for developing treatments that target cancer-related inflammation in the future."
Source: CRUK
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