MAIT cells of immune system can fight all sorts of bacterial and viral infections

Oxford University research has found that a little-studied and relatively unknown part of the human immune system could be twice as important as previously thought.

Mucosal Associated Invariant T-cells (MAIT cells) were first identified in 1993 but largely ignored until recently. Australian researchers recently found that they had an important role in fighting bacterial infections. Now, the Oxford team, led by Professor Paul Klenerman, say that they also fight viruses. Their results are in the journal Nature Communications.

Researcher Bonnie van Wilgenburg said: 'MAIT cells are unlike any other part of the immune system because they are multipurpose, rather than responding to particular pathogens - the various bacteria, viruses and other microorganism that can cause disease.'

All T-cells recognise and destroy infected human cells to prevent them spreading the infection. Standard T-cells possess specific receptors on their surface, each of which allows them to recognise a different pathogen. Most T-cells have a large range of such receptors to cover all pathogens. One receptor can recognise one particular pathogen infection, while another will be activated by a different pathogen.

MAIT cells have only a few receptors because they do not recognise specific pathogens. Instead they recognise a chemical made by many different pathogens. Researchers in Melbourne identified this chemical: a small molecule called 5-A-RU, which is made by the majority of bacteria. In effect this makes MAIT cell receptors multi-purpose - spotting a whole category of bugs rather than just a set of individual ones.

Now, the team have discovered that MAIT cells are even more multi-purpose than that.

Professor Paul Klenerman explained: 'We found that MAIT cells are readily activated by cytokines, chemical messengers released by the human body in response to infections.'

Cytokines are key parts of the immune system. When released by cells, they trigger certain behaviours in other cells, regulating the body's immune response to match the threat of a pathogen.

Prof Klenerman continued: 'Most human T-cells require their specific receptor to be triggered in order to react, but MAIT cells can bypass this and will be strongly and specifically activated in response to a combination of cytokines.

'In our latest study we discovered that viruses, not just bacteria, can activate the immune system to produce this specific mix of cytokines that activates MAIT cells. By studying people with different viral infections, including flu, dengue and hepatitis C, we found evidence that MAIT cell activation occurs during human viral infection.

'This is the first time that MAIT cells have been observed having a role in the immune response to viruses. This opens up the exciting possibility that MAIT cells could be involved in the defence against viruses or reduce their damaging effects.

'The discovery suggests that MAIT cells are a 'Swiss army knife' for the immune system - useful against all sorts of bacterial and viral infections.'

The discovery may also have implications for vaccine and treatment design. Traditional vaccines stimulate B-cells to produce antibodies that can attack pathogens directly. T-cell vaccines, a focus of current research, are designed to stimulate the production of standard pathogen-specific T cells, which attack infected cells in the body to destroy them and the infection they harbour. But MAIT cells offer another possible treatment route.

However, the Oxford researchers say that we first need to understand more about these unique cells and they will continue to play a key role in that.

Comments

The opinions expressed here are the views of the writer and do not necessarily reflect the views and opinions of News Medical.
Post a new comment
Post

While we only use edited and approved content for Azthena answers, it may on occasions provide incorrect responses. Please confirm any data provided with the related suppliers or authors. We do not provide medical advice, if you search for medical information you must always consult a medical professional before acting on any information provided.

Your questions, but not your email details will be shared with OpenAI and retained for 30 days in accordance with their privacy principles.

Please do not ask questions that use sensitive or confidential information.

Read the full Terms & Conditions.

You might also like...
Researchers identify shared molecular mechanism in cancer and pregnancy that suppresses immune system