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Toys and 'enriched' surroundings help fight infection in mice

Queen Mary University of London

Mice that are given toys and placed in stimulating surroundings have healthier immune systems, according to a study by Queen Mary University of London (QMUL).

Little is known about the influence of environmental factors on the immune system, but factors such as pollution, location, psychological state and social status have been proposed as determinants in the development of human autoimmune disorders.

The research, published in Frontiers in Immunology, provides the first evidence that an enriched environment influences the function of T cells - a type of white blood cell that is essential for immunity, and involved in HIV, rheumatoid arthritis and other chronic diseases.

The study found that a simple set of alterations to a mouse's living space for a brief period of time caused dramatic changes to their T cells which made them more prone to having a protective inflammatory effect.

Mice were housed either in normal or 'enriched' environments for two weeks. The normal environment consisted of a standard mouse cage filled with sawdust and nesting material. To provide a richer, 'multisensorial' standard of living, the enriched environment had a wider cage with wood shavings and toys, including a coloured nest-box, fabric tube, running wheel and swing.

Lead research Professor Fulvio D'Acquisto said: "After only two weeks in an enriched environment with plenty of toys and space, the mice's immune systems were completely different and seemed to be better prepared for fighting infections.

"This effect is remarkable because we haven't given them any drugs, all we've done is change their housing conditions. You could say that we've just put them in their equivalent of a holiday resort for two weeks and let them enjoy their new and stimulating surroundings."

T cells were extracted from the mice and stimulated with an agent that mimics infection. T cells from mice living in the enriched environment showed a unique pattern in the release of certain signalling molecules that play a role in immunity. This included higher levels of Interleukin 10 and Interleukin 17, compared to mice in a normal environment, which would give a better response to infection.

The T cells also had a unique genetic fingerprint, with 56 genes that were boosted, many of which are involved in healing and fighting infections.

Professor Fulvio D'Acquisto added: "Although this clearly still needs to be tested in humans, it raises an interesting possibility. What if doctors were able to change a patient's environment and prescribe a two week holiday? Or perhaps we could boost the effects of standard drug treatments that deal with the mechanics of infection, by also offering something environmental that improves a patient's more general wellbeing. That might be a promising approach for treating chronic diseases."

The study is limited in that the researchers have not investigated the occurrence of these cells in living mice with relevant diseases. They also only looked at one type of cell, and environment could have different effects on other cell types. Studies will need to be carried out in humans before conclusions are drawn on the effect of environment on human immunology.

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Notes to the editor

Video and photos available to download from: http://bit.ly/2dpmMkH

Research paper: 'Impact of enriched environment on murine T cell differentiation and gene expression profile'. Lorenza Rattazzi, Giuseppa Piras, Samuel Brod, Koval Smith, Masahiro Ono and Fulvio D'Acquisto. Frontiers in Immunology 2016. DOI 10.3389/fimmu.2016.00381

Link once published: http://journal.frontiersin.org/article/10.3389/fimmu.2016.00381/abstract

About Queen Mary University of London

Queen Mary University of London (QMUL) is one of the UK's leading universities, and one of the largest institutions in the University of London, with 21,187 students from more than 155 countries.

A member of the Russell Group, we work across the humanities and social sciences, medicine and dentistry, and science and engineering, with inspirational teaching directly informed by our research. In the most recent national assessment of the quality of research, we were placed ninth in the UK (REF 2014).

As well as our main site at Mile End - which is home to one of the largest self-contained residential campuses in London - we have campuses at Whitechapel, Charterhouse Square, and West Smithfield dedicated to the study of medicine, and a base for legal studies at Lincoln's Inn Fields.

We have a rich history in London with roots in Europe's first public hospital, St Barts; England's first medical school, The London; one of the first colleges to provide higher education to women, Westfield College; and the Victorian philanthropic project, the People's Palace at Mile End.

Today, as well as retaining these close connections to our local community, we are known for our international collaborations in both teaching and research.

QMUL has an annual turnover of £350m, a research income worth £125m (2014/15), and generates employment and output worth £700m to the UK economy each year.

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