Blast off for first UK-led experiment on the International Space Station

   
   
Worms in Space
06 Dec 2018 04:47:14.220

 

UK-led research is taking place on the International Space Station (ISS) for the first time, following a successful launch from Kennedy Space Centre at Cape Canaveral in the US. 

An experiment using microscopic nematode worms involving teams of scientists from the Universities of Nottingham, Exeter and Lancaster was among a shipment of cargo and scientific investigations to be delivered to the ISS by the SpaceX Dragon spacecraft following the launch by the SpaceX Falcon 9 rocket at 6.16 pm (UK time) on Wednesday 5 December. 

Space is an extreme environment that causes many negative health changes to the body, including substantial muscle loss – in fact, astronauts lose up to 40 per cent of their muscle after six months in space.

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The worms on the ISS are part of the Molecular Muscle experiment which will try to identify the precise molecules that cause these problematic changes and will also test new therapies to try and prevent muscle loss in zero-gravity. 

Molecular changes

The University of Nottingham’s Professor of Space Biology, Nate Szewczyk, who travelled to Cape Canaveral for the launch, said: “We are hugely excited to be coordinating the first UK-led experiment on the International Space Station. 

“The Molecular Muscle Experiment is the first experiment to try to establish the precise molecular causes of neuromuscular decline in space. We will be using a combination of gene manipulations and drugs to pinpoint these causes. 

“This work is part of a broader investment in space by both the UK government and the University of Nottingham and could lead to real-life improvements to human health, both in space and on Earth.”

Earlier research has revealed that the microscopic worms, C.elegans and humans experience similar molecular changes in space that affect muscle and metabolism. The muscles of thousands of worms will be examined as part of the experiment on the ISS. 

The changes in muscle observed in astronauts are known to be an excellent model to study the muscle ageing process, and scientists are able to use the knowledge gained from studying in astronauts to better understand the ageing human body.

Practical advantages

Tim Etheridge, Senior Lecturer at the University of Exeter, said: “Worms are, perhaps surprisingly, a very good model for human muscle maintenance. At the molecular level, both structurally and metabolically, they are highly similar to that of humans and, from a space flight-specific perspective, they provide a lot of practical advantages. They are very small, quick to grow, cheap and easy to maintain. It makes them good to work with.” 

Preparations for Wednesday's launch - which was delayed by a day after mouldy food was found among another research team's kit - began at Kennedy Space Centre with the arrival of the first scientists on 13 November. Immediately before the launch the worms were placed in liquid bacterial feed and sealed in special gas permeable plastic bags. The bags were then housed in a special container and placed in an incubator. 

The worms reproduce in space and after growing into adults – in around 6.5 days – will be frozen until returning to Earth. The experiment can be followed on Twitter via @worms_space 

Dr Beth Phillips, another co-investigator on the project in the University of Nottingham’s School of Medicine, said: “The Molecular Muscle Experiment is also important because it lets us engage with young people to encourage them to consider careers in science and technology.” 

In addition to following the experiment on Twitter, students can learn more about the experiment online at www.mme-spaceworms.com and for graduates The University of Nottingham will be offering PhD studentships in Astromedicine and Astropharmacy funded by the Engineering and Physical Sciences Research Council from next autumn. 

UK scientists are able to carry out this research thanks to the UK Space Agency’s subscriptions to the European Space Agency’s exploration programme, which contributes to the costs of the International Space Station, which the UK joined in 2012. 

Libby Jackson, Human Spaceflight and Microgravity Programme Manager at the UK Space Agency, said: “This is the first of many exciting experiments heading to the International Space Station from the UK, thanks to our contributions to ESA. The Molecular Muscle Experiment will provide knowledge that will benefit our understanding of muscle ageing and help to improve life on Earth.” 

The project is supported by the European Space Agency, UK Space Agency, BBSRC, MRC and Versus Arthritis.

 

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Notes to editors: 

The University of Nottingham is a research-intensive university with a proud heritage, consistently ranked among the world's top 100. Studying at the University of Nottingham is a life-changing experience and we pride ourselves on unlocking the potential of our 44,000 students - Nottingham was named both Sports and International University of the Year in the  2019 Times and Sunday Times Good University Guide, was awarded gold in the TEF 2017 and features in the top 20 of all three major UK rankings. We have a pioneering spirit, expressed in the vision of our founder Sir Jesse Boot, which has seen us lead the way in establishing campuses in China and Malaysia - part of a globally connected network of education, research and industrial engagement. We are ranked eighth for research power in the UK according to REF 2014. We have six beacons of research excellence helping to transform lives and change the world; we are also a major employer, proud of our Athena SWAN silver award, and a key industry partner- locally and globally.

 

Story credits

More information is available from Dr Beth Phillips in the School of Medicine, University of Nottingham on +44 (0)1332 724676, beth.phillips@nottingham.ac.uk

Emma Thorne Emma Thorne - Media Relations Manager

Email: emma.thorne@nottingham.ac.uk Phone: +44 (0)115 951 5793 Location: University Park

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