Slime mould holds key to pain relief
12 Jul 2007 by Evoluted New Media
One of nature’s simplest organisms has helped Scientists to unravel the structure of a key molecule that controls pain in humans.
One of nature’s simplest organisms has helped Scientists to unravel the structure of a key molecule that controls pain in humans.
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| Not nature's most advanced organism - but slime mould has helped crack the code of cronic pain |
The team, from the University of Manchester, examined microscopic amoeboid organisms known as slime moulds in a bid to gain greater insight into P2X pain receptors.
“In humans, P2X receptors look identical to one another and so scientists have had difficulty understanding how they function,” said Dr Chris Thompson, who carried out the research with Professor Alan North and Dr Sam Fountain in the Faculty of Life Sciences.
“By looking at slime mould we were effectively able to turn the evolutionary clock back a billion years to see how a more primitive P2X molecule functions.”
The team discovered that there was only a 10% similarity between human P2X and the slime mould equivalent. They were therefore able to deduce from evolutionary theory that it was these similar parts of the molecule that probably regulate pain in humans.
“It’s a big step forward in understanding how the molecule works and should make it possible to develop drugs that block the receptors’ actions,” said Dr Thompson.
“Inhibiting P2X as a potential pain-relief therapy would be the Holy Grail of rational drug design and could revolutionise the way we manage chronic pain conditions like back pain and migraine.”
The research was published in Nature.
