Quantum dots may break up proteins in the brain that cause Parkinson鈥檚 disease May C. Schiess, Roger Back, UT Medical School/Science Photo Library
Tiny particles called quantum dots reduce symptoms in mice primed to develop a type of Parkinson鈥檚 disease, and also block formation of the toxic protein clumps in 础濒锄丑别颈尘别谤鈥檚. They could one day be a novel treatment for these brain disorders, although tests in people are some years away.
Quantum dots are 聽just a few nanometres in size – so small they become subject to some of the strange effects of quantum physics. They have useful electronic and fluorescent properties and are found in some TV screens and LED lights.
Unlike most medicines,聽their tiny size means聽they can pass from bloodstream into the brain.聽of Seoul National University in the South Korea and his colleagues wondered if they would affect the molecules involved in Parkinson鈥檚 or other brain disorders.
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Parkinson鈥檚 disease involves gradually worsening tremors and movement problems. It is thought to be caused by a protein called synuclein found in nerve cells folding into the wrong shape, which triggers a chain reaction of misfolding in nearby synuclein molecules. This leads to a build-up of long strands or 鈥渇ibrils鈥 of the protein, killing neurons.
Quantum surprise
Hong鈥檚 team found that in a dish, quantum dots made from graphene 鈥 a form of carbon – bind to synuclein, and not only stop it from clumping into fibres, but also cause existing fibres to break up into individual molecules. 鈥淲e didn鈥檛 expect the quantum dots to induce disaggregation of fibrils,鈥 says Hong.
Next the team injected quantum dots into mice dosed with fibrils, which normally trigger gradually worsening movement problems. Six months later, the mice showed improvement on two different physical tests.
If the treatment affects people the same way, Hong says it is unclear how much benefit this would bring. 鈥淚t鈥檚 hard to translate the results in mice to actual patients, whose systems are way more complicated. But we do believe quantum dots can make positive impacts to some extent.鈥
Another team has found that quantum dots ; in a similar fashion, they bind to a protein called amyloid, and reduce it from clumping together, a process thought to be involved in this dementia. However tests in an animal version of 础濒锄丑别颈尘别谤鈥檚 haven鈥檛 yet been reported.
鈥淭his might be a universal effect on any kind of fibrillation process related to disease,鈥 says Hong. His team is investigating using quantum dots in 础濒锄丑别颈尘别谤鈥檚 and motor neuron disease 鈥 the condition that affected Stephen Hawking 鈥 which also involves protein clumping.
of King鈥檚 College London, who was not involved in the work, says the findings in mice are promising, but should not raise anyone鈥檚 hopes until the approach has been tested in people. 鈥淯nfortunately in Parkinson鈥檚 there have been a lot of compounds shown to work in mice but not in humans.鈥
Paillusson added, though, that it was unusual for anything to reverse the fibre-forming process. 鈥淭his is a very novel approach.鈥
Hong says if safety tests in animals go well, they hope to start trials in people in about two years.
Nature Nanotechnology
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