Cookies on this website
We use cookies to ensure that we give you the best experience on our website. If you click 'Continue' we will assume that you are happy to receive all cookies and you will not see this message again. Click 'Find out more' for information on how to change your cookie settings.

A new collaborative study from the Oxford Parkinson’s Disease Centre led by Prof Stephanie Cragg and Dr Bradley Roberts has revealed that GABA transporters on astrocytes, the brain's lesser known yet critically important cells, support dopamine release and are sites of early dysfunction in parkinsonism.

Striatal immunofluorescence signals for astrocyte marker S100β and neuronal marker NeuN
Striatal immunofluorescence signals for astrocyte marker S100β (magenta) and neuronal marker NeuN (yellow)

Similar stories

New research to radically alter our understanding of synaptic development

Publication Research

A new study from the Molnár group on the role of regulated synaptic vesicular release in specialised synapse formation has made it to the cover of Cerebral Cortex.

Being "in the zone": how waking activity controls sleep need

Publication Research Vyazovskiy Group News

A new study from the Vyazovskiy group suggests that how and where we spend our time while awake impacts how much we need to sleep - it does not only depend on how long we are awake.

New target identified to develop treatment for Abdominal Aortic Aneurysm

Cardiac Theme Publication Research

A new study from the Smart group has shed light on a key regulatory step in the initiation and progression of Abdominal Aortic Aneurysm by revealing the protective role of a previously little known small protein.

Researcher publishes children's book of the brain

Postdoctoral Publication

Betina Ip, a Royal Society Dorothy Hodgkin Research Fellow based in NDCN, formerly a postdoctoral research scientist in DPAG, has written a book for children: The Usborne Book of the Brain and How it Works.

New laboratory space for OPDC Researchers

OPDC News

A major building in the centre of Oxford has been constructed to create a new research centre bringing together cellular neuroscience and physical sciences.