Antagonism of purinergic signalling improves recovery from traumatic brain injury
Citations Over TimeTop 10% of 2013 papers
Abstract
The recent public awareness of the incidence and possible long-term consequences of traumatic brain injury only heightens the need to develop effective approaches for treating this neurological disease. In this report, we identify a new therapeutic target for traumatic brain injury by studying the role of astrocytes, rather than neurons, after neurotrauma. We use in vivo multiphoton imaging and show that mechanical forces during trauma trigger intercellular calcium waves throughout the astrocytes, and these waves are mediated by purinergic signalling. Subsequent in vitro screening shows that astrocyte signalling through the 'mechanical penumbra' affects the activity of neural circuits distant from the injury epicentre, and a reduction in the intercellular calcium waves within astrocytes restores neural activity after injury. In turn, the targeting of different purinergic receptor populations leads to a reduction in hippocampal cell death in mechanically injured organotypic slice cultures. Finally, the most promising therapeutic candidate from our in vitro screen (MRS 2179, a P2Y1 receptor antagonist) also improves histological and cognitive outcomes in a preclinical model of traumatic brain injury. This work shows the potential of studying astrocyte signalling after trauma to yield new and effective therapeutic targets for treating traumatic brain injury.
Related Papers
- → CGRP-dependent and independent mechanisms of acute and persistent post-traumatic headache following mild traumatic brain injury in mice(2019)96 cited
- → Post-traumatic headache due to mild traumatic brain injury: Current knowledge and future directions(2020)38 cited
- → Simulated traumatic brain injury in in-vitro mouse neuronal and brain endothelial cell culture models(2022)5 cited
- Animal model of repetitive mild traumatic brain injury for human traumatic axonal injury and chronic traumatic encephalopathy(2015)
- New era of treatment and evaluation of traumatic brain injury and spinal cord injury(2016)