Abstract
Cortical spreading depolarization (CSD) is a propagating wave of tissue depolarization characterized by a large increase of extracellular potassium concentration and prolonged subsequent electrical silencing of neurons. Waves of CSD arise spontaneously in various acute neurological settings, including migraine aura and ischemic stroke. Recently, we have reported that pan-inhibition of adrenergic receptors (AdRs) facilitates the normalization of extracellular potassium after acute photothrombotic stroke in mice. Here, we have extended that mechanistic study to ask whether AdR antagonists also modify the dynamics of KCl-induced CSD and post-CSD recovery in vivo. Spontaneous neural activity and KCl-induced CSD were visualized by cortex-wide transcranial Ca2+ imaging in G-CaMP7 transgenic mice. AdR antagonism decreased the recurrence of CSD waves and accelerated the post-CSD recovery of neural activity. Two-photon imaging revealed that astrocytes exhibited aberrant Ca2+ signaling after passage of the CSD wave. This astrocytic Ca2+ activity was diminished by the AdR antagonists. Furthermore, AdR pan-antagonism facilitated the normalization of the extracellular potassium level after CSD, which paralleled the recovery of neural activity. These observations add support to the proposal that neuroprotective effects of AdR pan-antagonism arise from accelerated normalization of extracellular K+ levels in the setting of acute brain injury.
Highlights
Cortical spreading depolarization (CSD) is a propagating wave of tissue depolarization characterized by a large increase of extracellular potassium concentration and prolonged subsequent electrical silencing of neurons
We have recently reported that pan-adrenergic receptor (AdR) antagonism by a cocktail of prazosin, atipamezole, and propranolol reduces the extent of infarction in mice after photothrombotic stroke by enhancing the normalization of [K+]e18
The suppressive effect on CSD wave occurrences by AdR antagonism is likely to alter the threshold for CSD induction, despite a lack of effect on the pre-CSD slow wave activity (Fig. 1H)
Summary
Cortical spreading depolarization (CSD) is a propagating wave of tissue depolarization characterized by a large increase of extracellular potassium concentration and prolonged subsequent electrical silencing of neurons. AdR pan-antagonism facilitated the normalization of the extracellular potassium level after CSD, which paralleled the recovery of neural activity. We evaluated post-CSD induced neural activities by imaging in brain of living transgenic mice expressing the G-CaMP7 Ca2+ sensor in neurons and astrocytes (BAC-GLT-1-G-CaMP7 #817, G7NG817)[26]. Recordings of [K+]e and sensory evoked neural activity in the somatosensory cortex showed that normalization of [ K+]e and recovery of neural activity occurred in parallel, and were accelerated in concert by AdR pan-antagonism
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