Does the inability of CA1 area to respond to ischemia with early rapid adenosine release contribute to hippocampal vulnerability? An Editorial Highlight for 'Spontaneous, transient adenosine release is not enhanced in the CA1 region of hippocampus during severe ischemia models'

摘要

This Editorial highlights a remarkable study in the current issue of the Journal of Neurochemistry in which Ganesana Venton (2021) report new data showing that brain ischemia does not elicit transient adenosine release in the CA1 hippocampal area. Using fast-scan cyclic voltammetry at a carbon-fiber microelectrode implanted in the CA1 subfield of the hippocampus, it was shown that none of three different is-chemia/reperfusion models could increase spontaneous, transient adenosine release, and more severe models even suppressed this presumably neuroprotective release. Since the authors have previously shown that in the caudate putamen, ischemia increased the frequency of spontaneous adenosine release (Ganesana Venton, 2018), the new data may disclose a mechanism underlying important regional differences in rapid neuroprotective adenosine signaling. The phenomenon of selective susceptibility of the hippocampus to ischemia/hypoxia is well-documented, and the reported failure of its CA1 area to respond to ischemia by rapid adenosine release may be indicative of an insufficiency of this neuroprotective mechanism contributing to hippocampal vulnerability.