Abstract TMP115: Increased Expression Of Cd38 In Activated Astrocytes Contributes To Impaired Synaptic Plasticity Following Middle Cerebral Artery Occlusion

Abstract

Introduction: Emerging evidence has implicated post-stroke cognitive impairment (PSCI) as a major contributor to long-term disability following acute ischemic stroke. While the hippocampus is shown to contribute to PSCI, the exact mechanisms underlying PSCI have yet to be elucidated. Interestingly, a preclinical model of large artery stroke (middle cerebral artery occlusion; MCAO) causes hippocampal dysfunction, despite direct ischemic insult to brain regions distant from the hippocampus, suggesting the injury causes perturbations in neural circuits. Thus, we utilize electrophysiological recordings of hippocampal LTP as an indicator of network health following ischemia. We hypothesize activated astrocytes in the hippocampus following MCAO increase expression of the ectoenzyme, CD38, which signals to neurons to impair plasticity. Methods: Extracellular field recordings of CA1 neurons were performed in acute hippocampal slices prepared 30 days after recovery from MCAO in adult (8-12 week) mice. Immunohistochemistry was performed to assess hippocampal CD38 expression and astrogliosis. Acute slices were treated with CD38 inhibitors (78c & apigenin) to assess plasticity. Results: Recordings obtained in brain slices 30 days after MCAO exhibited a significant reduction in LTP; 161±9%, n=6 in sham compared to 115±4%, n=7 30 days after MCAO, in both ipsilateral and contralateral hippocampi. Immunohistochemical (IHC) staining indicates CD38 levels are increased and colocalize with activated astrocyte marker, GFAP, 30 days following MCAO. Bath application of CD38 inhibitors, 78c (vehicle n=6, 4.0±8.5% vs. 100nM 78c n=6, 78.3±15.8%; p<0.05) and apigenin (vehicle n=7, 23.9±7% vs. 10μM apigenin n=7, 65.5±2.5%; p<0.05), restored LTP in MCAO brain slices 30 days following injury. Conclusion: These data indicate that MCAO provides a reproducible model of post-stroke memory dysfunction (PSCI) and that remote astrogliosis in the uninjured hippocampus may contribute to altered neuronal function (plasticity). Our data implicates increased levels of CD38 impair plasticity following stroke. Therefore, reducing CD38 activity at chronic timepoints following ischemia may represent a novel strategy to treat the symptoms of PSCI.