IN BRAIN POST-ISCHEMIC PLASTICITY, Na+/Ca2+ EXCHANGER 1 AND Ascl1 INTERVENE IN MICROGLIA-DEPENDENT CONVERSION OF ASTROCYTES INTO NEURONAL LINEAGE

Abstract

The intricate glia interaction occurring after stroke strongly depend on the maintenance of intraglial ionic homeostasis. Among the several ionic channels and transporters, the plasmamembrane Na+/Ca2+ exchanger (NCX) represents a key player in maintaining astroglial Na+ and Ca2+ homeostasis.Here, using a combined in vitro, in vivo and ex vivo experimental strategy we evaluated whether microglia responding to ischemic injury may influence the morphological and the transcriptional plasticity of post-ischemic astrocytes. Astrocyte plasticity was monitored by the expression of the transcription factor Acheate-scute like 1 (Ascl1), which plays a central role in the commitment of astrocytes towards the neuronal lineage. Furthermore, we explored the implication of NCX1 expression and activity in mediating Ascl1-dependent post-ischemic astrocyte remodeling.We demonstrated that: (a) in astrocytes co-cultured with microglia the exposure to oxygen and glucose deprivation followed by 7 days of reoxygenation induced a prevalence of bipolar astrocytes overexpressing Ascl1 and NCX1, whereas this did not occur in monocultured astrocytes; (b) the reoxygenation of anoxic astrocytes with the conditioned medium derived from IL-4 stimulated microglia strongly elicited the astrocytic co-expression of Ascl1 and NCX1; (c) Ascl1 expression in anoxic astrocytes was dependenton NCX1 since its silencing prevented Ascl1 expression both in in vitro and in post-ischemic ex vivo experimental conditions.Collectively, the results of our study support the idea that, after brain ischemia, astrocyte-microglia crosstalk can influence astrocytic morphology and its Ascl1 expression. This phenomenon is strictly dependent on ischemia-induced increase of NCX1 which in turn induces Ascl1 overexpression possibly through astrocytic Ca2+ elevation.