Temporal dynamics of microglia-astrocyte interaction in neuroprotective glial scar formation after intracerebral hemorrhage

Journal of Pharmaceutical Analysis

Available online 22 February 2023

Journal of Pharmaceutical AnalysisAuthor links open overlay panel, , , , , , , , , , , , , Highlights•

Sustained microglial depletion induce disorganized astrocytic scar after ICH.

Microglia-derived IGF1 modulates glial scar formation via mTOR signaling activation.

Repopulating microglia facilitate tissue repair via the combination of IGF1 and OPN.

The glial scar transforms from protection into destruction at chronic stage of ICH.

The elaborate treatment strategies at precise time points should be implemented after ICH.

Abstract

The role of glial scar remains unclear after intracerebral hemorrhage (ICH). This study aimed to investigate whether microglia-astrocyte interaction affects glial scar formation and explore the specific function of glial scar. We used a pharmacologic approach to induce microglial depletion during different ICH stages and examine how ablating microglia affects astrocytic scar formation. Spatial transcriptomics (ST) analysis was performed to explore the potential ligand-receptor pair in the modulation of microglia-astrocyte interaction and to verify the functional changes of astrocytic scars at different periods. During the early stage, sustained microglial depletion induces disorganized astrocytic scar, enhanced neutrophil infiltration and impaired tissue repair. ST analysis indicates that microglia-derived Insulin Like Growth Factor 1 (IGF1) modulates astrocytic scar formation via mechanistic target of rapamycin (mTOR) signaling activation. Moreover, repopulating microglia (RM) more strongly activate mTOR signaling facilitating a more protective scar formation. The combination of IGF1 and osteopontin (OPN) is necessary and sufficient for RM function, rather than IGF1 or OPN alone. At the chronic stage of ICH, the overall net effect of astrocytic scar changes from protective to destructive and delayed microglial depletion can partly reverse this. The vital insight gleaned from our data is that sustained microglial depletion may not be a reasonable treatment strategy for early-stage ICH. Inversely, early-stage IGF1/OPN treatment combined with late-stage PLX3397 treatment is a promising therapeutic strategy. This prompts us to consider the complex temporal dynamics and overall net effect of microglia and astrocytes, and develop elaborate treatment strategies at precise time points after ICH.

Keywords

Microglia

Astrocytes

Glial scar

Intracerebral hemorrhage

© 2023 The Author(s). Published by Elsevier B.V. on behalf of Xi’an Jiaotong University.

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