Morphological diversification and functional maturation of human astrocytes in glia-enriched cortical organoid transplanted in mouse brain.
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IF: 68.164
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Abstract

Astrocytes, the most abundant glial cell type in the brain, are underrepresented in traditional cortical organoid models due to the delayed onset of cortical gliogenesis. Here we introduce a new glia-enriched cortical organoid model that exhibits accelerated astrogliogenesis. We demonstrated that induction of a gliogenic switch in a subset of progenitors enabled the rapid derivation of astroglial cells, which account for 25-31% of the cell population within 8-10 weeks of differentiation. Intracerebral transplantation of these organoids reliably generated a diverse repertoire of cortical neurons and anatomical subclasses of human astrocytes. Spatial transcriptome profiling identified layer-specific expression patterns among distinct subclasses of astrocytes within organoid transplants. Using an in vivo acute neuroinflammation model, we identified a subpopulation of astrocytes that rapidly activates pro-inflammatory pathways upon cytokine stimulation. Additionally, we demonstrated that CD38 signaling has a crucial role in mediating metabolic and mitochondrial stress in reactive astrocytes. This model provides a robust platform for investigating human astrocyte function.

Keywords

Spatial Anatomic
Spatial Gene Expression

Authors

Wang, Meiyan
Zhang, Lei
Novak, Sammy Weiser
Yu, Jingting
Gallina, Iryna S
Xu, Lynne L
Lim, Christina K
Fernandes, Sarah
Shokhirev, Maxim N
Williams, April E
Saxena, Monisha D
Coorapati, Shashank
Parylak, Sarah L
Quintero, Cristian
Molina, Elsa
Andrade, Leonardo R
Manor, Uri
Gage, Fred H