Yi chun Hsieh scite author profile

Despite expanding knowledge regarding the role of astroglia in regulating neuronal function, little is known about regional or functional subgroups of brain astroglia and how they may interact with neurons. We use an astroglia-specific promoter fragment in transgenic mice to identify an anatomically defined subset of adult grey matter astroglia. Using transcriptomic and histological analyses, we generate a combinatorial profile for in vivo identification and characterization of this astroglia subpopulation. These astroglia are enriched in cortical layer V, express distinct molecular markers, including norrin and LGR6, with corresponding layer-specific neuronal ligands, are found in human cortex and modulate neuronal activity. Astrocytic norrin appears to regulate dendrites and spines and its loss, as occurs in Norrie disease, contributes to cortical dendritic spine loss. These studies provide evidence that human and rodent astroglia subtypes are regionally and functionally distinct, can regulate local neuronal dendrite and synaptic spine development and contribute to disease.

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Cortical astroglia undergo transcriptomic dysregulation in the G93A SOD1 ALS mouse model

Miller

Glatzer

Hsieh

et al. 2018

Journal of Neurogenetics

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Astroglia are the most abundant glia cell in the central nervous system, playing essential roles in maintaining homeostasis. Key functions of astroglia include, but are not limited to, neurotransmitter recycling, ion buffering, immune modulation, neurotrophin secretion, neuronal synaptogenesis and elimination, and blood-brain-barrier maintenance. In neurological diseases, it is well appreciated that astroglia play crucial roles in the disease pathogenesis. In amyotrophic lateral sclerosis (ALS), a motor neuron degenerative disease, astroglia in the spinal cord and cortex downregulate essential transporters, among other proteins, that exacerbate disease progression. Spinal cord astroglia undergo dramatic transcriptome dysregulation. However, in the cortex, it has not been well studied what effects glia, especially astroglia, have on upper motor neurons in the pathology of ALS. To begin to shed light on the involvement and dysregulation that astroglia undergo in ALS, we isolated pure grey-matter cortical astroglia and subjected them to microarray analysis. We uncovered a vast number of genes that show dysregulation at end-stage in the ALS mouse model, G93A SOD1. Many of these genes play essential roles in ion homeostasis and the Wnt-signaling pathway. Several of these dysregulated genes are common in ALS spinal cord astroglia, while many of them are unique. This database serves as an approach for understanding the significance of dysfunctional genes and pathways in cortical astroglia in the context of motor neuron disease, as well as determining regional astroglia heterogeneity, and providing insight into ALS pathogenesis.

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Yi chun Hsieh

Molecularly defined cortical astroglia subpopulation modulates neurons via secretion of Norrin

Cortical astroglia undergo transcriptomic dysregulation in the G93A SOD1 ALS mouse model

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