Yin Yang 1 controls cerebellar astrocyte maturation

Diverse subpopulations of astrocytes tile different brain regions to accommodate local requirements of neurons and associated neuronal circuits. Nevertheless, molecular mechanisms governing astrocyte diversity remain mostly unknown. We explored the role of a zinc finger transcription factor Yin Yang...

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Bibliographic Details
Published inGlia Vol. 71; no. 10; pp. 2437 - 2455
Main Authors Mockenhaupt, Karli, Tyc, Katarzyna M., McQuiston, Adam, Gonsiewski, Alexandra K., Zarei‐Kheirabadi, Masoumeh, Hariprashad, Avani, Biswas, Debolina D., Gupta, Angela S., Olex, Amy L., Singh, Sandeep K., Waters, Michael R., Dupree, Jeff L., Dozmorov, Mikhail G., Kordula, Tomasz
Format Journal Article
LanguageEnglish
Published Hoboken, USA John Wiley & Sons, Inc 01.10.2023
Wiley Subscription Services, Inc
Subjects
Animals
Astrocytes
Astrocytes - metabolism
Cerebellum
Cerebellum - metabolism
Gene expression
Glial fibrillary acidic protein
Gliosis
heterogeneity
Maturation
Mice
Molecular modelling
Neurons - metabolism
Phenotypes
Subpopulations
Transcription Factors - metabolism
Yin-Yang
YY1
YY1 protein
Zinc finger proteins
YY1
maturation
astrocytes
cerebellum
heterogeneity
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Summary:Diverse subpopulations of astrocytes tile different brain regions to accommodate local requirements of neurons and associated neuronal circuits. Nevertheless, molecular mechanisms governing astrocyte diversity remain mostly unknown. We explored the role of a zinc finger transcription factor Yin Yang 1 (YY1) that is expressed in astrocytes. We found that specific deletion of YY1 from astrocytes causes severe motor deficits in mice, induces Bergmann gliosis, and results in simultaneous loss of GFAP expression in velate and fibrous cerebellar astrocytes. Single cell RNA‐seq analysis showed that YY1 exerts specific effects on gene expression in subpopulations of cerebellar astrocytes. We found that although YY1 is dispensable for the initial stages of astrocyte development, it regulates subtype‐specific gene expression during astrocyte maturation. Moreover, YY1 is continuously needed to maintain mature astrocytes in the adult cerebellum. Our findings suggest that YY1 plays critical roles regulating cerebellar astrocyte maturation during development and maintaining a mature phenotype of astrocytes in the adult cerebellum. Main Points YY1 is dispensable for the initial stages of cerebellar astrocyte development, YY1 regulates subtype‐specific gene expression during cerebellar astrocyte maturation. YY1 is needed to maintain astrocyte identity in the adult cerebellum.
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Author Contributions
K.M planned and performed most experiments, with assistance from A.M, A.G., M.Z. K., A.H., D.D.B., A.S.G., S.K.S., M.R.W., and J.L.D. Bioinformatic analysis was performed by K.M.T. A.O.L aligned sequencing reads. M.G.D commented on bioinformatic work. T.K. conceived the study and contributed to planning of the experiments. T.K. and K.M. drafted the manuscript. All authors read, edited, and approved the final manuscript.
ISSN:0894-1491
1098-1136
1098-1136
DOI:10.1002/glia.24434