Loss of the neuronal genome organizer and transcription factor CTCF induces neuronal death and reactive gliosis in the anterior cingulate cortex.

Ji-Hye Kwak, Somi Kim, Nam-Kyung Yu, Hyunhyo Seo, Ja Eun Choi, Ji-Il Kim, Dong Il Choi, Myung Won Kim, Chuljung Kwak, Kyungmin Lee, Bong-Kiun Kaang

Genes, brain, and behavior 2021 Feb

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CCCTC-binding factor (CTCF) is a genome organizer that regulates gene expression through transcription and chromatin structure regulation. CTCF also plays an important role during the developmental and adult stages. Cell-specific CTCF deletion studies have shown that a reduction in CTCF expression leads to the development of distinct clinical features and cognitive disorders. Therefore, we knocked out Ctcf (CTCF cKO) in the excitatory neurons of the forebrain in a Camk2a-Cre mouse strain to examine the role of CTCF in cell death and gliosis in the cortex. CTCF cKO mice were viable, but they demonstrated an age-dependent increase in reactive gliosis of astrocytes and microglia in the anterior cingulate cortex (ACC) from 16 weeks of age prior to neuronal loss observed at over 20 weeks of age. Consistent with these data, qRT-PCR analysis of the CTCF cKO ACC revealed changes in the expression of inflammation-related genes (Hspa1a, Prokr2 and Itga8) linked to gliosis and neuronal death. Our results suggest that prolonged Ctcf gene deficiency in excitatory neurons results in neuronal cell death and gliosis, possibly through functional changes in inflammation-related genes. © 2020 International Behavioural and Neural Genetics Society and John Wiley & Sons Ltd.

Citation

Ji-Hye Kwak, Somi Kim, Nam-Kyung Yu, Hyunhyo Seo, Ja Eun Choi, Ji-Il Kim, Dong Il Choi, Myung Won Kim, Chuljung Kwak, Kyungmin Lee, Bong-Kiun Kaang. Loss of the neuronal genome organizer and transcription factor CTCF induces neuronal death and reactive gliosis in the anterior cingulate cortex. Genes, brain, and behavior. 2021 Feb;20(2):e12701