4.7 Article

The human lncRNA GOMAFU suppresses neuronal interferon response pathways affected in neuropsychiatric diseases

Journal

BRAIN BEHAVIOR AND IMMUNITY
Volume 112, Issue -, Pages 175-187

Publisher

ACADEMIC PRESS INC ELSEVIER SCIENCE
DOI: 10.1016/j.bbi.2023.06.009

Keywords

Neuroinflammation; long non-coding RNA (lncRNA); GOMAFU; Schizophrenia; Interferon signaling pathway

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Long noncoding RNAs (lncRNAs) have diverse roles in regulating brain gene networks and abnormalities in lncRNAs are implicated in the complex etiology of neuropsychiatric disorders. The lncRNA gene GOMAFU is dysregulated in postmortem schizophrenic brains and has genetic variants associated with schizophrenia risk. This study reveals that GOMAFU suppresses neuronal interferon response pathways that are hyperactive in postmortem schizophrenia brains. Furthermore, GOMAFU deficiency leads to dysregulation of pathways commonly affected in schizophrenia and autism spectrum disorder, particularly upregulation of genes in the interferon signaling pathway.
Long noncoding RNAs (lncRNAs) play multifaceted roles in regulating brain gene networks. LncRNA abnormalities are thought to underlie the complex etiology of numerous neuropsychiatric disorders. One example is the human lncRNA gene GOMAFU, which is found dysregulated in schizophrenia (SCZ) postmortem brains and harbors genetic variants that contribute to the risk of SCZ. However, transcriptome-wide biological pathways regulated by GOMAFU have not been determined. How GOMAFU dysregulation contributes to SCZ pathogenesis remains elusive. Here we report that GOMAFU is a novel suppressor of human neuronal interferon (IFN) response pathways that are hyperactive in the postmortem SCZ brains. We analyzed recently released transcriptomic profiling datasets in clinically relevant brain areas derived from multiple SCZ cohorts and found brain region specific dysregulation of GOMAFU. Using CRISPR-Cas9 to delete the GOMAFU promoter in a human neural progenitor cell model, we identified transcriptomic alterations caused by GOMAFU deficiency in pathways commonly affected in postmortem brains of SCZ and autism spectrum disorder (ASD), with the most striking effects on upregulation of numerous genes underlying IFN signaling. In addition, expression levels of GOMAFU target genes in the IFN pathway are differentially affected in SCZ brain regions and negatively associated with GOMAFU alterations. Furthermore, acute exposure to IFN-& gamma; causes a rapid decline of GOMAFU and activation of a subclass of GOMAFU targets in stress and immune response pathways that are affected in SCZ brains, which form a highly interactive molecular network. Together, our studies unveiled the first evidence of lncRNAgoverned neuronal response pathways to IFN challenge and suggest that GOMAFU dysregulation may mediate environmental risks and contribute to etiological neuroinflammatory responses by brain neurons of neuropsychiatric diseases.

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