Sara Japoni scite author profile

Sara Japoni

5Publications

52Citation Statements Received

42Citation Statements Given

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University of Alberta

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GABAergic Interneuron Differentiation in the Basal Forebrain Is Mediated through Direct Regulation of Glutamic Acid Decarboxylase Isoforms by Dlx Homeobox Transcription Factors

Zhou

Cobos

et al. 2017

J. Neurosci.

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GABA is the key inhibitory neurotransmitter in the cortex but regulation of its synthesis during forebrain development is poorly understood. In the telencephalon, members of the distal-less () homeobox gene family are expressed in, and regulate the development of, the basal ganglia primodia from which many GABAergic neurons originate and migrate to other forebrain regions. The double knock-out mice die at birth with abnormal cortical development, including loss of tangential migration of GABAergic inhibitory interneurons to the neocortex (Anderson et al., 1997a). We have discovered that specific promoter regulatory elements of glutamic acid decarboxylase isoforms (1 and 2), which regulate GABA synthesis from the excitatory neurotransmitter glutamate, are direct transcriptional targets of both DLX1 and DLX2 homeoproteins Further gain- and loss-of-function studies and demonstrated that both DLX1 and DLX2 are necessary and sufficient for gene expression. DLX1 and/or DLX2 activated the transcription of both genes, and defects in function disrupted the differentiation of GABAergic interneurons with global reduction in GABA levels in the forebrains of the double knock-out mouse Identification of genes as direct transcriptional targets is significant; it extends our understanding of gene function in the developing forebrain beyond the regulation of tangential interneuron migration to the differentiation of GABAergic interneurons arising from the basal telencephalon, and may help to unravel the pathogenesis of several developmental brain disorders. GABA is the major inhibitory neurotransmitter in the brain. We show that homeobox genes regulate GABA synthesis during forebrain development through direct activation of glutamic acid decarboxylase enzyme isoforms that convert glutamate to GABA. This discovery helps explain how mutations result in abnormal forebrain development, due to defective differentiation, in addition to the loss of tangential migration of GABAergic inhibitory interneurons to the neocortex. Reduced numbers or function of cortical GABAergic neurons may lead to hyperactivity states such as seizures (Cobos et al., 2005) or contribute to the pathogenesis of some autism spectrum disorders. GABAergic dysfunction in the basal ganglia could disrupt the learning and development of complex motor and cognitive behaviors (Rubenstein and Merzenich, 2003).

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09 Could DLX2 regulation of neural progenitor cell fate contribute to differentiation of diffuse intrinsic pontine glioma (DIPG)?

Nevin¹,

Song²,

Japoni³

et al. 2018

Can. J. Neurol. Sci.

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Introduction: Diffuse intrinsic pontine glioma (DIPG) is refractory to therapy. The identification of histone H3.1/H3.3 K27M mutations in most DIPG has provided new insights. The DLX homeobox genes are expressed in the developing forebrain. The Dlx1/Dlx2 double knockout (DKO) mouse loses tangential GABAergic interneuron migration to the neocortex. We have identified genes that encode glutamic acid decarboxylase (GAD) enzymes as direct targets of DLX1/DLX2. In DIPG patients with H3.3 K27M mutations there is decreased Dlx2 and increased expression of the myelin transcription factor, Myt1. Methods and Results: We used bioinformatics approaches and chromatin immunoprecipitation (ChIP) assays to identify Olig2, Nkx2.2 and Myt1 promoter sequences as candidate DLX2 targets in vivo. DNA binding specificity was confirmed. The functional consequences of Dlx2 co-expression with reporter constructs of ChIP-isolated promoter fragments of Olig2 and Nkx2.2 demonstrated repression of gene targets in vitro. qPCR showed increased Olig2 and Nkx2.2 expression in the DKO forebrain. Stable transfection of a murine DIPG cell line with Dlx2 resulted in increased Gad1 and Gad2 and decreased Olig2 and Nkx2.2 expression. Of significance, we demonstrated decreased expression of H3.3 K27M and restoration of H3.3 K27 tri-methylation (me3). Conclusions: DLX transcription factors promote GABAergic interneuron and concomitant inhibition of oligodendroglial differentiation in neural progenitors by repression of a suite of genes including Olig2 and Nkx2.2. Restoration of H3 K27me3 expression in DIPG provides a promising lead towards exploration of differentiation as a therapeutic strategy for DIPG.

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Bi-03 * DLX Homeobox Genes Regulate Neuronal vs Oligodendroglial Cell Fate Decisions: Potential Relevance to Pediatric Glioneuronal Tumors and High Grade Gliomas

et al. 2015

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Biol-04. Distal-Less/Dlx2 Homeobox Gene Regulation of Chemokine Receptor Cxcr4 - Role in Migration in Forebrain Development and CNS Tumors

Japoni

Song

Leng

et al. 2019

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Dipg-11. Transcriptional Regulation of Neural Progenitor Cell Fate by DLX Homeobox Genes - Relevance to Diffuse Intrinsic Pontine Glioma (Dipg)

Eisenstat

Zagozewski

Japoni

et al. 2018

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Sara Japoni

GABAergic Interneuron Differentiation in the Basal Forebrain Is Mediated through Direct Regulation of Glutamic Acid Decarboxylase Isoforms by Dlx Homeobox Transcription Factors

09 Could DLX2 regulation of neural progenitor cell fate contribute to differentiation of diffuse intrinsic pontine glioma (DIPG)?

Bi-03 * DLX Homeobox Genes Regulate Neuronal vs Oligodendroglial Cell Fate Decisions: Potential Relevance to Pediatric Glioneuronal Tumors and High Grade Gliomas

Biol-04. Distal-Less/Dlx2 Homeobox Gene Regulation of Chemokine Receptor Cxcr4 - Role in Migration in Forebrain Development and CNS Tumors

Dipg-11. Transcriptional Regulation of Neural Progenitor Cell Fate by DLX Homeobox Genes - Relevance to Diffuse Intrinsic Pontine Glioma (Dipg)

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