Susan Lindtner scite author profile

Summary Mammalian pallial (cortical and hippocampal) and striatal interneurons are both generated in the embryonic subpallium, including the medial ganglionic eminence (MGE). Herein we demonstrate that the Zfhx1b (Sip1, Zeb2) zinc finger homeobox gene is required in the MGE, directly downstream of Dlx1&2, to generate cortical interneurons that express Cxcr7, MafB and cMaf. In its absence, Nkx2-1 expression is not repressed, and cells that ordinarily would become cortical interneurons appear to transform towards a subtype of GABAeric striatal interneurons. These results show that Zfhx1b is required to generate cortical interneurons, and suggest a mechanism for the epilepsy observed in humans with Zfhx1b mutations (Mowat-Wilson syndrome).

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Transcriptional Regulation of Enhancers Active in Protodomains of the Developing Cerebral Cortex

Pattabiraman

Golonzhka

Lindtner

et al. 2014

Neuron

101

120

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SUMMARY Elucidating the genetic control of cerebral cortical (pallial) development is essential for understanding function, evolution, and disorders of the brain. Transcription factors (TFs) that embryonically regulate pallial regionalization are expressed in gradients, raising the question of how discrete domains are generated. We provide evidence that small enhancer elements active in protodomains integrate broad transcriptional information. CreERT2 and GFP expression from 14 different enhancer elements in stable transgenic mice allowed us to define the first comprehensive regional fate map of the pallium. We explored transcriptional mechanisms that control the activity of the enhancers using informatics, in vivo occupancy by TFs that regulate cortical patterning (CoupTFI, Pax6 and Pbx1), and analysis of enhancer activity in Pax6 mutants. Overall, the results provide novel insights into how broadly expressed patterning TFs regulate the activity of small enhancer elements that drive gene expression in pallial protodomains that fate map to distinct cortical regions.

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Subpallial Enhancer Transgenic Lines: a Data and Tool Resource to Study Transcriptional Regulation of GABAergic Cell Fate

Silberberg

Taher

Lindtner

et al. 2016

Neuron

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SUMMARY Elucidating the transcriptional circuitry controlling forebrain development requires an understanding of enhancer activity and regulation. We generated stable transgenic mouse lines that express CreERT2 and GFP from 10 different enhancer elements with activity in distinct domains within the embryonic basal ganglia. We used these unique tools to generate a comprehensive regional fate map of the mouse subpallium including sources for specific subtypes of amygdala neurons. We then focused on deciphering transcriptional mechanisms that control enhancer activity. Using machine learning computations, in vivo chromosomal occupancy of 13 transcription factors that regulate subpallial patterning and differentiation, and analysis of enhancer activity in Dlx1/2 and Lhx6 mutants, we elucidated novel molecular mechanisms that regulate region-specific enhancer activity in the developing brain. Thus, these subpallial enhancer transgenic lines are data and tool resources to study transcriptional regulation of GABAergic cell fate.

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Evi3, a common retroviral integration site in murine B-cell lymphoma, encodes an EBFAZ-related Krüppel-like zinc finger protein

Warming

Liu

Suzuki

et al. 2003

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Retroviral insertional mutagenesis in inbred mouse strains provides a powerful method for cancer gene discovery. Here, we show that a common retroviral integration site (RIS) in AKXD B-cell lymphomas, termed Evi3, encodes a novel zinc finger protein with 30 Krü ppel-like zinc finger repeats. Most integrations at Evi3 are located upstream of the first translated exon and result in 3 long-terminal repeat (LTR)-driven overexpression of Evi3. Evi3 is highly related to the early B-cell factorassociated zinc finger gene (Ebfaz), and all 30 zinc fingers found in EVI3 are conserved in EBFAZ. EBFAZ binds to and negatively regulates early B-cell factor (EBF) (also known as olfactory-1, OLF1), a basic helix-loop-helix (bHLH) transcription factor required for B-lineage commitment and the development of the olfactory epithelium. EBFAZ also binds to SMAand MAD-related protein-1 (SMAD1) and SMAD4 in response to bone morphogenetic protein-2 (BMP2) signaling, which in turn activates the homeobox regulator of Xenopus mesoderm and neural development Xvent-2. Surprisingly, while Ebfaz and Evi3 are coexpressed in many tissues, and both proteins are nuclear, we could not detect Ebfaz expression in B cells by reverse transcriptase-polymerase chain reaction (RT-PCR), whereas Evi3 expression could be detected at all stages of B-cell development. Our results suggest that EVI3, like EBFAZ, is a multifunctional protein that participates in many signaling pathways via its multiple zinc fingers. Furthermore, our results suggest that EVI3, not EBFAZ, is the member of this protein family that interacts with and

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Susan Lindtner

Dlx1&2-Dependent Expression of Zfhx1b (Sip1, Zeb2) Regulates the Fate Switch between Cortical and Striatal Interneurons

Transcriptional Regulation of Enhancers Active in Protodomains of the Developing Cerebral Cortex

Subpallial Enhancer Transgenic Lines: a Data and Tool Resource to Study Transcriptional Regulation of GABAergic Cell Fate

Evi3, a common retroviral integration site in murine B-cell lymphoma, encodes an EBFAZ-related Krüppel-like zinc finger protein

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