A transcription factor network specifying inhibitory versus excitatory neurons in the dorsal spinal cord

The proper balance of excitatory and inhibitory neurons is crucial for normal processing of somatosensory information in the dorsal spinal cord. Two neural basic helix-loop-helix transcription factors (TFs), Ascl1 and Ptf1a, have contrasting functions in specifying these neurons. To understand how A...

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Published in	Development (Cambridge) Vol. 141; no. 14; pp. 2803 - 2812
Main Authors	Borromeo, Mark D., Meredith, David M., Castro, Diogo S., Chang, Joshua C., Tung, Kuang-Chi, Guillemot, Francois, Johnson, Jane E.
Format	Journal Article
Language	English
Published	England The Company of Biologists 01.07.2014
Subjects	Animals Base Sequence Basic Helix-Loop-Helix Transcription Factors - metabolism Binding Sites Body Patterning - genetics Chickens Chromatin - metabolism E-Box Elements - genetics GABAergic Neurons - metabolism Gene Expression Regulation, Developmental Gene Regulatory Networks Genome - genetics Glutamates - metabolism Mice Molecular Sequence Data Neural Inhibition Neural Tube - cytology Neural Tube - embryology Neural Tube - metabolism Neurogenesis - genetics Neurons - cytology Neurons - metabolism Nucleotide Motifs - genetics Protein Binding Spinal Cord - cytology Spinal Cord - embryology Transcription Factors - metabolism Neuronal subtype specification Dorsal neural tube Mouse bHLH transcription factor ChIP-Seq Chick Ascl1 Ptf1a
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Abstract	The proper balance of excitatory and inhibitory neurons is crucial for normal processing of somatosensory information in the dorsal spinal cord. Two neural basic helix-loop-helix transcription factors (TFs), Ascl1 and Ptf1a, have contrasting functions in specifying these neurons. To understand how Ascl1 and Ptf1a function in this process, we identified their direct transcriptional targets genome-wide in the embryonic mouse neural tube using ChIP-Seq and RNA-Seq. We show that Ascl1 and Ptf1a directly regulate distinct homeodomain TFs that specify excitatory or inhibitory neuronal fates. In addition, Ascl1 directly regulates genes with roles in several steps of the neurogenic program, including Notch signaling, neuronal differentiation, axon guidance and synapse formation. By contrast, Ptf1a directly regulates genes encoding components of the neurotransmitter machinery in inhibitory neurons, and other later aspects of neural development distinct from those regulated by Ascl1. Moreover, Ptf1a represses the excitatory neuronal fate by directly repressing several targets of Ascl1. Ascl1 and Ptf1a bind sequences primarily enriched for a specific E-Box motif (CAGCTG) and for secondary motifs used by Sox, Rfx, Pou and homeodomain factors. Ptf1a also binds sequences uniquely enriched in the CAGATG E-box and in the binding motif for its co-factor Rbpj, providing two factors that influence the specificity of Ptf1a binding. The direct transcriptional targets identified for Ascl1 and Ptf1a provide a molecular understanding of how these DNA-binding proteins function in neuronal development, particularly as key regulators of homeodomain TFs required for neuronal subtype specification.
AbstractList	The proper balance of excitatory and inhibitory neurons is crucial for normal processing of somatosensory information in the dorsal spinal cord. Two neural basic helix-loop-helix transcription factors (TFs), Ascl1 and Ptf1a, have contrasting functions in specifying these neurons. To understand how Ascl1 and Ptf1a function in this process, we identified their direct transcriptional targets genome-wide in the embryonic mouse neural tube using ChIP-Seq and RNA-Seq. We show that Ascl1 and Ptf1a directly regulate distinct homeodomain TFs that specify excitatory or inhibitory neuronal fates. In addition, Ascl1 directly regulates genes with roles in several steps of the neurogenic program, including Notch signaling, neuronal differentiation, axon guidance and synapse formation. By contrast, Ptf1a directly regulates genes encoding components of the neurotransmitter machinery in inhibitory neurons, and other later aspects of neural development distinct from those regulated by Ascl1. Moreover, Ptf1a represses the excitatory neuronal fate by directly repressing several targets of Ascl1. Ascl1 and Ptf1a bind sequences primarily enriched for a specific E-Box motif (CAGCTG) and for secondary motifs used by Sox, Rfx, Pou and homeodomain factors. Ptf1a also binds sequences uniquely enriched in the CAGATG E-box and in the binding motif for its co-factor Rbpj, providing two factors that influence the specificity of Ptf1a binding. The direct transcriptional targets identified for Ascl1 and Ptf1a provide a molecular understanding of how these DNA-binding proteins function in neuronal development, particularly as key regulators of homeodomain TFs required for neuronal subtype specification. The proper balance of excitatory and inhibitory neurons is crucial for normal processing of somatosensory information in the dorsal spinal cord. Two neural basic helix-loop-helix transcription factors (TFs), Ascl1 and Ptf1a, have contrasting functions in specifying these neurons. To understand how Ascl1 and Ptf1a function in this process, we identified their direct transcriptional targets genome-wide in the embryonic mouse neural tube using ChIP-Seq and RNA-Seq. We show that Ascl1 and Ptf1a directly regulate distinct homeodomain TFs that specify excitatory or inhibitory neuronal fates. In addition, Ascl1 directly regulates genes with roles in several steps of the neurogenic program, including Notch signaling, neuronal differentiation, axon guidance and synapse formation. By contrast, Ptf1a directly regulates genes encoding components of the neurotransmitter machinery in inhibitory neurons, and other later aspects of neural development distinct from those regulated by Ascl1. Moreover, Ptf1a represses the excitatory neuronal fate by directly repressing several targets of Ascl1. Ascl1 and Ptf1a bind sequences primarily enriched for a specific E-Box motif (CAGCTG) and for secondary motifs used by Sox, Rfx, Pou and homeodomain factors. Ptf1a also binds sequences uniquely enriched in the CAGATG E-box and in the binding motif for its co-factor Rbpj, providing two factors that influence the specificity of Ptf1a binding. The direct transcriptional targets identified for Ascl1 and Ptf1a provide a molecular understanding of how these DNA-binding proteins function in neuronal development, particularly as key regulators of homeodomain TFs required for neuronal subtype specification.The proper balance of excitatory and inhibitory neurons is crucial for normal processing of somatosensory information in the dorsal spinal cord. Two neural basic helix-loop-helix transcription factors (TFs), Ascl1 and Ptf1a, have contrasting functions in specifying these neurons. To understand how Ascl1 and Ptf1a function in this process, we identified their direct transcriptional targets genome-wide in the embryonic mouse neural tube using ChIP-Seq and RNA-Seq. We show that Ascl1 and Ptf1a directly regulate distinct homeodomain TFs that specify excitatory or inhibitory neuronal fates. In addition, Ascl1 directly regulates genes with roles in several steps of the neurogenic program, including Notch signaling, neuronal differentiation, axon guidance and synapse formation. By contrast, Ptf1a directly regulates genes encoding components of the neurotransmitter machinery in inhibitory neurons, and other later aspects of neural development distinct from those regulated by Ascl1. Moreover, Ptf1a represses the excitatory neuronal fate by directly repressing several targets of Ascl1. Ascl1 and Ptf1a bind sequences primarily enriched for a specific E-Box motif (CAGCTG) and for secondary motifs used by Sox, Rfx, Pou and homeodomain factors. Ptf1a also binds sequences uniquely enriched in the CAGATG E-box and in the binding motif for its co-factor Rbpj, providing two factors that influence the specificity of Ptf1a binding. The direct transcriptional targets identified for Ascl1 and Ptf1a provide a molecular understanding of how these DNA-binding proteins function in neuronal development, particularly as key regulators of homeodomain TFs required for neuronal subtype specification.
Author	Castro, Diogo S. Johnson, Jane E. Chang, Joshua C. Guillemot, Francois Borromeo, Mark D. Meredith, David M. Tung, Kuang-Chi
AuthorAffiliation	1 Department of Neuroscience , UT Southwestern Medical Center , Dallas, TX 75390, USA 2 Instituto Gulbenkian de Ciência, Molecular Neurobiology Laboratory , Oeiras , Portugal 3 Division of Molecular Neurobiology , National Institute for Medical Research, Mill Hill , London NW7 1AA , UK
AuthorAffiliation_xml	– name: 3 Division of Molecular Neurobiology , National Institute for Medical Research, Mill Hill , London NW7 1AA , UK – name: 1 Department of Neuroscience , UT Southwestern Medical Center , Dallas, TX 75390, USA – name: 2 Instituto Gulbenkian de Ciência, Molecular Neurobiology Laboratory , Oeiras , Portugal
Author_xml	– sequence: 1 givenname: Mark D. surname: Borromeo fullname: Borromeo, Mark D. organization: Department of Neuroscience, UT Southwestern Medical Center, Dallas, TX 75390, USA – sequence: 2 givenname: David M. surname: Meredith fullname: Meredith, David M. organization: Department of Neuroscience, UT Southwestern Medical Center, Dallas, TX 75390, USA – sequence: 3 givenname: Diogo S. surname: Castro fullname: Castro, Diogo S. organization: Instituto Gulbenkian de Ciência, Molecular Neurobiology Laboratory, Oeiras, Portugal – sequence: 4 givenname: Joshua C. surname: Chang fullname: Chang, Joshua C. organization: Department of Neuroscience, UT Southwestern Medical Center, Dallas, TX 75390, USA – sequence: 5 givenname: Kuang-Chi surname: Tung fullname: Tung, Kuang-Chi organization: Department of Neuroscience, UT Southwestern Medical Center, Dallas, TX 75390, USA – sequence: 6 givenname: Francois surname: Guillemot fullname: Guillemot, Francois organization: Division of Molecular Neurobiology, National Institute for Medical Research, Mill Hill, London NW7 1AA, UK – sequence: 7 givenname: Jane E. surname: Johnson fullname: Johnson, Jane E. organization: Department of Neuroscience, UT Southwestern Medical Center, Dallas, TX 75390, USA
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Keywords	Neuronal subtype specification Dorsal neural tube Mouse bHLH transcription factor ChIP-Seq Chick Ascl1 Ptf1a
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Snippet	The proper balance of excitatory and inhibitory neurons is crucial for normal processing of somatosensory information in the dorsal spinal cord. Two neural...
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SubjectTerms	Animals Base Sequence Basic Helix-Loop-Helix Transcription Factors - metabolism Binding Sites Body Patterning - genetics Chickens Chromatin - metabolism E-Box Elements - genetics GABAergic Neurons - metabolism Gene Expression Regulation, Developmental Gene Regulatory Networks Genome - genetics Glutamates - metabolism Mice Molecular Sequence Data Neural Inhibition Neural Tube - cytology Neural Tube - embryology Neural Tube - metabolism Neurogenesis - genetics Neurons - cytology Neurons - metabolism Nucleotide Motifs - genetics Protein Binding Spinal Cord - cytology Spinal Cord - embryology Transcription Factors - metabolism
Title	A transcription factor network specifying inhibitory versus excitatory neurons in the dorsal spinal cord
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