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Literature DB >> 27965439

Transcriptional regulation of intermediate progenitor cell generation during hippocampal development.

Lachlan Harris¹, Oressia Zalucki^1,2, Ilan Gobius², Hannah McDonald¹, Jason Osinki³, Tracey J Harvey¹, Alexandra Essebier⁴, Diana Vidovic¹, Ivan Gladwyn-Ng^5,6, Thomas H Burne^2,7, Julian I Heng^5,6, Linda J Richards^1,2, Richard M Gronostajski³, Michael Piper^8,2.

Abstract

During forebrain development, radial glia generate neurons through the production of intermediate progenitor cells (IPCs). The production of IPCs is a central tenet underlying the generation of the appropriate number of cortical neurons, but the transcriptional logic underpinning this process remains poorly defined. Here, we examined IPC production using mice lacking the transcription factor nuclear factor I/X (Nfix). We show that Nfix deficiency delays IPC production and prolongs the neurogenic window, resulting in an increased number of neurons in the postnatal forebrain. Loss of additional Nfi alleles (Nfib) resulted in a severe delay in IPC generation while, conversely, overexpression of NFIX led to precocious IPC generation. Mechanistically, analyses of microarray and ChIP-seq datasets, coupled with the investigation of spindle orientation during radial glial cell division, revealed that NFIX promotes the generation of IPCs via the transcriptional upregulation of inscuteable (Insc). These data thereby provide novel insights into the mechanisms controlling the timely transition of radial glia into IPCs during forebrain development.

Entities: Disease Gene Species

Keywords: Hippocampus; Intermediate progenitor cell; Mouse; NFIX

Mesh：

Substances：

Year: 2016 PMID： 27965439 PMCID： PMC5201028 DOI： 10.1242/dev.140681

Source DB: PubMed Journal: Development ISSN： 0950-1991 Impact factor: 6.868

43 in total

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Authors: Todd E Anthony; Corinna Klein; Gord Fishell; Nathaniel Heintz
Journal: Neuron Date: 2004-03-25 Impact factor: 17.173

2. Pax6, Tbr2, and Tbr1 are expressed sequentially by radial glia, intermediate progenitor cells, and postmitotic neurons in developing neocortex.

Authors: Chris Englund; Andy Fink; Charmaine Lau; Diane Pham; Ray A M Daza; Alessandro Bulfone; Tom Kowalczyk; Robert F Hevner
Journal: J Neurosci Date: 2005-01-05 Impact factor: 6.167

Review 3. Symmetric versus asymmetric cell division during neurogenesis in the developing vertebrate central nervous system.

Authors: Wieland B Huttner; Yoichi Kosodo
Journal: Curr Opin Cell Biol Date: 2005-10-21 Impact factor: 8.382

Review 4. The cell biology of neurogenesis.

Authors: Magdalena Götz; Wieland B Huttner
Journal: Nat Rev Mol Cell Biol Date: 2005-10 Impact factor: 94.444

Review 5. Mechanisms of asymmetric stem cell division.

Authors: Juergen A Knoblich
Journal: Cell Date: 2008-02-22 Impact factor: 41.582

6. Oblique radial glial divisions in the developing mouse neocortex induce self-renewing progenitors outside the germinal zone that resemble primate outer subventricular zone progenitors.

Authors: Atsunori Shitamukai; Daijiro Konno; Fumio Matsuzaki
Journal: J Neurosci Date: 2011-03-09 Impact factor: 6.167

7. NFIA controls telencephalic progenitor cell differentiation through repression of the Notch effector Hes1.

Authors: Michael Piper; Guy Barry; John Hawkins; Sharon Mason; Charlotta Lindwall; Erica Little; Anindita Sarkar; Aaron G Smith; Randal X Moldrich; Glen M Boyle; Shubha Tole; Richard M Gronostajski; Timothy L Bailey; Linda J Richards
Journal: J Neurosci Date: 2010-07-07 Impact factor: 6.167

8. Expansion of the lateral ventricles and ependymal deficits underlie the hydrocephalus evident in mice lacking the transcription factor NFIX.

Authors: Diana Vidovic; Lachlan Harris; Tracey J Harvey; Yee Hsieh Evelyn Heng; Aaron G Smith; Jason Osinski; James Hughes; Paul Thomas; Richard M Gronostajski; Timothy L Bailey; Michael Piper
Journal: Brain Res Date: 2015-05-07 Impact factor: 3.252

9. Mouse inscuteable induces apical-basal spindle orientation to facilitate intermediate progenitor generation in the developing neocortex.

Authors: Maria Pia Postiglione; Christoph Jüschke; Yunli Xie; Gerald A Haas; Christoforos Charalambous; Juergen A Knoblich
Journal: Neuron Date: 2011-10-20 Impact factor: 17.173

10. Neural stem and progenitor cells shorten S-phase on commitment to neuron production.

Authors: Yoko Arai; Jeremy N Pulvers; Christiane Haffner; Britta Schilling; Ina Nüsslein; Federico Calegari; Wieland B Huttner
Journal: Nat Commun Date: 2011-01-11 Impact factor: 14.919

11 in total

1. BrdU/EdU dual labeling to determine the cell-cycle dynamics of defined cellular subpopulations.

Authors: Lachlan Harris; Oressia Zalucki; Michael Piper
Journal: J Mol Histol Date: 2018-02-14 Impact factor: 2.611

2. Common Regulatory Targets of NFIA, NFIX and NFIB during Postnatal Cerebellar Development.

Authors: James Fraser; Alexandra Essebier; Alexander S Brown; Raul Ayala Davila; Danyon Harkins; Oressia Zalucki; Lauren P Shapiro; Peter Penzes; Brandon J Wainwright; Matthew P Scott; Richard M Gronostajski; Mikael Bodén; Michael Piper; Tracey J Harvey
Journal: Cerebellum Date: 2020-02 Impact factor: 3.847

3. NFIB Haploinsufficiency Is Associated with Intellectual Disability and Macrocephaly.

Authors: Ina Schanze; Jens Bunt; Jonathan W C Lim; Denny Schanze; Ryan J Dean; Marielle Alders; Patricia Blanchet; Tania Attié-Bitach; Siren Berland; Steven Boogert; Sangamitra Boppudi; Caitlin J Bridges; Megan T Cho; William B Dobyns; Dian Donnai; Jessica Douglas; Dawn L Earl; Timothy J Edwards; Laurence Faivre; Brieana Fregeau; David Genevieve; Marion Gérard; Vincent Gatinois; Muriel Holder-Espinasse; Samuel F Huth; Kosuke Izumi; Bronwyn Kerr; Elodie Lacaze; Phillis Lakeman; Sonal Mahida; Ghayda M Mirzaa; Sian M Morgan; Catherine Nowak; Hilde Peeters; Florence Petit; Daniela T Pilz; Jacques Puechberty; Eyal Reinstein; Jean-Baptiste Rivière; Avni B Santani; Anouck Schneider; Elliott H Sherr; Constance Smith-Hicks; Ilse Wieland; Elaine Zackai; Xiaonan Zhao; Richard M Gronostajski; Martin Zenker; Linda J Richards
Journal: Am J Hum Genet Date: 2018-11-01 Impact factor: 11.025

4. Deletion of NFIX results in defective progression through meiosis within the mouse testis†.

Authors: Raul Ayala Davila; Cassy Spiller; Danyon Harkins; Tracey Harvey; Philip W Jordan; Richard M Gronostajski; Michael Piper; Josephine Bowles
Journal: Biol Reprod Date: 2022-06-13 Impact factor: 4.161

5. MiR-663a Stimulates Proliferation and Suppresses Early Apoptosis of Human Spermatogonial Stem Cells by Targeting NFIX and Regulating Cell Cycle.

Authors: Fan Zhou; Qingqing Yuan; Wenhui Zhang; Minghui Niu; Hongyong Fu; Qianqian Qiu; Guoping Mao; Hong Wang; Liping Wen; Hongxiang Wang; Mujun Lu; Zheng Li; Zuping He
Journal: Mol Ther Nucleic Acids Date: 2018-07-04 Impact factor: 8.886

10. The Transcription Factor Nfix Requires RhoA-ROCK1 Dependent Phagocytosis to Mediate Macrophage Skewing during Skeletal Muscle Regeneration.

Authors: Marielle Saclier; Michela Lapi; Chiara Bonfanti; Giuliana Rossi; Stefania Antonini; Graziella Messina
Journal: Cells Date: 2020-03-13 Impact factor: 6.600