Building a human cortex: the evolutionary differentiation of Cajal-Retzius cells and the cortical hem.

Journal of Anatomy
G Meyer

Abstract

Cajal-Retzius (CR) cells are the most significant source of reelin, an extracellular matrix glycoprotein essential for cortical development. Strategically located in the marginal zone, CR cells control radial migration and laminar positioning of pyramidal neurons of the cortical plate. They degenerate and undergo cell death when cortical migration is completed. In human cortex development, reelin-expressing CR cells are already present in the early preplate, and continue to increase in number after the appearance of the cortical plate. In the course of the first half of gestation, the reelin signal in the marginal zone undergoes a huge amplification in parallel with the growth of the cortical plate and the expansion of the cortical surface. A significant source of CR cells is the cortical hem, a putative signalling centre at the interface of the prospective hippocampus and the choroid plexus. Hem-derived CR cells co-express reelin and p73, a transcription factor of the p53-family. They form the predominant CR cell population of the human neocortex. Characteristically, CR cells express the anti-apoptotic isoform DeltaNp73 which may be responsible for the protracted lifespan of human CR cells and the morphological differentiation...Continue Reading

References

May 1, 1977·Developmental Biology·M E Desmond, A G Jacobson
Oct 1, 1992·The Journal of Comparative Neurology·J F GadisseuxP Evrard
May 1, 1997·The European Journal of Neuroscience·S N SchiffmannA M Goffinet
Jul 22, 1998·The Journal of Comparative Neurology·G Meyer, A M Goffinet
Sep 9, 1999·International Journal of Developmental Neuroscience : the Official Journal of the International Society for Developmental Neuroscience·L C Abbott, D M Jacobowitz
Oct 26, 1999·The Journal of Comparative Neurology·A M GoffinetG Meyer
Nov 26, 1999·Neuron·G D'ArcangeloT Curran
Jan 3, 2001·Microscopy Research and Technique·K M DziegielewskaN R Saunders
Feb 15, 2001·Journal of Chemical Neuroanatomy·C G Pérez-GarcíaG Meyer
Dec 26, 2001·Cell Death and Differentiation·T J GrobA Tobler
Oct 2, 2002·Neuron·Jean M HébertSusan K McConnell
Jan 24, 2003·The Journal of Comparative Neurology·F TissirA M Goffinet
Mar 20, 2003·Brain Research. Developmental Brain Research·Robert F HevnerAndy Fink
Apr 3, 2003·Brain Research. Molecular Brain Research·David BenhayonTom Curran
Jun 5, 2003·Nature Reviews. Neuroscience·Fadel Tissir, André M Goffinet
Mar 6, 2004·The Journal of Neuroscience : the Official Journal of the Society for Neuroscience·Keiko Takiguchi-HayashiYasuto Tanabe
Apr 1, 2004·Cerebral Cortex·Hajnalka AbrahamGundela Meyer
May 28, 2004·The Journal of Comparative Neurology·A Abu-KhalilDaniel H Geschwind
Nov 5, 2004·The Journal of Neuroscience : the Official Journal of the Society for Neuroscience·Gundela MeyerDaniel Caput
Feb 3, 2005·Nature Reviews. Neuroscience·Erich D JarvisUNKNOWN Avian Brain Nomenclature Consortium
Apr 28, 2005·Brain, Behavior and Evolution·Lainy B DayDeborah H Olster
Jul 26, 2005·Nature Neuroscience·Franck BielleAlessandra Pierani
Sep 16, 2005·The Journal of Neuroscience : the Official Journal of the Society for Neuroscience·Gloria KuoJonathan A Cooper
Jan 18, 2006·Development·Michio YoshidaElizabeth A Grove
Mar 8, 2006·The European Journal of Neuroscience·Zoltán MolnárHenry Kennedy
Jun 30, 2006·Journal of Neurochemistry·W Bradley JacobsFreda D Miller
Jul 21, 2006·The Journal of Neuroscience : the Official Journal of the Society for Neuroscience·Xun ChengEdwin S Monuki
Aug 18, 2006·Nature·Katherine S PollardDavid Haussler

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Citations

Dec 20, 2011·Cerebral Cortex·Gisela ReinchisiNada Zecevic
Jan 12, 2013·Cerebral Cortex·Achira RoyShubha Tole
Oct 30, 2015·Frontiers in Neuroscience·Juan F Montiel, Francisco Aboitiz
Oct 29, 2010·Journal of Anatomy·Gavin ClowryPasko Rakic
Oct 23, 2012·Journal of Neuroscience Research·Abdeslam Mouihate, Maie D Al-Bader
Sep 10, 2013·Wiley Interdisciplinary Reviews. Developmental Biology·Edward C Gilmore, Christopher A Walsh
Jul 23, 2014·Acta Neuropathologica Communications·Waney Squier, Anna Jansen
Apr 8, 2015·Alcoholism, Clinical and Experimental Research·Alexander G J Skorput, Hermes H Yeh
Jul 2, 2014·Neuroscience Research·Yoko Arai, Alessandra Pierani
Jul 16, 2014·Neuroscience Research·Takuma Kumamoto, Carina Hanashima
Aug 23, 2011·Neuropharmacology·Sabina Berretta
Oct 6, 2012·Biological Psychiatry·Kristiina TammimiesIsabel Tapia-Páez
Jun 12, 2014·Frontiers in Neuroanatomy·Miriam González-Gómez, Gundela Meyer
Mar 22, 2014·Frontiers in Neuroanatomy·Annika GutzmannMaren Engelhardt
Jul 6, 2014·Frontiers in Neuroanatomy·Verónica Martínez-Cerdeño, Stephen C Noctor
Jan 7, 2014·Biological Chemistry·Bhavin Shah, Andreas W Püschel
May 18, 2016·Biological Chemistry·Bhavin Shah, Andreas W Püschel
Mar 7, 2014·The Journal of Histochemistry and Cytochemistry : Official Journal of the Histochemistry Society·Camilla BjørnbakKjeld Møllgård
Nov 6, 2018·Hippocampus·Max AnstötzGabriele M Rune
Mar 13, 2019·Journal of Anatomy·Gundela MeyerMiriam González-Gómez
May 19, 2020·The Journal of Comparative Neurology·Luis PuellesJohn L R Rubenstein
May 15, 2016·Cerebral Cortex·Nuria Ruiz-ReigAlfonso Fairén
Jun 24, 2020·Proceedings of the National Academy of Sciences of the United States of America·Ivano AmelioGerry Melino
Sep 11, 2012·Chembiochem : a European Journal of Chemical Biology·Melanie ZiegelerHarald Schwalbe
Mar 5, 2021·Frontiers in Cell and Developmental Biology·Lucía Florencia Franchini
Jul 13, 2021·Frontiers in Molecular Biosciences·Kseniia Sarieva, Simone Mayer
Oct 7, 2021·Brain, Behavior and Evolution·Sara Jiménez, Nerea Moreno

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