TY - JOUR
T1 - Cooperation of intrinsic and extrinsic signals in the elaboration of regional identity in the posterior cerebral cortex
AU - Nothias, Fatiha
AU - Fishell, Gord
AU - Ruiz I Altaba, Ariel
N1 - Funding Information:
We thank L. Philipson for unconditional support. Anti-Otx2 antibodies were raised by A.R.A. when he was a post-doc with T. Jessell and his support and encouragement are deeply appreciated. We are grateful to N. Dahmane for comments on the manuscript, A. Simeone for the mouse Otx2 sequence, R. Costa for a transthyretin cDNA, J. Kohtz for the S17 and Emx1 primers and S. Mazan and P. Brulet for the unsuccessful use of Otx2 : LacZ mice. This work was supported by grants from the Association pour la Recherche Médicale (F.N.), the National Institutes of Health NS32993 (G.F.), the March of Dimes (A.R.A.), the Skirball Institute (G.F., A.R.A.) and the Pew Scholars Program in the Biomedical Sciences (A.R.A.).
PY - 1998/4/9
Y1 - 1998/4/9
N2 - Understanding the compartmentalization of the neocortex (isocortex) of the mammalian brain into functional areas is a challenging problem [1-3]. Unlike pattern formation in the spinal cord and hindbrain, it does not involve the specification of distinct cells types: distinct areas differ in their patterns of connectivity and cytoarchitecture. It has been suggested that signals intrinsic to the neocortical neuroepithelium specify regional fate [3]. Alternatively, spatial patterning might be imposed by extrinsic cues such as thalamocortical projections [4-6]. Recent results highlight the ability of early precursor cells of the telencephalic neuroepithelium to 'remember' their spatial position from times before thalamic innervation [7-12]. An influence from the thalamus, however, cannot be ruled out as there is a precise invasion of the correct cortical areas by the corresponding projections [13,14]. Furthermore, cortical neuronal progenitors have been proposed to adopt new connection patterns after transplantation [6,7], as well as when the thalamic input is rerouted [15,16]. Here, we describe the transient expression of the homeobox gene Otx2 in the posterior, prospective visual, neocortex and use it to analyze the establishment of posterior cortical fate. The results suggest that whereas intrinsic cortical information is sufficient to specify regional fate, extrinsic signals from the thalamus are involved in the expansion or maintenance of the population of cells expressing Otx2 but not in regionalization.
AB - Understanding the compartmentalization of the neocortex (isocortex) of the mammalian brain into functional areas is a challenging problem [1-3]. Unlike pattern formation in the spinal cord and hindbrain, it does not involve the specification of distinct cells types: distinct areas differ in their patterns of connectivity and cytoarchitecture. It has been suggested that signals intrinsic to the neocortical neuroepithelium specify regional fate [3]. Alternatively, spatial patterning might be imposed by extrinsic cues such as thalamocortical projections [4-6]. Recent results highlight the ability of early precursor cells of the telencephalic neuroepithelium to 'remember' their spatial position from times before thalamic innervation [7-12]. An influence from the thalamus, however, cannot be ruled out as there is a precise invasion of the correct cortical areas by the corresponding projections [13,14]. Furthermore, cortical neuronal progenitors have been proposed to adopt new connection patterns after transplantation [6,7], as well as when the thalamic input is rerouted [15,16]. Here, we describe the transient expression of the homeobox gene Otx2 in the posterior, prospective visual, neocortex and use it to analyze the establishment of posterior cortical fate. The results suggest that whereas intrinsic cortical information is sufficient to specify regional fate, extrinsic signals from the thalamus are involved in the expansion or maintenance of the population of cells expressing Otx2 but not in regionalization.
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U2 - 10.1016/s0960-9822(98)70189-7
DO - 10.1016/s0960-9822(98)70189-7
M3 - Article
C2 - 9550705
AN - SCOPUS:0032499023
SN - 0960-9822
VL - 8
SP - 459
EP - 463
JO - Current Biology
JF - Current Biology
IS - 8
ER -