Differential distribution of neurons in the gyral white matter of the human cerebral cortex

García-Marín, Virginia; Blázquez-Llorca, Lidia; Toledo-Rodriguez, Maria; González‐Soriano, Juncal; DeFelipe, Javier

doi:10.1002/cne.22485

Cited by 45 publications

(103 citation statements)

References 114 publications

(171 reference statements)

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“…Another factor is the presence of white matter neurons just below cortical layer VI, the density of which is unrelated to aging (Rojiani et al, 1996). Interstitial white matter neurons thinly populate the superficial white matter of healthy adult brains (Hardiman et al, 1988;Ramó n y Cajal, 1995;Suárez-Solá et al, 2009;García-Marín et al, 2010). They are believed to be remnants of the embryonic subplate (Chun and Shatz, 1989) that have either failed to undergo programmed cell death (Luhmann et al, 2009) or are the result of disrupted migrational processes (Chevassus-au-Louis and Represa, 1999).…”

Section: Discussionmentioning

confidence: 99%

Individual Differences in Verbal Abilities Associated with Regional Blurring of the Left Gray and White Matter Boundary

Blackmon¹,

Halgren²,

Barr³

et al. 2011

J. Neurosci.

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Blurring of the cortical gray and white matter border on MRI is associated with normal aging, pathological aging, and the presence of focal cortical dysplasia. However, it remains unclear whether normal variations in signal intensity contrast at the gray and white matter junction reflect the functional integrity of subjacent tissue. This study explores the relationship between verbal abilities and gray and white matter contrast (GWC) in healthy human adults. Participants were scanned at 3 T MRI and administered standardized measures of verbal expression and verbal working memory. GWC was estimated by calculating the non-normalized T1 image intensity contrast above and below the cortical gray/white matter interface. Spherical averaging and whole-brain correlational analyses were performed. Sulcal regions exhibited higher contrast compared to gyral regions. We found a strongly lateralized and regionally specific profile with reduced verbal expression abilities associated with blurring in left hemisphere inferior frontal cortex and temporal pole. Reduced verbal working memory was associated with blurring in widespread left frontal and temporal cortices. Such lateralized and focal results provide support for GWC as a measure of regional functional integrity and highlight its potential role in probing the neuroanatomical substrates of cognition in healthy and diseased populations.

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Section: Discussionmentioning

confidence: 99%

Individual Differences in Verbal Abilities Associated with Regional Blurring of the Left Gray and White Matter Boundary

Blackmon¹,

Halgren²,

Barr³

et al. 2011

J. Neurosci.

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“…In cats, opposite distributions for these cell types are observed 36,66 . Around the time of birth, both types of interstitial white matter neurons are present in equal numbers 38 in monkeys and humans, but there are conflicting reports about which cell morphology is more common in adult brains 38,65 . It is not clear whether multipolar neurons alter their morphology as a result of spatial constraints (the increasing ingrowth of thalamic axons decreases the available space in a non-uniform manner) or whether they are clearly distinct cell types that have distinct functions.…”

Section: Barrel Septamentioning

confidence: 98%

“…Calretinin and parvalbumin are rarely present in the sparsely distributed deep white matter neurons. One study found that within the superficial white matter, calretinin-positive cells comprise up to 15% of all neurons, whereas parvalbumin-positive cells comprise up to 6% of neurons, but the overlap between both populations was not assessed 65 . In cats, estimates of interneuron percentages range from 7% of cells in young postnatal subplate 66 to 25% of neurons in adult subplate 36 .…”

Section: Barrel Fieldmentioning

confidence: 99%

“…Interstitial white matter neurons in monkeys and humans are polymorphic neurons with large cell bodies and radially symmetric dendrites or fusiform neurons with a smaller soma and two main dendrites oriented parallel to the main fibre tracts 38 . In monkeys and humans, multipolar neurons are mainly found near the boundary with layer 6a and fusiform cells are located deep within white matter 38,65 . In cats, opposite distributions for these cell types are observed 36,66 .…”

Section: Barrel Septamentioning

confidence: 99%

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Development, evolution and pathology of neocortical subplate neurons

2015

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Subplate neurons have an essential role in cortical circuit formation. They are among the earliest formed neurons of the cerebral cortex, are located at the junction of white and grey matter, and are necessary for correct thalamocortical axon ingrowth. Recent transcriptomic studies have provided opportunities for monitoring and modulating selected subpopulations of these cells. Analyses of mouse lines expressing reporter genes have demonstrated novel, extracortical subplate neurogenesis and have shown how subplate cells are integrated under the influence of sensory activity into cortical and extracortical circuits. Recent studies have revealed that the subplate is involved in neurosecretion and modification of the extracellular milieu.

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“…The early postnatal SP neurons in rodents and cats are involved in generating oscillations in cortex (8,9) and are necessary for the maturation of the inhibitory circuitry in cortical layer (L)4 (10,11). The remaining adult SP/L6b cells in nonrodent species have been suggested to support corticocortical connectivity (1,(12)(13)(14)(15).…”

mentioning

confidence: 99%

Expression profiling of mouse subplate reveals a dynamic gene network and disease association with autism and schizophrenia

Hoerder‐Suabedissen

Oeschger

Krishnan

et al. 2013

Proc. Natl. Acad. Sci. U.S.A.

105

139

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The subplate zone is a highly dynamic transient sector of the developing cerebral cortex that contains some of the earliest generated neurons and the first functional synapses of the cerebral cortex. Subplate cells have important functions in early establishment and maturation of thalamocortical connections, as well as in the development of inhibitory cortical circuits in sensory areas. So far no role has been identified for cells in the subplate in the mature brain and disease association of the subplate-specific genes has not been analyzed systematically. Here we present gene expression evidence for distinct roles of the mouse subplate across development as well as unique molecular markers to extend the repertoire of subplate labels. Performing systematic comparisons between different ages (embryonic days 15 and 18, postnatal day 8, and adult), we reveal the dynamic and constant features of the markers labeling subplate cells during embryonic and early postnatal development and in the adult. This can be visualized using the online database of subplate gene expression at https://molnar.dpag.ox.ac.uk/subplate/. We also identify embryonic similarities in gene expression between the ventricular zones, intermediate zone, and subplate, and distinct postnatal similarities between subplate, layer 5, and layers 2/3. The genes expressed in a subplate-specific manner at some point during development show a statistically significant enrichment for association with autism spectrum disorders and schizophrenia. Our report emphasizes the importance of the study of transient features of the developing brain to better understand neurodevelopmental disorders.RNAseq | microarray | Nxph4 | Tpd52l1 | interstitial white matter cells

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Differential distribution of neurons in the gyral white matter of the human cerebral cortex

Cited by 45 publications

References 114 publications

Individual Differences in Verbal Abilities Associated with Regional Blurring of the Left Gray and White Matter Boundary

Individual Differences in Verbal Abilities Associated with Regional Blurring of the Left Gray and White Matter Boundary

Development, evolution and pathology of neocortical subplate neurons

Expression profiling of mouse subplate reveals a dynamic gene network and disease association with autism and schizophrenia

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