Freret-Hodara, Betty Cui, Yi Griveau, Amélie Vigier, Lisa Arai, Yoko Touboul, Jonathan Alessandra Pierani
Published in
Cerebral Cortex
Loss of neurons in the neocortex is generally thought to result in a final reduction of cerebral volume. Yet, little is known on how the developing cerebral cortex copes with death of early-born neurons. Here, we tackled this issue by taking advantage of a transgenic mouse model in which, from early embryonic stages to mid-corticogenesis, abundant ...
Matthieu Boisgontier
Published in
Cerebral Cortex
Lopez-Rodriguez, Ana Belen Siopi, Eleni Finn, David P Catherine Marchand-Leroux Garcia-Segura, Luis M Jafarian-Tehrani, Mehrnaz Viveros, Maria-Paz
Published in
Cerebral Cortex
Traumatic brain injury (TBI) and its consequences represent one of the leading causes of death in young adults. This lesion mediates glial activation and the release of harmful molecules and causes brain edema, axonal injury, and functional impairment. Since glial activation plays a key role in the development of this damage, it seems that controll...
Trousse, Françoise Poluch, Sylvie Alessandra Pierani Dutriaux, Annie Bock, Hans H Nagasawa, Takashi Verdier, Jean-Michel Rossel, Mireille
Published in
Cerebral Cortex
Cajal–Retzius (CR) cells are essential for cortical development and lamination. These pioneer neurons arise from distinct progenitor sources, including the cortical hem and the ventral pallium at pallium–subpallium boundary (PSB). CXCR4, the canonical receptor for the chemokine CXCL12, controls the superficial location of hem-derived CR cells. Howe...
Borello, Ugo Madhavan, Mayur Vilinsky, Ilya Faedo, Andrea Alessandra Pierani Rubenstein, John Campbell, Kenneth
Published in
Cerebral Cortex
To gain new insights into the transcriptional regulation of cortical development, we examined the role of the transcription factor Sp8, which is downstream of Fgf8 signaling and known to promote rostral cortical development. We have used a binary transgenic system to express Sp8 throughout the mouse telencephalon in a temporally restricted manner. ...
I. A. M. Beets J. Gooijers M. P. Boisgontier L. Pauwels J. P. Coxon G. Wittenberg S. P. Swinnen Matthieu Boisgontier
Published in
Cerebral Cortex
Paus, Tomás Bernard, Manon Chakravarty, M Mallar Davey Smith, George Gillis, Jesse Lourdusamy, Anbarasu Melka, Melkaye G Leonard, Gabriel Pavlidis, Paul Perron, Michel
...
Published in
Cerebral Cortex
The most dramatic growth of the human brain occurs in utero and during the first 2 years of postnatal life. Genesis of the cerebral cortex involves cell proliferation, migration, and apoptosis, all of which may be influenced by prenatal environment. Here, we show that variation in KCTD8 (potassium channel tetramerization domain 8) is associated wit...
Cao, Fan Lee, Rebecca Shu, Hua Yang, Yanhui Xu, Guoqing Li, Kuncheng Booth, James R
Published in
Cerebral cortex (New York, N.Y. : 1991)
Developmental differences in phonological and orthographic processing in Chinese were examined in 9 year olds, 11 year olds, and adults using functional magnetic resonance imaging. Rhyming and spelling judgments were made to 2-character words presented sequentially in the visual modality. The spelling task showed greater activation than the rhyming...
Yoncheva, Yuliya N Zevin, Jason D Maurer, Urs McCandliss, Bruce D
Published in
Cerebral cortex (New York, N.Y. : 1991)
Selective attention to speech versus nonspeech signals in complex auditory input could produce top-down modulation of cortical regions previously linked to perception of spoken, and even visual, words. To isolate such top-down attentional effects, we contrasted 2 equally challenging active listening tasks, performed on the same complex auditory sti...
Graham, Steven Jiang, Jiaying Manning, Victoria Nejad, Ayna Baladi Zhisheng, Koh Salleh, Shan R Golay, Xavier Berne, Yeh Ing McKenna, Peter J
Published in
Cerebral cortex (New York, N.Y. : 1991)
This event-related functional magnetic resonance imaging study compared neural correlates of executive function (cognitive set-shifting) in 28 healthy participants with either high (HIQ) or average (AIQ) intelligence. Despite comparable behavioral performance (except for slower reactions), the AIQ participants showed greater (especially prefrontal)...