Pleuroparenchymal fibroelastosis and non‐specific interstitial pneumonia: frequent pulmonary sequelae of haematopoietic stem cell transplantation

Overall, this study provides biological evidence that the SZ-risk gene DGCR2 regulates critical steps of early corticogenesis possibly through a Reelin-dependent mechanism. Additionally, we found that the SZ-risk mutation in DGCR2 has a pathogenic impact on cortical formation by reducing protein expression level, suggesting a functional role for DGCR2 haploinsufficiency in the 22q11.2 deletion syndrome.

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MCF2 is linked to a complex perisylvian syndrome and affects cortical lamination

Molinard-Chenu

Fluss

Laurent

et al. 2019

Ann Clin Transl Neurol

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The combination of congenital bilateral perisylvian syndrome (CBPS) with lower motor neuron dysfunction remains unusual and suggests a potential common genetic insult affecting basic neurodevelopmental processes. Here we identify a putatively pathogenic missense mutation in the MCF2 gene in a boy with CBPS. Using in utero electroporation to genetically manipulate cortical neurons during corticogenesis, we demonstrate that the mouse Mcf2 gene controls the embryonic migration of cortical projection neurons. Strikingly, we find that the CBPS‐associated MCF2 mutation impairs cortical laminar positioning, supporting the hypothesis that alterations in the process of embryonic neuronal migration can lead to rare cases of CBPS.

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Downregulation of the schizophrenia risk‐gene Dgcr2 alters early microcircuit development in the mouse medial prefrontal cortex

Molinard-Chenu

Godel

Rey

et al. 2022

Intl J of Devlp Neuroscience

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Alterations in the generation, migration and integration of different subtypes of neurons in the medial prefrontal cortex (mPFC) microcircuit could play an important role in vulnerability to schizophrenia. Using in vivo cell-type specific manipulation of pyramidal neurons (PNs) progenitors, we aim to investigate the role of the schizophrenia risk-gene DiGeorge Critical Region 2 (Dgcr2) on cortical circuit formation in the mPFC of developing mice. This report describes how Dgcr2 knock down in upper-layer PNs impacts the functional maturation of PNs and interneurons (INs) in the mPFC. First, we demonstrate that Dgcr2 knock-down disrupts laminar positioning, dendritic morphology and excitatory activity of upper-layer PNs. Interestingly, inhibitory activity is also modified in Dgcr2 knock-down PNs, suggesting a broader microcircuit alteration involving interneurons. Further analyses show that the histological maturation of parvalbumin (PV) INs is not dramatically impaired, thus implying that other INs subtypes might be at play in the reported microcircuit alteration. Overall, this study unravels how local functional

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MCF2 is linked to a complex perisylvian syndrome and affects cortical lamination

Molinard-Chenu

Fluss

Guipponi

et al. 2019

Preprint

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The role of DiGeorge Critical Region 2 in cortical circuit formation

Molinard-Chenu¹

2016

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Aude Molinard-Chenu

The Candidate Schizophrenia Risk Gene DGCR2 Regulates Early Steps of Corticogenesis

MCF2 is linked to a complex perisylvian syndrome and affects cortical lamination

Downregulation of the schizophrenia risk‐gene Dgcr2 alters early microcircuit development in the mouse medial prefrontal cortex

MCF2 is linked to a complex perisylvian syndrome and affects cortical lamination

The role of DiGeorge Critical Region 2 in cortical circuit formation

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