Xavier H. Jaglin scite author profile

Polymicrogyria is a relatively common but poorly understood defect of cortical development characterized by numerous small gyri and a thick disorganized cortical plate lacking normal lamination. Here we report de novo mutations in a beta-tubulin gene, TUBB2B, in four individuals and a 27-gestational-week fetus with bilateral asymmetrical polymicrogyria. Neuropathological examination of the fetus revealed an absence of cortical lamination associated with the presence of ectopic neuronal cells in the white matter and in the leptomeningeal spaces due to breaches in the pial basement membrane. In utero RNAi-based inactivation demonstrates that TUBB2B is required for neuronal migration. We also show that two disease-associated mutations lead to impaired formation of tubulin heterodimers. These observations, together with previous data, show that disruption of microtubule-based processes underlies a large spectrum of neuronal migration disorders that includes not only lissencephaly and pachygyria, but also polymicrogyria malformations.

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Developmental diversification of cortical inhibitory interneurons

Mayer

Hafemeister

Bandler

et al. 2018

Nature

436

289

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Summary Diverse subsets of cortical interneurons play vital roles in higher-order brain functions. To investigate how this diversity is generated, we used single cell RNA-seq to profile the transcriptomes of murine cells collected along a developmental timecourse. Heterogeneity within mitotic progenitors in the ganglionic eminences is driven by a highly conserved maturation trajectory, alongside eminence-specific transcription factor expression that seeds the emergence of later diversity. Upon becoming postmitotic, progenitors diverge and differentiate into transcriptionally distinct states, including an interneuron precursor state. By integrating datasets across developmental timepoints, we identified shared sources of transcriptomic heterogeneity between adult interneurons and their precursors, revealing the embryonic emergence of interneuron cardinal subtypes. Our analysis revealed that the ASD-associated transcription factor Mef2c delineates early Pvalb-precursors, and is essential for their development. These findings shed new light on the molecular diversification of early inhibitory precursors, and identify gene modules that may influence the specification of human subtypes.

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Xavier H. Jaglin

Mutations in the β-tubulin gene TUBB2B result in asymmetrical polymicrogyria

Developmental diversification of cortical inhibitory interneurons

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