Paula Alexandre scite author profile

In the developing CNS, asymmetric cell division is critical for maintaining the balanced production of differentiating neurons while renewing the population of neural progenitors. In invertebrates, this process depends on asymmetric inheritance of fate determinants during progenitor divisions. A similar mechanism is widely believed to underlie asymmetrically fated divisions in vertebrates, but compelling evidence for this is missing. We used live imaging of individual progenitors in the intact zebrafish embryo CNS to test this hypothesis. We found that asymmetric inheritance of a subcellular domain is strongly correlated with asymmetric daughter fates and our results reveal an unexpected feature of this process. The daughter cell destined to become a neuron was derived from the more apical of the two daughters, whereas the more basal daughter inherited the basal process and replenished the apical progenitor pool.

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Spatial and cell type transcriptional landscape of human cerebellar development

Aldinger¹,

Thomson²,

et al. 2021

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The human neonatal cerebellum is a fourth of its adult size, yet contains the blueprint required to integrate environmental cues with developing motor, cognitive, and emotional skills into adulthood. Although mature cerebellar neuroanatomy is well studied, understanding its developmental origins is limited. Here, we systematically mapped the molecular, cellular, and spatial composition of human fetal cerebellum by combining laser capture microscopy and SPLiT-seq single-nucleus transcriptomics. We profiled functionally distinct regions and gene expression dynamics within cell types and across development. The resulting cell atlas demonstrates that the molecular organization of the cerebellar anlage recapitulates cytoarchitecturally distinct regions and developmentally transient cell types that are distinct from the mouse cerebellum. By mapping genes dominant for pediatric and adult neurological disorders onto our dataset, we identify relevant cell types underlying disease mechanisms. These data provide a resource for probing the cellular basis of human cerebellar development and disease.

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Spatiotemporal expansion of primary progenitor zones in the developing human cerebellum

Haldipur¹,

Aldinger²,

Bernardo

et al. 2019

Science

123

139

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We present histological and molecular analyses of the developing human cerebellum from 30 days after conception to 9 months after birth. Differences in developmental patterns between humans and mice include spatiotemporal expansion of both ventricular and rhombic lip primary progenitor zones to include subventricular zones containing basal progenitors. The human rhombic lip persists longer through cerebellar development than in the mouse and undergoes morphological changes to form a progenitor pool in the posterior lobule, which is not seen in other organisms, not even in the nonhuman primate the macaque. Disruptions in human rhombic lip development are associated with posterior cerebellar vermis hypoplasia and Dandy-Walker malformation. The presence of these species-specific neural progenitor populations refines our insight into human cerebellar developmental disorders.

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Paula Alexandre

Neurons derive from the more apical daughter in asymmetric divisions in the zebrafish neural tube

Spatial and cell type transcriptional landscape of human cerebellar development

Spatiotemporal expansion of primary progenitor zones in the developing human cerebellum

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