Project description:Inhibitory neurons of the telencephalon are generated from progenitors in the ganglionic eminences that mature and differentiate into specialized cell types. Here, we used scRNA-seq and scATAC-seq together with lineage tracing and birthdating techniques to investigate the influence of neurogenesis timing on the development of GABAergic precursors. We found that the timing of neurogenesis substantially influences the progenitors' maturation competence (the capacity to develop toward a fully functional state), but not their differentiation competence (the ability to evolve into transcriptomically diverse states). The underlying mechanism was chromatin priming, orchestrated by the transcription factor Nfib in collaboration with regulators of inhibitory neuron development. Finally, the heterochronic transplantation of progenitors revealed an interplay between both intrinsic and extrinsic cues acting upon maturation competence. These findings identify a mechanism that coordinates inhibitory neuron development by changing their maturation to achieve maximum adaptability.

Project description:Inhibitory neurons of the telencephalon are generated from progenitors in the ganglionic eminences that mature and differentiate into specialized cell types. Here, we used scRNA-seq and scATAC-seq together with lineage tracing and birthdating techniques to investigate the influence of neurogenesis timing on the development of GABAergic precursors. We found that the timing of neurogenesis substantially influences the progenitors' maturation competence (the capacity to develop toward a fully functional state), but not their differentiation competence (the ability to evolve into transcriptomically diverse states). The underlying mechanism was chromatin priming, orchestrated by the transcription factor Nfib in collaboration with regulators of inhibitory neuron development. Finally, the heterochronic transplantation of progenitors revealed an interplay between both intrinsic and extrinsic cues acting upon maturation competence. These findings identify a mechanism that coordinates inhibitory neuron development by changing their maturation to achieve maximum adaptability.

Project description:Diverse types of GABAergic projection neurons and interneurons of the telencephalon derive from progenitors in a ventral germinal zone, called the ganglionic eminence. Using single-cell transcriptomics, chromatin accessibility profiling, lineage tracing, birthdating, heterochronic transplantation, and perturbation sequencing in mouse embryos, we investigated how progenitor competence influences the maturation and differentiation of these neurons. We found that the progression of neurogenesis over developmental time shapes maturation competence in ganglionic eminence progenitors, influencing how they progress into mature states. In contrast, differentiation competence, which defines the ability to produce diverse transcriptomic identities, remains largely unaffected by the stages of neurogenesis. Chromatin remodeling alongside a NFIB-driven regulatory gene module influences maturation competence in late-born neurons. These findings provide key insights into how transcriptional programs and chromatin accessibility govern neuronal maturation and the diversification of GABAergic neuron subtypes during neurodevelopment.

Project description:Single-cell RNA-seq to profile a developmental time course of interneuron development, measuring the transcriptomes of progenitors during their maturation in the ganglionic eminences.

Project description:Single-cell RNA-seq to profile a developmental time course of interneuron development, measuring the transcriptomes of progenitors during their maturation in the ganglionic eminences.

Project description:We applied massively parallel single-cell RNA-seq to profile a developmental time course of interneuron development, measuring the transcriptomes of over 60,000 progenitors during their maturation in the ganglionic eminences and embryonic migration into the cortex.

Project description:Temporal control of progenitor competence shapes maturation in GABAergic neuron development in mice

Project description:Temporal control of progenitor competence shapes maturation in GABAergic neuron development in mice

Project description:Temporal control of progenitor competence shapes maturation in GABAergic neuron development in mice

Project description:Temporal control of progenitor competence shapes maturation in GABAergic neuron development in mice