A single cell transcriptomic analysis of human neocortical development
Citations Over Time
Abstract
Abstract Defining the number, proportion, or lineage of distinct cell types in the developing human brain is an important goal of modern brain research. We defined single cell transcriptomic profiles for 40,000 cells at mid-gestation to identify cell types in the developing human neocortex. We define expression profiles corresponding to all known major cell types at this developmental period and identify multiple transcription factors and co-factors expressed in specific cell types, providing an unprecedented resource for understanding human neocortical development including the first single-cell characterization of human subplate neurons. We characterize major developmental trajectories during early neurogenesis, showing that cell type differentiation occurs on a continuum that involves transitions that tie cell cycle progression with early cell fate decisions. We use these data to deconvolute regulatory networks and map neuropsychiatric disease genes to specific cell types, implicating dysregulation of specific cell types, as the mechanistic underpinnings of several neurodevelopmental disorders. Together these results provide an extensive catalog of cell types in human neocortex and extend our understanding of early cortical development, human brain evolution and the cellular basis of neuropsychiatric disease. One Sentence Summary Comprehensive single cell transcriptomes in developing human cortex inform models of cell diversity, differentiation and disease risk.
Related Papers
- → Cajal–Retzius cells and the development of the neocortex(1998)438 cited
- → The functions of the preplate in development and evolution of the neocortex and hippocampus(1998)216 cited
- → Monodelphis domestica (grey short-tailed opossum): an accessible model for studies of early neocortical development(1989)159 cited
- → Three-dimensional reconstruction of the basket cell of the human motor cortex(1974)37 cited
- → Reptilian cortex and mammalian neocortex early developmental homologies(2003)