期刊
SEMINARS IN CELL & DEVELOPMENTAL BIOLOGY
卷 142, 期 -, 页码 81-90出版社
ACADEMIC PRESS LTD- ELSEVIER SCIENCE LTD
DOI: 10.1016/j.semcdb.2022.05.012
关键词
Neurodevelopment; Brain wiring; Transcriptional control; Temporal specificity; Hormones; Neuronal activity
Wiring an animal brain is a complex process that requires precise timing and coordination of genetic programs across different cell types. In this review, the temporal regulators of wiring programs and their control over time and space are discussed. These temporal regulators are induced by cell-extrinsic cues and control cell-type specific transcription factors, which determine the target specificity of wiring programs. Understanding these temporal regulators will be crucial for uncovering the mechanisms underlying brain wiring and developing in vitro models like brain organoids.
Wiring an animal brain is a complex process involving a staggering number of cell-types born at different times and locations in the developing brain. Incorporation of these cells into precise circuits with high fidelity is critical for animal survival and behavior. Assembly of neuronal circuits is heavily dependent upon proper timing of wiring programs, requiring neurons to express specific sets of genes (sometimes transiently) at the right time in development. While cell-type specificity of genetic programs regulating wiring has been studied in detail, mechanisms regulating proper timing and coordination of these programs across cell-types are only just beginning to emerge. In this review, we discuss some temporal regulators of wiring programs and how their activity is controlled over time and space. A common feature emerges from these temporal regulators - they are induced by cell-extrinsic cues and control transcription factors capable of regulating a highly cell-type specific set of target genes. Target specificity in these contexts comes from cell-type specific transcription factors. We propose that the spatiotemporal specificity of wiring programs is controlled by the combinatorial activity of temporal programs and cell-type specific transcription factors. Going forward, a better understanding of temporal regulators will be key to understanding the mechanisms underlying brain wiring, and will be critical for the development of in vitro models like brain organoids.
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