Intracellular trafficking of Notch orchestrates temporal dynamics of Notch activity in the fly brain

While Delta non-autonomously activates Notch in neighboring cells, it autonomously inactivates Notch through cis -inhibition, the molecular mechanism and biological roles of which remain elusive. The wave of differentiation in the Drosophila brain, the ‘proneural wave’, is an excellent model for stu...

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Bibliographic Details
Published in:Nature communications 2021-04, Vol.12 (1), p.2083-2083, Article 2083
Main Authors: Wang, Miaoxing, Han, Xujun, Liu, Chuyan, Takayama, Rie, Yasugi, Tetsuo, Ei, Shin-Ichiro, Nagayama, Masaharu, Tanaka, Yoshitaro, Sato, Makoto
Format: Article
Language:English
Subjects:
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Animals
Brain
Brain - metabolism
Cell Differentiation
Drosophila
Drosophila melanogaster
Drosophila Proteins - metabolism
Endosomes
Endosomes - metabolism
Fruit flies
Gene Expression Regulation, Developmental
Gene Knockdown Techniques
Humanities and Social Sciences
Insects
Intracellular
Intracellular Signaling Peptides and Proteins - metabolism
multidisciplinary
Neuroblasts
Neurogenesis
Nonlinear systems
Protein Transport - genetics
Protein Transport - physiology
rab GTP-Binding Proteins - genetics
rab4 GTP-Binding Proteins - genetics
Receptors, Notch - metabolism
Science
Science (multidisciplinary)
Signal Transduction
Transcription Factors
Wave fronts
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Summary:While Delta non-autonomously activates Notch in neighboring cells, it autonomously inactivates Notch through cis -inhibition, the molecular mechanism and biological roles of which remain elusive. The wave of differentiation in the Drosophila brain, the ‘proneural wave’, is an excellent model for studying Notch signaling in vivo. Here, we show that strong nonlinearity in cis -inhibition reproduces the second peak of Notch activity behind the proneural wave in silico. Based on this, we demonstrate that Delta expression induces a quick degradation of Notch in late endosomes and the formation of the twin peaks of Notch activity in vivo. Indeed, the amount of Notch is upregulated and the twin peaks are fused forming a single peak when the function of Delta or late endosomes is compromised. Additionally, we show that the second Notch peak behind the wavefront controls neurogenesis. Thus, intracellular trafficking of Notch orchestrates the temporal dynamics of Notch activity and the temporal patterning of neurogenesis. During Drosophila development, two peaks of Notch activity propagate across the neuroepithelium to generate neuroblasts. Here, the authors show Notch cis -inhibition under the control of intracellular Notch trafficking establishes these two peaks, which temporally control neurogenesis in the brain.
ISSN:2041-1723
2041-1723
DOI:10.1038/s41467-021-22442-3