Expression patterns of Piezo1 in the developing mouse forebrain

Authors
Kim, Hye YoonKang, Bok EumLee, Pa ReumKim, KyungminHong, Gyu-Sang
Issue Date
2024-04
Publisher
Springer Verlag
Citation
Brain Structure and Function, v.229, no.3, pp.759 - 773
Abstract
Malformation during cortical development can disrupt the balance of excitatory and inhibitory neural circuits, contributing to various psychiatric and developmental disorders. One of the critical factors of cortical neural networks is the fine regulation of neurogenesis through mechanical cues, such as shear stress and substrate stiffness. Piezo1, a mechanically-activated channel, serves as a transducer for these mechanical cues, regulating embryogenesis. However, specific cell-type expression patterns of this channel during cortical development have not yet been characterized. In the present study, we conducted an RNAscope experiment to visualize the location of Piezo1 transcripts with embryonic neuronal/glial lineage cell markers. Our analysis covered coronal sections of the mouse forebrain on embryonic day 12.5 (E12.5), E14.5, E16.5, and E18.5. In addition, applying Yoda1, a specific Piezo1 agonist, evoked distinct calcium elevation in piriform cortices of E16.5 and E18.5 embryonic slices. Furthermore, pharmacological activation or inhibition of this channel significantly modulated the migration of neurosphere-derived cells in vitro. These findings contribute valuable insights to the field of mechanobiology and provide an understanding of the intricate processes underlying embryonic brain development.
Keywords
ACTIVATED ION-CHANNEL; RADIAL GLIA; CELLS; NEURONS; COMPONENTS; MIGRATE; TBR2; Brain development; Embryogenesis; Neurogenesis; Migration; Piezo1; Mechanical cues
ISSN
1863-2653
URI
https://pubs.kist.re.kr/handle/201004/149336
DOI
10.1007/s00429-024-02759-7
Appears in Collections:
KIST Article > 2024
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