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Physiological electric fields induce directional migration of mammalian cranial neural crest cells.

Developmental biology (2020-12-20)
Abijeet Singh Mehta, Pin Ha, Kan Zhu, ShiYu Li, Kang Ting, Chia Soo, Xinli Zhang, Min Zhao
RÉSUMÉ

During neurulation, cranial neural crest cells (CNCCs) migrate long distances from the neural tube to their terminal site of differentiation. The pathway traveled by the CNCCs defines the blueprint for craniofacial construction, abnormalities of which contribute to three-quarters of human birth defects. Biophysical cues like naturally occurring electric fields (EFs) have been proposed to be one of the guiding mechanisms for CNCC migration from the neural tube to identified position in the branchial arches. Such endogenous EFs can be mimicked by applied EFs of physiological strength that has been reported to guide the migration of amphibian and avian neural crest cells (NCCs), namely galvanotaxis or electrotaxis. However, the behavior of mammalian NCCs in external EFs has not been reported. We show here that mammalian CNCCs migrate towards the anode in direct current (dc) EFs. Reversal of the field polarity reverses the directedness. The response threshold was below 30 ​mV/mm and the migration directedness and displacement speed increased with increase in field strength. Both CNCC line (O9-1) and primary mouse CNCCs show similar galvanotaxis behavior. Our results demonstrate for the first time that the mammalian CNCCs respond to physiological EFs by robust directional migration towards the anode in a voltage-dependent manner.

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Description du produit

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Leukocyte Alkaline Phosphatase Kit, based on naphthol AS-BI and fast red violet LB
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COMPLETE ES CELL MEDIUM W/ 15% FBS AND LIF, Ready to use medium formulated with 15% fetal bovine serum (FBS) and mouse leukemia inhibitory factor (LIF). Each lot is qualified for mouse embryonic stem (ES) cell culture.
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Lignée cellulaire de crête neurale de crâne de souris O9-1, stably expresses stem cell markers and neural crest markers