Building a better Placode: Modeling Neural Plate Border interactions with hPSCs

Blair, Joel

05 October 2021

No description available.

Biology

placode

neural crest

hPSCs

differentiation

neural plate border

Induction of the isthmic organizer and specification of the neural plate border

Patthey, Cédric

January 2008

The vertebrate nervous system is extremely complex and contains a wide diversity of cell types. The formation of a functional nervous system requires the differential specification of progenitor cells at the right time and place. The generation of many different types of neurons along the rostro-caudal axis of the CNS begins with the initial specification of a few progenitor domains. This initial coarse pattern is refined by so-called secondary organizers arising at boundaries between these domains. The Isthmic Organizer (IsO) is a secondary organizer located at the boundary between the midbrain and the hindbrain. Although the function and maintenance of the IsO are well understood, the processes underlying its initial specification have remained elusive. In the present work we provide evidence that convergent Wnt and FGF signals initiate the specification of the IsO during late gastrulation as part of the neural caudalization process. The initial step in the generation of the nervous system is the division of the embryonic ectoderm into three cell populations: neural cells giving rise to the CNS, neural plate border cells giving rise to the peripheral nervous system, and epidermal cells giving rise to the outer layer of the skin. While the choice between neural and epidermal fate has been well studied, the mechanism by which neural plate border cells are generated is less well understood. At rostral levels of the neuraxis, the neural plate border gives rise to the olfactory and lens placodes, thickenings of the surface ectoderm from which sensory organs are derived. More caudally, the neural plate border generates neural crest cells, a transient population that migrates extensively and contributes to neurons and glia of the peripheral nervous system. How the early patterning of the central and peripheral nervous systems are coordinated has remained poorly understood. Here we show that the generation of neural plate border cells is initiated at the late blastula stage and involves two phases. During the first phase, neural plate border cells are exposed to Wnt signals in the absence of BMP signals. Simultaneous exposure to Wnt and BMP signals at this early stage leads to epidermal induction. Wnt signals induce expression of Bmp4, thereby regulating the sequential exposure of cells to Wnt and BMP signals. During the second phase, at the late gastrula stage, BMP signals play an instructive role to specify neural plate border cells of either placodal or neural crest character depending on the status of Wnt signaling. At this stage, Wnt signals promote caudal character simultaneously in the neural plate border and in the neural ectoderm. Thus, the choice between epidermal and neural plate border specification is mediated by an interplay of Wnt and BMP signals that represents a novel mechanism involving temporal control of BMP activity by Wnt signals. Moreover, the early development of the central and peripheral nervous systems are coordinated by simultaneous caudalization by Wnt signals.

neural plate border

neural crest

placodes

Isthmic organizer

Wnt

BMP

FGF

Cell and molecular biology

Cell- och molekylärbiologi

The gene regulatory network in the anterior neural plate border of ascidian embryos / ホヤ胚の前方神経板境界における遺伝子調節ネットワーク

Liu, Boqi

23 March 2020

京都大学 / 0048 / 新制・課程博士 / 博士(理学) / 甲第22283号 / 理博第4597号 / 新制||理||1659(附属図書館) / 京都大学大学院理学研究科生物科学専攻 / (主査)准教授 佐藤 ゆたか, 教授 高橋 淑子, 准教授 秋山 秋梅 / 学位規則第4条第1項該当 / Doctor of Science / Kyoto University / DGAM

placode

MAPK signaling pathway

BMP signaling pathway

Foxg

ascidians

neural plate border

400

Positional cloning and functional analysis of the <i>SF3B1</i>gene in zebrafish

An, Min

06 June 2007

No description available.

Biology, Neuroscience

Neural plate border,

Lateral plate mesoderm,

Early embryogenesis

Positional cloning

Zebrafish