First published online March 22, 2007
Development 134, 802e (2007)
© The Company of Biologists Limited
Asymmetric cell division: fateful FGF antagonism
Asymmetric cell division during embryogenesis contributes to cell diversity
by generating daughter cells that adopt distinct developmental fates. Little
is known about how many of these asymmetric divisions are regulated, but two
papers in this issue suggest that FGF signalling plus an ectoderm-derived
signal control asymmetric division and the specification of notochord/neural
precursors in ascidian embryos. In these embryos, two pairs of mother cells
give rise to neural and notochord precursors. Daughter cells in which ERK is
activated develop into notochord cells, whereas the others develop into neural
cells. But FGF and its receptor, which activate ERK, are widely distributed in
the mother cells and surrounding vegetal cells, so how is an asymmetric cue
generated? On p. 1491,
Picco and colleagues show that the segregation of notochord and neural fates
in Ciona embryos is an intrinsic property of the mother cells that is
acquired through their interaction with ectoderm precursors. This interaction
is mediated by the ephrin-Eph signalling system, which is better known for its
roles in axon guidance and cell adhesion. The inhibition of ephrin-Eph
signalling causes symmetric cell division and generates only notochord
precursors, the researchers report. The ephrin-Eph signal attenuates ERK
activation in the neural-fated daughter cell. Thus, a directional ephrin-Eph
signal from the ectoderm polarises the notochord/neural mother cell and
asymmetrically modulates ERK activation and fate specification in the daughter
cells. On p. 1509, Kim
and colleagues examine the specification of notochord/neural precursors and of
mesenchyme/muscle precursors in another ascidian, Halocynthia
roretzi. They find that a directional FGF signal alone determines the
asymmetric division of the muscle/mesenchyme mother cells, but that an FGF
antagonising signal from the neighbouring ectoderm controls the polarity of
the notochord/neural mother cells. This signal suppresses FGF signal
transduction in the neural-fated daughter cell and the expression of
FoxA, which encodes an essential transcription factor for notochord
formation. Together, these two papers provide strong evidence for a new
mechanism by which FGF signalling, in combination with an antagonising signal
from the ectoderm, controls asymmetric cell division and cell fate
specification during ascidian notochord/neural development.
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Related articles in Development:
- Ephrin-Eph signalling drives the asymmetric division of notochord/neural precursors in Ciona embryos
- Vincent Picco, Clare Hudson, and Hitoyoshi Yasuo
Development 2007 134: 1491-1497.
[Abstract]
[Full Text]
- Cell fate polarization in ascidian mesenchyme/muscle precursors by directed FGF signaling and role for an additional ectodermal FGF antagonizing signal in notochord/nerve cord precursors
- Gil Jung Kim, Gaku Kumano, and Hiroki Nishida
Development 2007 134: 1509-1518.
[Abstract]
[Full Text]
