Catherine Ziller scite author profile

Genetic data in the mouse have shown that endothelin 3 (ET3) and its receptor B (ETRB) are essential for the development of two neural crest (NC) derivatives, the melanocytes and the enteric nervous system. We report here the effects of ET3 in vitro on the differentiation of quail trunk NC cells (NCC) in mass and clonal cultures. Treatment with ET3 is highly mitogenic to the undifferentiated NCC population, which leads to expansion of the population of cells in the melanocytic, and to a lesser extent, the glial lineages. The effect of ET3 on these two NC derivatives was confirmed by the quantitative analysis of clones derived from individual NCC subjected to ET3: we found a large increase in the survival and proliferation of unipotent and bipotent precursors for glial cells and melanocytes, with no significant effect on multipotent cells generating neurons. ET3 first stimulates expression of both ETRB and ETRB2 by cultured NCC. Then, under prolonged exposure to ET3, ETRB expression decreases and switches toward an ETRB2-positive melanogenic cell population. We therefore propose that the present in vitro experiments (long-lasting exposure to a high concentration of ET3) mimic the environment encountered by NCC in vivo when they migrate to the skin under the ectoderm that expresses ET3.The neural crest (NC) appears dorsally to the neural primordium as it forms according to a craniocaudal gradient. The presumptive NC cells (NCC) undergo an epithelio-mesenchymal transition and, after a phase of migration, give rise to multiple cell types including melanocytes, neurons, and glial cells of peripheral nerves and ganglia, a large majority of the cephalic mesenchymal structures, and certain endocrine cells (1, 2). Because of its pluripotentiality and the fact that its constitutive cells become localized in various regions of the developing embryo, the NC is an ideal developmental system in which to study the mode of action of factors involved in differentiation choices.The importance of environmental influences on the development of NCC has been demonstrated by in vivo transplantation experiments in the chicken embryo and in vitro culture studies (1-6). At the onset of migration, the NCC population is composed of a mixture of pluripotent and more or less restricted progenitors that have been identified by various cell cloning experiments (7-14). These observations suggest that both selective and instructive mechanisms are involved in NCC diversification. Thus far, differentiation of definite lineages of NC-derived cells in clonal cultures has proved to be favored by factors such as brain-derived neurotrophic factor (15), glial growth factor (16), retinoic acid (17), and members of the transforming growth factor ␤ family (18). Other growth factors (and their receptors) encoded by loci that affect NC derivatives in mice have been shown to have an important role in NC ontogeny but their mode of action is not yet fully understood. Such is the case for the receptor-ligand system constituted by endothelin receptor B (E...

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Endothelin 3 promotes neural crest cell proliferation and mediates a vast increase in melanocyte number in culture.

Lahav¹,

Ziller²,

Dupin³

et al. 1996

Proc. Natl. Acad. Sci. U.S.A.

188

134

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Patterning of Neural Crest Derivatives in the Avian Embryo: in Vivo and in Vitro Studies

Douarin

Ziller

Couly

1993

Developmental Biology

226

124

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Early segregation of a neuronal precursor cell line in the neural crest as revealed by culture in a chemically defined medium

Ziller

Dupin

Brazeau

et al. 1983

Cell

196

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