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Título
TGF-β3-Induced Chondroitin Sulphate Proteoglycan
Mediates Palatal Shelf Adhesion
Autor
Año del Documento
2002
Editorial
Elsevier
Descripción
Producción Científica
Documento Fuente
Developmental Biology, 2002, vol.250. p.393-405
Abstract
TGF- 3-Induced Chondroitin Sulphate Proteoglycan
Mediates Palatal Shelf Adhesion
A. Gato,* M. L. Martinez,† C. Tudela,† I. Alonso,* J. A. Moro,*
M. A. Formoso,† M. W. J. Ferguson,‡ and C. Martı´nez-A´ lvarez†,1
*Departamento de Anatomı´a Humana, Facultad de Medicina, Universidad de Valladolid,
Valladolid 47005 Spain; †Departamento de Ciencias Morfolo´ gicas I, Facultad de Medicina,
Universidad Complutense de Madrid, Madrid 28040, Spain; and ‡Cells, Immunology and
Development Division, School of Biological Sciences,
University of Manchester, United Kingdom
In mammals, the adhesion and fusion of the palatal shelves are essential mechanisms in the development of the secondary
palate. Failure of any of these processes leads to the formation of cleft palate. The mechanisms underlying palatal shelf
adhesion are poorly understood, although the presence of filopodia on the apical surfaces of the superficial medial edge
epithelial (MEE) cells seems to play an important role in the adhesion of the opposing MEE. We demonstrate here the
appearance of chondroitin sulphate proteoglycan (CSPG) on the apical surface of MEE cells only immediately prior to
contact between the palatal shelves. This apical CSPG has a functional role in palatal shelf adhesion, as either the alteration
of CSPG synthesis by -D-Xyloside or its specific digestion by chondroitinase AC strikingly alters the in vitro adhesion of
palatal shelves. We also demonstrate the absence of this apical CSPG in the clefted palates of transforming growth factor
beta 3 (TGF- 3) null mutant mice, and its induction, together with palatal shelf adhesion, when TGF- 3 is added to TGF- 3
null mutant palatal shelves in culture. When chick palatal shelves (that do not adhere in vivo nor express TGF- 3, nor CSPG
in the MEE) are cultured in vitro, they do not express CSPG and partially adhere, but when TGF- 3 is added to the media,
they express CSPG and their adhesion increases strikingly. We therefore conclude that the expression of CSPG on the apical
surface of MEE cells is a key factor in palatal shelf adhesion and that this expression is regulated by TGF- 3. © 2002
Materias (normalizadas)
Neurología
Embriología
ISSN
0012-1606/02
Revisión por pares
SI
Idioma
eng
Derechos
openAccess
Collections
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