<i>In vitro</i> studies on the morphogenesis and differentiation of the mesoderm subjacent to the apical ectodermal ridge of the embryonic chick limb-bud

Kosher, Robert A.; Savage, Mary P.; Chan, Sai‐Chung

doi:10.1242/dev.50.1.75

Development

1979

DOI: 10.1242/dev.50.1.75

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In vitro studies on the morphogenesis and differentiation of the mesoderm subjacent to the apical ectodermal ridge of the embryonic chick limb-bud

Robert A. Kosher

Mary P. Savage

Sai‐Chung Chan

Abstract: It has been suggested that one of the major functions of the apical ectodermal ridge (AER) of the embryonic chick limb-bud is to maintain mesenchymal cells directly subjacent to it (i.e. cells extending 00·4–00·5 mm from the AER) in a labile, undifferentiated condition. We have attempted to directly test this hypothesis by subjecting the undifferentiated subridgemesoderm of stage-25 embryonic chick wing-buds to organ culture in the presence and absence of the AER and the ectoderm that normally surrounds the me… Show more

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1984

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Cited by 20 publications

References 33 publications

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The receptor function of galactosyltransferase during cellular interactions

Shur

1984

Mol Cell Biochem

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The molecular mechanisms that underly cellular interactions during development are still poorly understood. There is reason to believe that complex glycoconjugates participate in cellular interactions by binding to specific cell surface receptors. One class of carbohydrate binding proteins that could serve as receptors during cellular interactions are the glycosyltransferases. Glycosyltransferases have been detected on a variety of cell surfaces, and evidence suggests that they may participate during cellular interactions by binding their specific carbohydrate substrates on adjacent cells or in extracellular matrix (see Refs. 1-4 for review). This review will focus on the receptor function of galactosyltransferase, in particular, during fertilization, embryonic cell adhesion and migration, limb bud morphogenesis, immune recognition and growth control. In many of these systems, the galactosyltransferase substrate has been characterized as a novel, large molecular weight glycoconjugate composed of repeating N-acetyllactosamine residues. The function of surface galactosyltransferase during cellular interactions has been examined with genetic and biochemical probes, including the T/t-complex morphogenetic mutants, enzyme inhibitors, enzyme modifiers, and competitive substrates. Collectively, these studies suggest that in the mouse, surface galactosyltransferase is under the genetic control of the T/t-complex, and participates in multiple cellular interactions during development by binding to its specific lactosaminoglycan substrate.

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The receptor function of galactosyltransferase during cellular interactions

Shur

1984

Mol Cell Biochem

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Retinoic acid in limb-bud outgrowth: review and hypothesis

Paulsen

1994

Anat Embryol

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Limb outgrowth is arguably the most fundamental aspect of limb development. It begins with the emergence of buds from the embryo's lateral body wall. More rapid growth along each bud's proximodistal axis than along its anteroposterior or dorsoventral axes yields the limb's basic elongated shape. Many processes that generate refinements of this basic limb form are now being explored at the molecular level. Yet, there remain gaps in our understanding of basic limb outgrowth itself. This review examines the pivotal role of the apical ectodermal ridge in promoting and maintaining limb-bud outgrowth. It discusses the interplay between the apical ectodermal ridge and the subridge limb mesenchyme. It examines evidence that the pattern of limb anomalies in the offspring of mothers exposed to exogenous retinoids such as retinoic acid strongly suggests interference with apical ectodermal ridge function. It covers evidence that cellular retinoic acid-binding protein in the cytoplasm of the cells under the apical ectodermal ridge limits the effects of retinoic acid, a potent retinoid and teratogen, on retinoic acid-driven gene transcription. It explains that retinoic acid generally enhances differentiation in a variety of cell types. On the basis of the information presented, it is suggested that the limb ectoderm promotes cellular retinoic acid-binding protein expression in the subridge mesenchyme and thereby limits the access of retinoic acid to its nuclear receptors in these cells. Cellular-retinoic-acid-binding-protein-mediated, local sequestration or inactivation of free retinoic acid is suggested as a prerequisite not only for the continued responsiveness of the distal mesenchyme to growth promotion by the apical ectodermal ridge, but to the maintenance of the apical ectodermal ridge itself by the subridge mesenchyme.

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Formation of extra-digits induced by surgical removal of the apical ectodermal ridge of the chick embryo leg bud in the stages previous to the onset of interdigital cell death

Hurlé

Gañán

1987

Anat Embryol

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In the present work we have studied the mechanism of formation and the possible morphogenetic significance of the process of ectopic chondrogenesis induced by surgical removal of AER of the interdigital spaces of the chick leg bud at stage 28-30 (Hurle and Gañan 1986). Our results show that ridge removal causes condensation and rounding of the underlaying mesenchymal cells followed by chondrogensis. The long-term study of the fate of these ectopic cartilages shows that in a high percentage of the cases the cartilages undergo morphogenesis taking by day 10 of incubation the appearance of the two distal phalanges of an extra-digit. These extra-digits lack tendons and are joined by thin interdigital membranes to the neighboring digits.

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In vitro studies on the morphogenesis and differentiation of the mesoderm subjacent to the apical ectodermal ridge of the embryonic chick limb-bud

Cited by 20 publications

References 33 publications

The receptor function of galactosyltransferase during cellular interactions

The receptor function of galactosyltransferase during cellular interactions

Retinoic acid in limb-bud outgrowth: review and hypothesis

Formation of extra-digits induced by surgical removal of the apical ectodermal ridge of the chick embryo leg bud in the stages previous to the onset of interdigital cell death

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