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Mesenchymal-Epithelial Interactions in Neural Development

✍ Scribed by D. Schuppan, E. G. Hahn (auth.), Joachim R. Wolff, Jobst Sievers, Martin Berry (eds.)

Publisher
Springer-Verlag Berlin Heidelberg
Year
1987
Tongue
English
Leaves
423
Series
NATO ASI Series 5
Edition
1
Category
Library
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✦ Synopsis

This book is based on the NATO Advanced Research Workshop on "Mesenchymal-Epithelial Interactions in Neural Development" which was held in Berlin during March 1986. The idea that it may be the time for this workshop arose from a discussion among the organizers who met at a conference in Innsbruck. During the twenties, Spemann demonstrated that, in vertebrates, the formation of neuroepithelium depends on the induction by specific mesodermal derivatives. This was about the first time that mesenchymal-epithelial interactions had been recognized as an important mechanism in the development of an epithelial organ. Since then two things had become clear: 1) The identity and role of molecules, elaborated at mesenchymal-neuroepithelial interfaces had been partially elucidated in spinal cord and peripheral nerve ontogeny but, until recently, had been ignored in studies on the development of the brain. 2) In many-non-neural epithelia, the surrounding mesenchyme regulates such fundamental developmental steps as, for example, cell proliferation, morphogenesis and cell differentiaΒ­ tion, and there is no reason to exclude similar influences and interactions from brain development. It seemed to us that the importance and implications of many of these findings had not been appreciated by many developmental neurobiologists and that an attempt should be made to initiate discussions and exchange of ideas among different groups of scientists involved in extracellular matrix (ECM) research. This turned out to be a formidable task because of the great diversity of disciplines contributing findings to this active field.

✦ Table of Contents

Front Matter....Pages I-XIV
Front Matter....Pages 1-1
Components of the Extracellular Matrix (Collagens, Elastin, Glyco-Proteins and Proteoglycans)....Pages 3-29
Structure, Expression and Function of Mouse Laminin....Pages 31-43
Distribution of ECM Components in Early Embryos....Pages 45-52
Production and Formation of the Basal Lamina....Pages 53-64
Cell Surface Extracellular Matrix Glycoproteins Proteoglycans in Nervous Tissue....Pages 65-76
Hyaluronectin and Hyaluronic Acid During the Development of Rat Brain Cortex....Pages 77-87
Front Matter....Pages 89-89
Control of Epithelial Polarity and Induction in the Early Chick Embryo....Pages 91-100
Cell Interactions During Kidney Development....Pages 101-110
Cell-Matrix Interaction in the Differentiation of the Intestinal Epithelium....Pages 111-117
Connective Tissue and Ductular Metaplasia of Hepatocytes....Pages 119-125
Effects of an Inhibitor of Proteoglycan Biosynthesis on Neuron-Induced Schwann Cell Proliferation and Basal Lamina Formation By Schwann Cells....Pages 127-139
Mechanisms of Morphogenetic Specification in Skull Development....Pages 141-152
Influence of the Notochord on the Morphogenesis of the Neural Tube....Pages 153-162
Is There a Specific Interaction Between Donor Embryonic Entoderm (Chick or Quail) and Host Embryonic Mesoderm (Chick)?....Pages 163-170
Influences of Meningeal Cells on the Development of the Brain....Pages 171-188
Front Matter....Pages 189-189
Fibroblast Growth Factor: Molecular and Biological Properties....Pages 191-221
Hormonal Regulation of Epithelial Morphogenesis, Growth and Cytodifferentiation in Fetal and Adult Urogenital Tracts: Roles of Mesenchymal-Epithelial Interactions....Pages 223-236
Influence of Meningeal Cells on the Development of Neuronal Cells in Primary Culture....Pages 237-246
Influence of Meningeal Cells on Cell Proliferation in the Cerebellum....Pages 247-253
Role of Medium and Substratum on Proliferation of Astroglia in Vitro....Pages 255-264
Front Matter....Pages 265-265
Hyaluronate-Cell Interactions in Morphogenesis and Tumorigenesis....Pages 267-278
Secondary Neuroepithelial Stem Cells of the Cerebellum and the Dentate Gyrus are Attached to the Basal Lamina during their Migration and Proliferation....Pages 279-291
Migration of Neurons in Vivo....Pages 293-306
Front Matter....Pages 307-307
Mesenchymal-Epithelial Interactions during Neural Segmentation in the Chick Embryo....Pages 309-322
Chemotropic Influence of Specific Target Epithelium on the Growth of Embryonic Sensory Neurites....Pages 323-340
Substrates Influencing the Survival and Development of Neural Cells in Vitro....Pages 341-347
The Role of Growth Cone Adhesion in Neuronal Morphogenesis, as Demonstrated by Interactions with Fibronectin and Laminin....Pages 349-360
The Role of Basal Lamina in Axon Regeneration....Pages 361-383
Retinal Axons and the Basal Lamina....Pages 385-396
Front Matter....Pages 397-397
The Development of Intracerebral Blood Vessels Interacts With Astrocyte Development and Neuron Positioning in the Rat Neocortex....Pages 399-412
Postnatal Development of Ξ³-GT Activity in Rat Brain Microvessels. A Semiquantitative Histochemical Approach....Pages 413-414
Development and Differentiation of the Blood-Brain Barrier....Pages 415-421
Back Matter....Pages 423-429

✦ Subjects

Cell Biology; Neurosciences

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