Cell Interactions In Differentiation
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Cell Interactions in Differentiation
Author: Marketta Karkinen-Jaaskelainen
language: en
Publisher: Elsevier
Release Date: 2012-12-02
Cell Interactions in Differentiation is a collection of papers presented at the Sixth Sigrid Jusélius Foundation Symposium held in Helsinki, Finland, in August 1976. Contributors discuss cell interactions during differentiation, particularly referring to the problem of embryonic induction. They also consider how a cell becomes adjusted to the synchronized development of an entire multicellular organism, so as to express its genetic information at a strictly controlled time and place. This volume is organized into five sections encompassing 30 chapters and begins with an overview of embryonic cells and their two fundamental properties. Cells are not necessarily predetermined and can be experimentally diverted from their normal developmental pathway, and those within an embryonic organism require extrinsic messages to express their developmental capacities. The next chapters focus on early determinative events in embryogenesis, touching on topics such as the genetic aspects of cell type determination, interactions between embryonic cells during the early development of the mouse, and the differentiation of teratocarcinoma stem cells in vitro. The reader is then introduced to positional information and morphogenetic signals; the biological ""specificity"" of morphogenetic tissue interactions; and the molecular mechanisms underlying cell contact interactions. The remaining chapters explore some of the most important conceptual and methodological approaches to the problems of cell-cell recognition and the integration of cells into multicellular systems. This book will be of interest to scientists and investigators in developmental biology and related fields.
Effects of cell interactions at the endothelium in leukocyte differentiation and polarization during inflammation
A complex exchange of signals between endothelial cells and tissues occurs during steady-state and in inflammatory conditions. These interactions involve numerous cell types including an active contribution from endothelial cells and occur on both sides of the endothelial monolayer. In addition to functioning as selective permeability barriers, it is increasingly recognized that local cell attraction to endothelial cells provides the potential for focal interactions between relevant cells. In this context, cellular interactions taking place at the surface of the endothelium and within the perivascular spaces are thought to initiate crucial steps in the generation and shaping of immune responses. Blood elements (such as leukocytes, platelets, and vesicles) converge to the barrier formed by the endothelium where perivascular (such as macrophages, pericytes) initiate, convey, and/or amplify signals revealing tissue status. The innate and adaptative functions of endothelial cells themselves together with the immune functions of assembled cells at a focal point in capillaries create the potential for exchange of signals and dynamic fine tuning of responses through cell programming and cell selection. The resulting immune response may range from inadequate immunity and/or exhaustion to excess tissue destruction and fibrosis. Productive inflammation and its resolution are critically reliant on which cells are recruited and in which order, their state of activation, and interactions between recruited cells. Tissue-dependent signals further shape the recruitment of leukocytes to the endothelium. In the kidney for instance, in the presence of immune complexes, perivascular resident macrophages located in subendothelial spaces coupled with endothelial cells induce monocyte and neutrophil tissue infiltration, operating therefore as an anatomical and functional unit. The goals of this Research Topic are (i) to analyze how signal integration and partnering of cell types in transendothelial migration contribute to the development of tissue inflammation and how responses are geared towards specific profiles of reactions to injury; (ii) how the interplay between cell types including, but not limited to, endothelial cells, monocytes, resident macrophages, and T and B cells dynamically governs the immune responses that take place in the tissue; (iii) in which way do integrative capacities of endothelial and subendothelial cells shape and coordinate the successive recruitment of leukocyte populations.
Cellular Interactions
Author: H. F. Linskens
language: en
Publisher: Springer Science & Business Media
Release Date: 2012-12-06
H. F. LINSKENS and J. HESLOP-HARRISON The chapters of this volume deal with intercellular interaction phenomena in plants. Collectively they provide a broad conspectus of a highly active, if greatly fragmented, research field. Certain limitations have been imposed on the subject matter, the most impor tant being the exclusion of long-range interactions within the plant body. It is true that pervasive hormonal control systems cannot readily be demarcated from controls mediated by pheromones or information-carrying molecules with more limited spheres of action, but consideration is given in this volume to the main classes of plant hormones and their functions only incidentally, since these are treated adequately in other volumes of this Encyclopedia series (V - ume 9-11) and in numerous other texts and reviews. Similarly, certain other effects, such as those associated with nutrients and ions, are not considered in any detail. Furthermore, we have excluded intracellular interactions, and also consideration of transport phenomena, which are treated in detail in Vol ume 3 of this Series. Other aspects of inter-cellular interaction, such as cell surface phenomena and implications of lectin-carbohydrate interactions, and plant-virus inter-relationships, are treated in other sections of this Encyclopedia (Volumes 13B and 14B, respectively). In the volume on physiological plant pathology (Volume 4 of this series) special attention has been given to host pathogen interaction. These aspects of our subject will therefore be excluded in the present treatise.