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The IgCAMs CAR, BT-IgSF, and CLMP: structure, function, and diseases

Item Type:Review
Title:The IgCAMs CAR, BT-IgSF, and CLMP: structure, function, and diseases
Creators Name:Schreiber, J., Langhorst, H., Jüttner, R. and Rathjen, F.G.
Abstract:The coxsackie-adenovirus receptor (CAR) is the prototype of a small subfamily of IgCAMs composed of CAR itself, CLMP, BT-IgSF, ESAM, CTX, and A33. These six proteins are composed of one V-set and one C2-set Ig domains and a single transmembrane helix followed by a cytoplasmic stretch. They are localized in several tissues and organs and--except for ESAM, CTX, and A33--are expressed in the developing brain. CAR becomes downregulated at early postnatal stages and is absent from the adult brain. CAR, CLMP, and BT-IgSF mediate homotypic aggregation. Interestingly, cell adhesion experiments, binding studies, and crystallographic investigations on the extracellular domain reveal a flexible ectodomain for CAR that mediates homophilic and heterophilic binding. CAR has been extensively investigated in the context of gene therapy and diseases, while research on BT-IgSF and CLMP is at an early stage. Several mouse models as well as studies on patient tissues revealed an essential role for CAR in (1) the development of cardiac, renal, lymphatic, and intestinal tissue; (2) muscle pathology, remodeling, and regeneration; (3) tumor genesis/suppression and metastatic progression; and (4) in virus-mediated infections and gene therapy. Although the in vivo function of CAR in the brain has not been solved its developmentally regulated expression pattern in the brain as well as its function as CAM suggests that CAR might be implicated in neuronal network formation.
Keywords:Cell Adhesion, Cell Adhesion Molecules, Coxsackie and Adenovirus Receptor-Like Membrane Protein, Immunoglobulins, Molecular Models, Animals, Mice
Source:Advances in Neurobiology
Series Name:Advances in Neurobiology
Title of Book:Cell Adhesion Molecules: Implications in Neurological Diseases
ISSN:2190-5215
ISBN:978-1-4614-8089-1
Publisher:Springer
Volume:8
Page Range:21-45
Number of Pages:0
Date:October 2014
Official Publication:https://doi.org/10.1007/978-1-4614-8090-7_2
PubMed:View item in PubMed

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