Hyaluronan: a critical component of epithelial-mesenchymal and epithelial-carcinoma transitions.

Abstract	Hyaluronan plays a central role in the transition of epithelia to mesenchyme in the embryo and in the acquisition of transformed properties in carcinoma cells. In some cases, hyaluronan is both essential and sufficient for induction of epithelial-mesenchymal transitions (EMTs). Underlying its role are the effects of hyaluronan on receptor kinase activities, cell survival pathways, and multidrug transporters. A more complete understanding of the mechanisms whereby hyaluronan exerts its influences on cell behavior will enhance our understanding of normal and pathological EMTs and may lead to improved therapies for cancer patients.
Authors	Bryan P Toole, Alexandra Zoltan-Jones, Suniti Misra, Shibnath Ghatak
Journal	Cells, tissues, organs (Cells Tissues Organs) Vol. 179 Issue 1-2 Pg. 66-72 ( 2005) ISSN: 1422-6405 [Print] Switzerland
PMID	15942194 (Publication Type: Journal Article, Review)
Chemical References	CTNNB1 protein, human Cytoskeletal Proteins Polysaccharides RNA, Small Interfering Trans-Activators beta Catenin Hyaluronic Acid Receptor, ErbB-2
Topics	Animals Apoptosis Carcinoma (metabolism) Cell Adhesion Cell Transformation, Neoplastic Cytoskeletal Proteins (metabolism) Disease Progression Dogs Drug Resistance, Multiple Epithelial Cells (cytology) Epithelium (embryology) Humans Hyaluronic Acid (chemistry, metabolism, physiology) Models, Biological Neoplasm Invasiveness Polysaccharides (metabolism) RNA, Small Interfering (metabolism) Receptor, ErbB-2 (metabolism) Signal Transduction Trans-Activators (metabolism) Transfection beta Catenin

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