Abstract
Loss of cell-matrix adhesion is often associated with acute epithelial injury, suggesting that "anoikis" may be an important contributor to cell death. Resistance against anoikis is a key characteristic of transformed cells. When nontransformed epithelia are injured, activation of the epidermal growth factor (EGF) receptor (EGFR) by paracrine/autocrine release of soluble ligands can induce a prosurvival program, but there is generally evidence for concomitant dedifferentiation. The EGFR ligand, heparin-binding EGF-like growth factor (HB-EGF), is synthesized as a membrane-anchored precursor that can activate the EGFR via juxtacrine signaling or can be released and act as a soluble growth factor. In Madin-Darby canine kidney cells, expression of membrane-anchored HB-EGF increases cell-cell and cell-matrix adhesion. Therefore, these studies were designed to test the effects of juxtacrine HB-EGF signaling upon cell survival and epithelial integrity when cells are denied proper cell-matrix interactions. Cells expressing a noncleavable mutated form of membrane-anchored HB-EGF demonstrated increased survival from anoikis, formed larger cell aggregates, and maintained epithelial characteristics even following prolonged detachment from the substratum. Physical association between membrane-anchored HB-EGF and EGFR was observed. Signaling studies indicated synergistic effects of EGFR activation and phosphatidylinositol 3-kinase signaling to regulate apoptotic and survival pathways. In contrast, although administration of exogenous EGF partially suppressed anoikis in wild type cells, it also led to an increased expression of mesenchymal markers, suggesting dedifferentiation. Taken together, we propose a novel role for membrane-anchored HB-EGF in the cytoprotection of epithelial cells.
Highlights
Confluent epithelial cells can be maintained for extended periods of time in the absence of exogenous factors; at low cell density with no cell contact, epithelial cells undergo programmed cell death if exogenous growth factors are not provided [1]
The present studies utilized a model of anoikis, in which proper cell-matrix interaction was disrupted but cell-cell interactions were still possible in order to examine the potential role of membrane-anchored HB-epidermal growth factor (EGF) in maintenance of epithelial cell integrity
Resistance to apoptosis during the pathogenesis of cancer is the most studied phenomenon relating to anoikis, anoikis represents one of the principal mechanisms underlying cell death following epithelial injury, and augmentation of cellcell contact may serve as a mechanism of cytoprotection
Summary
Confluent epithelial cells can be maintained for extended periods of time in the absence of exogenous factors; at low cell density with no cell contact, epithelial cells undergo programmed cell death if exogenous growth factors are not provided [1]. Anoikis helps to maintain the correct cell number of high turnover epithelial tissues and is involved in a wide range of tissue-homeostatic, developmental, and oncogenic processes [2, 3] Both proper cell-cell and cell-matrix interactions are required for normal growth and differentiation of the epithelial cells. After either ischemic tubular injury or folic acid nephropathy, EGF receptor density increases [16, 17], and subcutaneous injection of EGF or transforming growth factor-␣ significantly accelerates [3H]thymidine incorporation and recovery of renal epithelial cell function [13]. It is noteworthy that expression of EGF decreases, expression of heparin-binding EGF-like growth factor (HB-EGF) increases in the kidney in vivo in response to acute renal tubular injury [16, 18, 19]. The present studies utilized a model of anoikis, in which proper cell-matrix interaction was disrupted but cell-cell interactions were still possible in order to examine the potential role of membrane-anchored HB-EGF in maintenance of epithelial cell integrity
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