Extracellular Matrix Regulates Apoptosis in Mammary Epithelium through a Control on Insulin Signaling

Adherent epithelial cells require interactions with the extracellular matrix for their survival, though the mechanism is ill-defined. In long term cultures of primary mammary epithelial cells, a laminin-rich basement membrane (BM) but not collagen I suppresses apoptosis, indicating that adhesion sur...

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Bibliographic Details
Published in:The Journal of cell biology 1999-03, Vol.144 (6), p.1337-1347
Main Authors: Farrelly, Nadia, Lee, Yi-Ju, Oliver, Janine, Dive, Caroline, Streuli, Charles H.
Format: Article
Language:English
Subjects:
Animals
Antibodies
Antigens, CD - physiology
Apoptosis
Apoptosis - physiology
Basement Membrane - physiology
Cell culture techniques
Cell lines
Cell Survival - physiology
Cells
Cells, Cultured
Cellular biology
Cultured cells
Epithelial cells
Epithelial Cells - cytology
Epithelial Cells - physiology
Extracellular Matrix - physiology
Female
Insulin
Insulin - physiology
Integrin alpha6
Integrin beta1 - physiology
Integrins
Laminin - physiology
Mammary Glands, Animal - cytology
Mammary Glands, Animal - physiology
Mice
Phosphatidylinositol 3-Kinases - physiology
Proteins
Receptor Cross-Talk - physiology
Receptors
Regular
Signal Transduction - physiology
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Summary:Adherent epithelial cells require interactions with the extracellular matrix for their survival, though the mechanism is ill-defined. In long term cultures of primary mammary epithelial cells, a laminin-rich basement membrane (BM) but not collagen I suppresses apoptosis, indicating that adhesion survival signals are specific in their response. We now demonstrate that the signal from BM is mediated by integrins and requires both the α6 and β1 subunits. In addition, a hormonal signal from insulin or insulin-like growth factors, but not hydrocortisone or prolactin, is necessary to suppress mammary cell apoptosis, indicating that BM and soluble factors cooperate in survival signaling. Insulin induced autophosphorylation of its receptor whether mammary cells were cultured on collagen I or BM substrata. However, both the tyrosine phosphorylation of insulin receptor substrate-1 and its association with phosphatidylinositol 3-kinase were enhanced in cells cultured on BM, as was the phosphorylation of the phosphatidylinositol 3-kinase effector, protein kinase B. These results suggest a novel extracellular matrix-dependent restriction point in insulin signaling in mammary epithelial cells. The proximal signal transduction event of insulin receptor phosphorylation is not dependent on extracellular matrix, but the activation of downstream effectors requires adhesion to BM. Since phosphatidylinositol 3-kinase was required for mammary epithelial cell survival, we propose that a possible mechanism for BM-mediated suppression of apoptosis is through its facilitative effects on insulin signaling.
ISSN:0021-9525
1540-8140
DOI:10.1083/jcb.144.6.1337