The Archaeology of Ancient Greece by James Whitley (review) (original) (raw)

The Par3 polarity protein is an exocyst receptor essential for mammary cell survival

The exocyst is an essential component of the secretory pathway required for delivery of basolateral proteins to the plasma membranes of epithelial cells. Delivery occurs adjacent to tight junctions (TJ), suggesting that it recognizes a receptor at this location. However, no such receptor has been identified. The Par3 polarity protein associates with TJs but has no known function in membrane traffic. We now show that, unexpectedly, Par3 is essential for mammary cell survival. Par3 silencing causes apoptosis, triggered by phosphoinositide trisphosphate depletion and decreased Akt phosphorylation, resulting from failure of the exocyst to deliver basolateral proteins to the cortex. A small region of PAR3 binds directly to Exo70 and is sufficient for exocyst docking, membrane-protein delivery and cell survival. PAR3 lacking this domain can associate with the cortex but cannot support exocyst function. We conclude that Par3 is the long-sought exocyst receptor required for targeted membrane-protein delivery.

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Requirement of basement membrane for the suppression of programmed cell death in mammary epithelium. J Cell Sci. 109(Pt 3):631-42 Cover Page

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Targeting of PKA in Mammary Epithelial Cells Cover Page

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Disruption of cell junctions induces apoptosis and reduces synthetic activity in lactating goat mammary gland Cover Page

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The Role of Tight Junctions in Mammary Gland Function Cover Page

Mammary gland secretion: hormonal coordination of endocytosis and exocytosis

Animal, 2009

The mammary epithelium coordinates the uptake of milk precursors and the transport of milk components in order to produce milk of relatively constant composition at a particular stage of lactation, as long as the mammary gland is healthy. The mammary epithelial cell controls the uptake of blood-borne molecules at its basal side and the release of products into milk at its apical side, through mechanisms of internalization (endocytosis) and mechanisms of release (exocytosis). These events are strictly dependent on the physiological stage of the mammary gland. This review addresses the mechanisms responsible for these processes and points out new questions that remain to be answered concerning possible interconnections between them, for an optimal milk secretion.

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Mammary gland secretion: hormonal coordination of endocytosis and exocytosis Cover Page

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Milking Biological Diversity For All It’s Worth—What Do Other Model Systems Teach Us About Mammary Gland Development and Function? Cover Page

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Impaired tight junction sealing and precocious involution in mammary glands of PKN1 transgenic mice Cover Page

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Phosphatidylinositol 3-Kinase is required for adherens junction-dependent mammary epithelial cell spheroid formation Cover Page

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Apoptosis and involution in the mammary gland are altered in mice lacking a novel receptor, β1,4-Galactosyltransferase I Cover Page