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9 results on '"Dunn, Kenneth"'

1. Neonatal Fc receptor mediates internalization of Fc in transfected human endothelial cells.

Author

Goebl NA, Babbey CM, Datta-Mannan A, Witcher DR, Wroblewski VJ, and Dunn KW

Subjects
Animals, Cell Line, Dextrans metabolism, Endosomes metabolism, Endothelial Cells cytology, Histocompatibility Antigens Class I genetics, Humans, Hydrogen-Ion Concentration, Immunoglobulin Fc Fragments genetics, Immunoglobulin G metabolism, Lysosomes metabolism, Mice, Receptors, Fc genetics, Recombinant Fusion Proteins genetics, Recombinant Fusion Proteins metabolism, Transferrin metabolism, Endocytosis physiology, Endothelial Cells metabolism, Histocompatibility Antigens Class I metabolism, Immunoglobulin Fc Fragments metabolism, Receptors, Fc metabolism
Abstract

The neonatal Fc receptor, FcRn mediates an endocytic salvage pathway that prevents degradation of IgG, thus contributing to the homeostasis of circulating IgG. Based on the low affinity of IgG for FcRn at neutral pH, internalization of IgG by endothelial cells is generally believed to occur via fluid-phase endocytosis. To investigate the role of FcRn in IgG internalization, we used quantitative confocal microscopy to characterize internalization of fluorescent Fc molecules by HULEC-5A lung microvascular endothelia transfected with GFP fusion proteins of human or mouse FcRn. In these studies, cells transfected with FcRn accumulated significantly more intracellular Fc than untransfected cells. Internalization of FcRn-binding forms of Fc was proportional to FcRn expression level, was enriched relative to dextran internalization in proportion to FcRn expression level, and was blocked by incubation with excess unlabeled Fc. Because we were unable to detect either surface expression of FcRn or surface binding of Fc, these results suggest that FcRn-dependent internalization of Fc may occur through sequestration of Fc by FcRn in early endosomes. These studies indicate that FcRn-dependent internalization of IgG may be important not only in cells taking up IgG from an extracellular acidic space, but also in endothelial cells participating in homeostatic regulation of circulating IgG levels.

Published
2008
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7. RhoB-Dependent Modulation of Postendocytic Traffic in Polarized Madin-Darby Canine Kidney Cells.

Author

Rondanino, Christine, Rojas, Raul, Ruiz, Wily G., Wang, Exing, Hughey, Rebecca P., Dunn, Kenneth W., and Apodaca, Gerard

Subjects
CYTOLOGICAL research, ORGANELLE formation, ENDOSOMES, GREEN fluorescent protein, CONFOCAL microscopy, GOLGI apparatus
Abstract

The Rho family of GTPases is implicated in the control of endocytic and biosynthetic traffic of many cell types; however, the cellular distribution of RhoB remains controversial and its function is not well understood. Using confocal microscopy, we found that endogenous RhoB and green fluorescent protein-tagged wild-type RhoB were localized to early endosomes, and to a much lesser extent to recycling endosomes, late endosomes or Golgi complex of fixed or live polarized Madin-Darby canine kidney cells. Consistent with RhoB localization to early endosomes, we observed that expression of dominant-negative RhoBN19 or dominant-active RhoBV14 altered postendocytic traffic of ligand-receptor complexes that undergo recycling, degradation or transcytosis. In vitro assays established that RhoB modulated the basolateral-to-apical transcytotic pathway by regulating cargo exit from basolateral early endosomes. Our results indicate that RhoB is localized, in part, to early endosomes where it regulates receptor egress through the early endocytic system. [ABSTRACT FROM AUTHOR]

Published
2007
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8. Apical and Basolateral Endocytic Pathways of MDCK Cells Meet in Acidic Common Endosomes Distinct from a Nearly-Neutral Apical Recycling Endosome.

Author

Wang, Exing, Brown, Paul S., Aroeti, Benjamin, Chapin, Steven J., Mostov, Keith E., and Dunn, Kenneth W.

Subjects
CELL lines, ENDOCYTOSIS, ACIDIFICATION, EPITHELIUM
Abstract

Quantitative confocal microscopic analyses of living, polarized MDCK cells demonstrate different pH profiles for apical and basolateral endocytic pathways, despite a rapid and extensive intersection between the two. Three-dimensional characterizations of ligand trafficking demonstrate that the apical and basolateral endocytic pathways share early, acidic compartments distributed throughout the medial regions of the cell. Polar sorting for both pathways occurs in these common endosomes as IgA is sorted from transferrin to alkaline transcytotic vesicles. While transferrin is directly recycled from the common endosomes, IgA is transported to a downstream apical compartment that is nearly neutral in pH. By several criteria this compartment appears to be equivalent to the previously described apical recycling endosome. The functional significance of the abrupt increase in lumenal pH that accompanies IgA sorting is not clear, as disrupting endosome acidification has no effect on polar sorting. These studies provide the first detailed characterizations of endosome acidification in intact polarized cells and clarify the relationship between the apical and basolateral endocytic itineraries of polarized MDCK cells. The extensive mixing of apical and basolateral pathways underscores the importance of endocytic sorting in maintaining the polarity of the plasma membrane of MDCK cells. [ABSTRACT FROM AUTHOR]

Published
2000
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9. Definition of Distinct Compartments in Polarized Madin–Darby Canine Kidney (MDCK) Cells for Membrane-Volume Sorting, Polarized Sorting and Apical Recycling.

Author

Brown, Paul S., Wang, Exing, Aroeti, Benjamin, Chapin, Steven J., Mostov, Keith E., and Dunn, Kenneth W.

Subjects
KIDNEYS, ENDOCYTOSIS, TRANSFERRIN
Abstract

Previous studies of fibroblasts have demonstrated that recycling of endocytic receptors occurs through a default mechanism of membrane-volume sorting. Epithelial cells require an additional level of polar membrane sorting, but there are conflicting models of polar sorting, some suggesting that it occurs in early endosomes, others suggesting it occurs in a specialized apical recycling endosome (ARE). The relationship between endocytic sorting to the lysosomal, recycling and transcytotic pathways in polarized cells was addressed by characterizing the endocytic itineraries of LDL, transferrin (Tf) and IgA, respectively, in polarized Madin–Darby canine kidney (MDCK) cells. Quantitative analyses of 3-dimensional images of living and fixed polarized cells demonstrate that endocytic sorting occurs sequentially. Initially internalized into lateral sorting endosomes, Tf and IgA are jointly sorted from LDL into apical and medial recycling endosomes, in a manner consistent with default sorting of membrane from volume. While Tf is recycled to the basolateral membrane from recycling endosomes, IgA is sorted to the ARE prior to apical delivery. Quantifications of the efficiency of sorting of IgA from Tf between the recycling endosomes and the ARE match biochemical measurements of transepithelial protein transport, indicating that all polar sorting occurs in this step. Unlike fibroblasts, rab11 is not associated with Tf recycling compartments in either polarized or glass-grown MDCK cells, rather it is associated with the compartments to which IgA is directed after sorting from Tf. These results complicate a suggested homology between the ARE and the fibroblast perinuclear recycling compartment and provide a framework that justifies previous conflicting models of polarized sorting. [ABSTRACT FROM AUTHOR]

Published
2000
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