Bidirectional FcRn-dependent IgG transport in a polarized human intestinal epithelial cell line
Bonny L. Dickinson, … , Richard S. Blumberg, Wayne I. Lencer
Bonny L. Dickinson, … , Richard S. Blumberg, Wayne I. Lencer
Published October 1, 1999
Citation Information: J Clin Invest. 1999;104(7):903-911. https://doi.org/10.1172/JCI6968.
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Article

Bidirectional FcRn-dependent IgG transport in a polarized human intestinal epithelial cell line

Abstract

The MHC class I–related Fc receptor, FcRn, mediates the intestinal absorption of maternal IgG in neonatal rodents and the transplacental transport of maternal IgG in humans by receptor-mediated transcytosis. In mice and rats, expression of FcRn in intestinal epithelial cells is limited to the suckling period. We have recently observed, however, clear expression of FcRn in the adult human intestine, suggesting a function for FcRn in intestinal IgG transport beyond neonatal life in humans. We tested this hypothesis using the polarized human intestinal T84 cell line as a model epithelium. Immunocytochemical data show that FcRn is present in T84 cells in a punctate apical pattern similar to that found in human small intestinal enterocytes. Solute flux studies show that FcRn transports IgG across T84 monolayers by receptor-mediated transcytosis. Transport is bidirectional, specific for FcRn, and dependent upon endosomal acidification. These data define a novel bidirectional mechanism of IgG transport across epithelial barriers that predicts an important effect of FcRn on IgG function in immune surveillance and host defense at mucosal surfaces.

Authors

Bonny L. Dickinson, Kamran Badizadegan, Zhen Wu, Jeremy C. Ahouse, Xiaoping Zhu, Neil E. Simister, Richard S. Blumberg, Wayne I. Lencer

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Binding of rhodamine-labeled IgG to T84 cell surfaces. T84 cells grown o...
Binding of rhodamine-labeled IgG to T84 cell surfaces. T84 cells grown on glass coverslips were incubated at 4°C with rhodamine-labeled IgG at pH 6.0 or pH 8.0 in the presence or absence of excess competing nonlabeled IgG. Ligand binding was assessed by epifluorescence and Nomarski bright-field microscopy.