Kinetic analysis of transcytosis of epidermal growth factor in Madin-Darby canine kidney epithelial cells.

Abstract

The aim of this study is to clarify the intracellular fate and a rate limiting step in transcytosis of epidermal growth factor (EGF) in Madin-Darby Canine Kidney (MDCK) epithelial cells. The kinetics of transcytosis of 125I-EGF was investigated. To examine the fate of EGF molecules bound to its receptor on the cell surface. 125I-EGF was prebound to the basal surface at 4 degrees C, followed by extensive washing and subsequent incubation at 37 degrees C in EGF-free medium. Saturable transport of 125I-EGF through the cell monolayer could only be observed from the basal to apical side. Most (approximately 90%) of the EGF molecules bound to the surface receptor are internalized with a half-life of 1-3 min, followed by intracellular degradation with a half-life of 20-50 min. The exocytosis of internalized EGF into the apical medium is much slower with a half-life of 130-250 min. Even when 125I-EGF was incubated with MDCK cells at 37 degrees C and washed with acid to remove cell-surface 125I-EGF, intact 125I-EGF appeared in the basal medium with a half life of 160-170 min. The exocytosis of internalized EGF into the apical medium is a rate limiting step in EGF transcytosis. At least a small amount of internalized EGF is recycled.