Fluorescent markers to study membrane retrieval in antidiuretic hormone-treated toad urinary bladder

Abstract

Antidiuretic hormone (ADH) stimulation of toad urinary bladder causes fusion of intracellular vesicles called aggrephores with the apical plasma membrane of granular cells. Aggrephores contain intramembrane particle aggregates whose appearance in the apical membrane is believed to produce a large increase in its water permeability. ADH removal (ADH washout) is thought to cause the retrieval of aggrephores into granular cell cytoplasm. We studied granular cell uptake of dextran and horseradish peroxidase conjugated with fluorescein, rhodamine, or both during ADH washout. Granular cell uptake of fluorescent dextran was dependent on prior exposure to ADH, a linear function of dextran concentration, and increased by a transepithelial osmotic gradient. Immediately after removal of ADH, granular cell fluorescence was finely dispersed and located near the apical surface. Subsequently, it coalesced into larger bodies. This change was most apparent when a single bladder was subjected to two cycles of ADH stimulation and removal using a dextran containing a different fluorophore for each cycle. The ultrastructural correlate for these fluorescent patterns was identified using rhodamine-labeled horseradish peroxidase. Electron microscopy showed that after detachment from the apical membrane, label was initially in tubular-shaped vesicles near the apical surface. Later, these vesicles clustered near multivesicular bodies and transferred their label to these structures. These tubular vesicles closely resemble the morphology of aggrephores visualized by freeze-fracture electron microscopy. We conclude that these fluorescent compounds can be used as markers for the luminal contents of membrane retrieved during ADH washout and allow detailed study of its intracellular processing.