Abstract

Primary cultures of rat pituitary cells were stained with an antibody to the native thyrotropin-releasing hormone (TRH) receptor and with a bioactive, fluorescent analogue of TRH, Rhod-TRH. Rhod-TRH specifically stained 86% of lactotropes and 21% of nonlactotropes from primary pituitary cell cultures. Lactotropes and thyrotropes accounted for 90% of cells that stained with Rhod-TRH, but there were occasional lactotropes and thyrotropes that did not show detectable staining with antireceptor antibodies or with Rhod-TRH. The intensity of staining was generally higher in the GH3 line of tumor cells than in normal pituicytes, and 100% of the tumor cells stained with Rhod-TRH. To determine whether the TRH receptor undergoes ligand-directed endocytosis in normal cells, TRH receptor immunocytochemistry was performed before and after TRH binding. TRH receptors were localized on the surface of cells prior to TRH exposure, and Rhod-TRH fluorescence was confined to the plasma membrane when TRH binding was performed at 0 degrees C, where endocytosis is blocked. When cells were incubated with TRH at 37 degrees C, receptors were found in intracellular vesicles in both lactotropes and thyrotropes, and Rhod-TRH was rapidly internalized into endosomes at elevated temperatures. Internalization of Rhod-TRH was inhibited by hypertonic sucrose, indicating that it occurs through clathrin-coated pits. These findings show that some of the heterogeneity in the secretory and calcium responses of pituicytes to TRH occurs at the level of the TRH receptor.

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