Persistent cAMP signaling by internalized TSH receptors occurs in thyroid but not in HEK293 cells.

G-protein-coupled receptors (GPCRs) have long been believed to activate G proteins only on the cell surface. However, we have recently shown that, in thyroid cells, the GPCR for the thyroid-stimulating hormone (TSH) can continue stimulating cAMP production after cointernalization with TSH. cAMP signaling by internalized TSH receptors (TSHRs) was persistent, whereas that by cell-surface TSHRs was apparently transient, but the reasons for the transient signaling by cell-surface TSHRs were not investigated. Here, we developed and used fluorescence resonance energy transfer (FRET)-based methods to precisely compare the kinetics of TSH binding and dissociation from cell-surface TSHRs with those of the subsequent termination of cAMP signaling directly in living cells. Our results indicate that both TSH binding to human TSHRs expressed in a human embryonic kidney cell line (HEK 293) and the ensuing cAMP signals are rapidly and fully reversible (t(1/2,off)=2.96±1.04 and 2.70±0.73 min, respectively). The FRET measurement of TSH binding was specific, as shown by the lack of a detectable interaction between TSH and the β(2)-adrenergic receptor expressed in control cells. Enhancing TSHR internalization by β-arrestin 2 overexpression did not modify the reversibility of TSHR-cAMP signaling. These findings strengthen the view that the cointernalization of TSH-TSHR complexes to a signaling compartment present in thyroid, but not in HEK 293 cells, is responsible for persistent cAMP signaling.