Recycling of the mu opioid receptor to the plasma membrane after endocytosis promotes rapid resensitization of signal transduction, whereas targeting of the delta opioid receptor (DOR) to lysosomes causes proteolytic down-regulation. We identified a protein that binds preferentially to the cytoplasmic tail of the DOR as a candidate heterotrimeric GTP-binding protein (G protein)-coupled receptor-associated sorting protein (GASP). Disruption of the DOR-GASP interaction through receptor mutation or overexpression of a dominant negative fragment of GASP inhibited receptor trafficking to lysosomes and promoted recycling. The GASP family of proteins may modulate lysosomal sorting and functional down-regulation of a variety of G protein-coupled receptors.
Aberrant dopaminergic signaling is a critical determinant in multiple psychiatric disorders, and in many disease states, dopamine receptor number is altered. Here we identify a molecular mechanism that selectively targets D2 receptors for degradation after their activation by dopamine. The degradative fate of D2 receptors is determined by an interaction with G protein coupled receptorassociated sorting protein (GASP). As a consequence of this GASP interaction, D2 responses in rat brain fail to resensitize after agonist treatment. Disruption of the D2-GASP interaction facilitates recovery of D2 responses, suggesting that modulation of the D2-GASP interaction is important for the functional downregulation of D2 receptors.
Upon sustained insult, kinins are released and many kinin responses, such as inflammatory pain, adapt from a B 2 receptor (B 2 R) type in the acute phase to a B 1 receptor (B 1 R) type in the chronic phase. In this study, we show that kinins modulate receptor endocytosis to rapidly decrease B 2 R and increase B 1 R on the cell surface. B 2 Rs, which require agonist for activity, are stable plasma membrane components without agonist but recruit -arrestin 2, internalize in a clathrin-dependent manner, and recycle rapidly upon agonist treatment. In contrast, B 1 Rs, which are inducible and constitutively active, constitutively internalize without agonist via a clathrin-dependent pathway, do not recruit -arrestin 2, bind G protein-coupled receptor sorting protein, and target lysosomes for degradation. Agonist delays B 1 R endocytosis, thus transiently stabilizing the receptor. Most of the receptor trafficking phenotypes are transplantable from one receptor to the other through exchange of the C-terminal receptor tails, indicating that the tails contain epitopes that are important for the binding of protein partners that participate in the endocytic and postendocytic receptor choices. It is noteworthy that the agonist delay of B 1 R endocytosis is not transplanted to the B 2 R via the B 1 R tail, suggesting that this property of the B 1 R requires another domain. These events provide a rapid kinin-dependent mechanism for 1) regulating the constitutive B 1 R activity and 2) shifting the balance of accessible receptors in favor of B 1 R.
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