G protein-coupled receptors (GPCRs) are transmembrane molecules that, on interaction with G proteins upon ligand binding, can associate with a large variety of transmembrane or soluble proteins, termed 'GPCR-interacting proteins' (GIPs). Some special transmembrane GIPs are themselves GPCRs that form homo- or heterodimers, while other transmembrane GIPs are ionic channels, ionotropic receptors and single transmembrane proteins that control GPCR pharmacology and trafficking. Most soluble GIPs interact with the C-termini of GPCRs and often physically link GPCRs to large protein networks, called 'receptosomes', that include ionic channels, protein kinases, small G proteins, cytoskeletal proteins and adhesion molecules. Here, we review the nature and functions of some of these networks, such as the glutamate and serotonin receptosomes, and focus on the fine-tuning of GPCR signaling by GIPs. Finally, we discuss the possibilities for developing new therapeutic drugs capable of modulating GPCR signaling by disrupting or reinforcing specific GPCR-GIP interactions.