Synthesis and spectroscopic characterization of photo-affinity peptide ligands to study rhodopsin-G protein interaction

G protein-coupled receptors (GPCRs) are involved in the control of virtually all aspects of our behavior and physiology. Activated receptors catalyze nucleotide exchange in heterotrimeric G proteins (composed of alpha.GDP, beta and gamma subunits) on the inner surface of the cell membrane. The GPCR rhodopsin and the G protein transducin (G(t)) are key proteins in the early steps of the visual cascade. The main receptor interaction sites on G(t) are the C-terminal tail of the G(t)alpha-subunit and the farnesylated C-terminal tail of the G(t)gamma-subunit. Synthetic peptides derived from these C-termini specifically bind and stabilize the active rhodopsin conformation (R*). Here we report the synthesis of R*-interacting peptides containing photo-reactive groups with a specific isotope pattern, which can facilitate detection of cross-linked products by mass spectrometry. In a preliminary set of experiments, we characterized such peptides derived from the farnesylated G(t)gamma C-terminus (G(t)gamma(60-71)far) in terms of their capability to bind R*. Here, we describe novel peptides with photo-affinity labels that bind R* with affinities similar to that of the native G(t)gamma(60-71)far peptide. Such peptides will enable an improved experimental strategy to probe rhodopsin-G(t) interaction and to map so far unknown interaction sites between both proteins.