(125)I]EYF: a new high affinity radioligand to neuropeptide FF receptors

(125)I]EYF ((125)I]EYWSLAAPQRFamide), a new radioiodinated probe derived from a peptide present in the rat Neuropeptide FF precursor (EFWSLAAPQRFamide, EFW-NPSF) was synthesized and its binding characteristics investigated on sections of the rat spinal cord and on membranes of mouse olfactory bulb. In both tissues, (125)I]EYF binding was saturable and revealed a very high affinity interaction with a single class of binding sites in rat and mouse (K(D) = 0.041 and 0.019 nM, respectively).Competition studies showed that (125)I]EYF bound to one class of binding sites exhibiting a high affinity for all the different peptides the precursor could generate (NPA-NPFF, SPA-NPFF, NPFF, EFW-NPSF, QFW-NPSF) with the exception of NPSF which displayed a low affinity.Autoradiographic studies demonstrated that (125)I]EYF binding sites were fully inhibited by a synthetic Neuropeptide FF agonist (1DMe) in all areas of the rat brain. The density of (125)I]EYF binding sites was high in the intralaminar thalamic nuclei, the parafascicular thalamic nucleus and in the superficial layers of the dorsal horn.Non specific binding reached 5-10% of the total binding in all brain areas. Similarly, in mouse brain experiments, the non-specific binding was never superior to 10%.These findings demonstrate that putative neuropeptides generated by the Neuropeptide FF precursor and containing the NPFF or NPSF sequences should bind to the same receptor. Furthermore, these data indicate that (125)I]EYF is a useful radiolabeled probe to investigate the NPFF receptors; its major advantages being its high affinity and the very low non-specific binding it induces.