Laboratory of Biological Chemistry, Development Therapeutics Program, Division of Cancer Treatment, National Cancer Institute, Bethesda, Maryland 20892.
The two bombesin receptor subtypes, neuromedin B (NMB-R) and gastrin releasing peptide (GRP-R) receptors, bind their respective ligands with high affinity. To identify molecular components mediating high affinity NMB binding, four mutant receptors were constructed, in which different parts of the NMB-R were replaced with the corresponding regions of the GRP-R. When stably expressed in Balb 3T3 fibroblasts, all four NMB-R/GRP-R chimeras were functional and showed NMB-induced stimulation of inositol phosphate (IP) formation. Results of 125I-[D-Tyr0]NMB displacement assays using unlabeled NMB for competition indicated that high affinity NMB binding was determined by amino acid sequences in transmembrane domain V (TM-V) of the NMB-R. To identify which amino acid(s) in TM-V of NMB-R contributed to high affinity NMB binding, four additional NMB-R mutants were constructed where non-conserved amino acids in TM-V of NMB-R were replaced by the corresponding GRP-R amino acids. Three of the mutations, TyrPheLeu220-222-->PheTyrVal, Ile230-->Val, and His234-->Phe, did not affect high affinity NMB binding. The Ile216-->Ser substitution, however, abolished high affinity NMB binding and severely impaired the ability of the mutant receptor to stimulate NMB-dependent inositol phosphate formation. These results suggest that ILe216 in TM-V of NMB-R may be critical for high affinity NMB binding.