CDB15:0001112 NMB — NMBR

ABSTRACT: Little is known about the pharmacology or cell biology of human bombesin (Bn) receptors, because they are usually present at low levels and both subtypes are frequently present in the same tissues. Human gastrin-releasing peptide (GRP) receptors (huGRP-R) and human neuromedin B (NMB) receptors (huNMB-R) were stably transfected into BALB/3T3 fibroblasts. Both receptor types were glycosylated, with 35% of the huGRP-R and 38% of the huNMB-R representing carbohydrate residues. The extent of glycosylation of the transfected huGRP-R was the same as that seen in the human glioblastoma cell line U-118. Radiolabeled agonist ligands were rapidly internalized, whereas noninternalized ligand readily dissociated in a temperature-dependent fashion. The affinities of various agonists for binding to the huGRP-R were Bn (Ki = 1.4 +/- 0.2 nM) = 4 x GRP = 300 x NMB. In contrast, affinities for the huNMB-R were NMB (Ki = 8.1 +/- 5.2 nM) = 4 x Bn = 600 x GRP. [F5-D-Phe6,D-Ala11]Bn(6-13)methyl ester was the most potent huGRP-R antagonist, whereas D-Nal-Cys-Tyr-D-Trp-Lys-Val-Cys-Nal-NH2 was the most potent huNMB-R antagonist. Agonist binding to either receptor type caused activation of phospholipase C and increased cellular [3H]inositol phosphate levels. GRP was potent at increasing [3H]inositol phosphate generation in cells expressing the huGRP-R (EC50 = 13.6 +/- 1.3 nM), whereas NMB was similarly potent when acting upon cells expressing the huNMB-R (EC50 = 9.3 +/- 1.4 nM). However, neither receptor type, when stimulated with agonist, caused an increase in cAMP levels. These data show that stably transfected huGRP-R exhibit similar pharmacology for agonists and antagonists, are appropriately glycosylated, and function similarly with respect to their ability to alter biological activity, compared with natively expressed receptors. Minimal native huNMB-R data are available for comparison, but in general the huNMB-R is similar to the rat NMB receptor in its pharmacology and cell biology.

ABSTRACT: Bombesin-related peptides show different potencies, suggesting the existence of at least two receptor subtypes. The aim of this study was to assess the relationship and contribution of each receptor subtype on smooth muscle contraction.

ABSTRACT: 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.