Molecular Basis of the Selectivity of Gastrin-Releasing Peptide Receptor for Gastrin-Releasing Peptide

Tokita, Kenji; Hocart, Simon J.; Coy, David H.; Jensen, Robert T.

doi:10.1124/mol.61.6.1435

Cited by 39 publications

(58 citation statements)

References 42 publications

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“…It is also known that bombesin does not appreciably bind to the BRS3 receptor (26,34). In some experimentally mutated receptors, however, bombesin has markedly higher affinity than does GRP (35), suggesting that a novel bombesin receptor could, in fact, mediate effects of bombesin that might persist in GRPR KO mice, as observed with bombesin-induced interstitial fibrosis and decreased alveolarization in the present study.…”

Section: Discussionsupporting

confidence: 62%

“…In fact, amphibian bombesin binds to and functions better at the mammalian bombesin/GRP receptor than does GRP itself, probably due to conformational differences related to its smaller molecular weight that permit greater access to the cell-surface GRPR in tissues (23)(24)(25). Three of the four amino acids required for high-affinity bombesin binding to GRPR are also required for high-affinity GRP binding (34,35). The peptide-specific binding site for GRP has been mapped to the third extracellular domain (35), whereas NMB selectivity has been mapped to the fifth transmembrane region (36).…”

Section: Discussionmentioning

confidence: 99%

“…Three of the four amino acids required for high-affinity bombesin binding to GRPR are also required for high-affinity GRP binding (34,35). The peptide-specific binding site for GRP has been mapped to the third extracellular domain (35), whereas NMB selectivity has been mapped to the fifth transmembrane region (36). Four times as much GRP or 300 times as much NMB is required to elicit the same responses as bombesin (on a molar basis) at the bombesin/GRP-preferring receptor (23).…”

Section: Discussionmentioning

confidence: 99%

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Bombesin Inhibits Alveolarization and Promotes Pulmonary Fibrosis in Newborn Mice

Ashour

Lin

Lee

et al. 2006

Am J Respir Crit Care Med

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Rationale: Bombesin-like peptides promote fetal lung development. Normally, levels of mammalian bombesin (gastrin-releasing peptide [GRP]) drop postnatally, but these levels are elevated in newborns that develop bronchopulmonary dysplasia (BPD), a chronic lung disease characterized by arrested alveolarization. In premature baboons with BPD, antibombesin antibodies reduce lung injury and promote alveolarization. Objectives: The present study tests whether exogenous bombesin or GRP given perinatally alters alveolar development in newborn mice. Methods: Mice were given peptides intraperitoneally twice daily on Postnatal Days 1-3. On Day 14 lungs were inflation-fixed for histopathologic analyses of alveolarization. Measurements and Main Results: Bombesin had multiple effects on Day 14 lung, when alveolarization was about half complete. First, bombesin induced alveolar myofibroblast proliferation and increased alveolar wall thickness compared with saline-treated control animals. Second, bombesin diminished alveolarization in C57BL/6 (but not Swiss-Webster) mice. We used receptor-null mice to explore which receptors might mediate these effects. Compared with wild-type littermates, bombesin-treated GRP receptor (GRPR)-null mice had increased interstitial fibrosis but reduced defects in alveolarization. Neuromedin B (NMB) receptor-null and bombesin receptor subtype 3-null mice had the same responses as their wildtype littermates. GRP had the same effects as bombesin, whereas neither NMB nor a synthetic bombesin receptor type 3 ligand had any effect. All effects of GRP were abrogated in GRPR-null mice. Conclusions: Bombesin/GRP can induce features of BPD, including interstitial fibrosis and diminished alveolarization. GRPR appears to mediate all effects of GRP, but only part of the bombesin effect on alveolarization, suggesting that novel receptors may mediate some effects of bombesin in newborn lung.Keywords: bronchopulmonary dysplasia; gastrin-releasing peptide; interstitial fibrosis; knock-out mice Bombesin is a 14-amino acid peptide originally identified in 1971 by Erspamer in skin of the frog Bombina bombina (1-3). Using antibodies to amphibian bombesin, a 27-amino acid mammalian homolog was identified by McDonald and termed gastrinreleasing peptide (GRP) (4). GRP and bombesin share a highly conserved seven-amino acid C-terminus, which is required for immunogenicity and high-affinity binding to physiologic receptors. Thus, bombesin and GRP are referred to collectively as "bombesin-like peptides" (BLPs), because both peptides bind to and elicit the same physiologic effects at mammalian bombesin/ GRP-preferring receptors. BLP immunoreactivity is widely distributed in the central nervous system, the lung, and the gut, but the highest levels occur in mid-gestation human fetal lung (2, 5).During lung development, the first epithelial cells to differentiate are the pulmonary neuroendocrine cells (6, 7), which contain high levels of BLP immunoreactivity. BLP can promote growth and maturation of developing fetal lung in hum...

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Section: Discussionsupporting

confidence: 62%

Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

See 1 more Smart Citation

Bombesin Inhibits Alveolarization and Promotes Pulmonary Fibrosis in Newborn Mice

Ashour

Lin

Lee

et al. 2006

Am J Respir Crit Care Med

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“…The structural basis for the selectivity of GRPR agonists/ antagonists and high affinity for the GRPR has been extensively studied Tokita et al, 2002;Nakagawa et al, 2005;Gonzalez et al, 2008). However, little is known about the molecular basis of selectivity and high affinity of NMB for the NMBR.…”

mentioning

confidence: 99%

Molecular Basis for the Selectivity of the Mammalian Bombesin Peptide, Neuromedin B, for Its Receptor

González

Nakagawa²,

Mantey³

et al. 2009

J Pharmacol Exp Ther

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The mammalian bombesin (Bn) peptides, neuromedin B (NMB) and gastrin-releasing peptide (GRP), have widespread actions in many tissues, and their effects are mediated by two closely related G-protein-coupled receptors, the NMBR and GRPR. Little is known about the structural determinants of NMBR selectivity for NMB, in contrast to GRP selectivity for the GRPR, which has been extensively studied. To provide insight, chimeric NMBR-GRPR loss-of-affinity and gain-of-affinity mutants were made, as well as NH 2 -terminally truncated NMBR and point mutants using site-directed mutagenesis. Receptors were expressed in Balb-3T3-cells or CHOP cells, and affinities were determined. NMB had 115-fold greater affinity for NMBR than GRPR. Receptor-chimeric studies showed that NMBR selectivity for NMB was primarily determined by differences in the third extracellular (EC3) regions of GRPR-NMBR and adjacent upper-transmembrane-5 (TM5) region. In this region, 24 NMB gain-of-affinity GRPR mutants or NMBR loss-of-affinity point/ combination mutants were made. Three gain-of-affinity mutant GRPRs [[A198I] (EC3), [H202Q] (EC3), [S215I] (upper TM5)]had increased NMB affinity (2.4 -21-fold), and these results were confirmed with NMBR loss-of-affinity mutants [I199A, Q203H,I215S-NMBR]. The combination mutant [A198I, S215]GRPR had the greatest effect causing a complete NMB gain-of-affinity. The importance of differences at position 199NMBR or 203NMBR was studied by substituting amino acids with various properties. Our results show that NMBR selectivity for NMB is due to differences in the EC3 of NMBR-GRPR and the adjacent upper-TM5 region. Within these regions, isoleucines in NMBR [position 199 (EC3)] (instead of A198GRPR) and in 215NMBR (TM5) (instead of S214GRPR), as well as Q203NMBR (instead of H202GRPR) are responsible for high NMB-affinity/selectivity of NMBR. The effect at position 199 is primarily due to differences in hydrophobicity of the substitution, whereas steric factors and charge of the substitution at position 203 were important determinants of NMB selectivity.

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“…These results coincide with the high affinity of chGRP-R and moderate affinity of chBRS-3.5 for BN. Moreover, two residues, Phe 185 and Ala 198 , have been shown to be indispensable for the selectivity of mouse GRP-R for GRP (Tokita et al, 2002). These residues are conserved in both chGRP-R and chBRS-3.5 that showed selectivity for GRP rather than NMB.…”

Section: Iwabuchi Et Almentioning

confidence: 99%

Molecular cloning and characterization of avian bombesin‐like peptide receptors: new tools for investigating molecular basis for ligand selectivity

Iwabuchi

Ui-Tei

Yamada

et al. 2003

British J Pharmacology

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1 Bombesin (BN), originally isolated from amphibians, is structurally related to a family of BN-like peptides found in mammals, which include gastrin-releasing peptide (GRP) and neuromedin B (NMB). These peptides have important effects on secretion, smooth muscle contraction, metabolism and behavior. Here we report cloning and characterization of two subtypes of BN-like peptide receptors in Aves. 2 The amino-acid sequence of chick GRP-R (chGRP-R) is highly identical with mammalian and amphibian GRP-R, and this receptor showed high affinity for GRP, BN (6 -14)). The chGRP-R gene was localized to chicken chromosome 1q23distal-q24proximal, where chick homologs of other human Xlinked genes have also been mapped. 3 ChBRS-3.5, having sequence similarities to both mammalian bombesin-like peptide receptor subtype-3 and amphibian bombesin-like peptide receptor subtype-4, showed high affinity for [FAFNl]BN(6 -14), moderate affinity for BN, but low affinity for both GRP and NMB. 4 Expression of both receptors was detected in brain, but only chGRP-R was expressed in gastrointestinal (GI) tissues. 5 When expressed in Chinese hamster ovary K1 cells, these receptors mediate intracellular calcium mobilization upon agonist stimulation. These results suggest that a novel BN peptide may occur in Aves as an endogenous ligand for chBRS-3.5. 6 The receptor sequences responsible for ligand selectivities were discussed and this knowledge about avian BN-like peptide receptors will help us to understand the molecular basis for agonist sensitivities of BN-like peptide receptors.

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Molecular Basis of the Selectivity of Gastrin-Releasing Peptide Receptor for Gastrin-Releasing Peptide

Cited by 39 publications

References 42 publications

Bombesin Inhibits Alveolarization and Promotes Pulmonary Fibrosis in Newborn Mice

Bombesin Inhibits Alveolarization and Promotes Pulmonary Fibrosis in Newborn Mice

Molecular Basis for the Selectivity of the Mammalian Bombesin Peptide, Neuromedin B, for Its Receptor

Molecular cloning and characterization of avian bombesin‐like peptide receptors: new tools for investigating molecular basis for ligand selectivity

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