Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

---

Query: UNIPROT:P20366 (substance P)
21,176 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

To identify the molecular determinants of ligand-receptor interactions, the extracellular domain of the human neurokinin-1 receptor was systematically substituted with the corresponding sequences from the other two neurokinin receptor subtypes. Three residues within the first extracellular segment and 2 residues of the second segment are required for the optimal binding of all three natural peptide agonists. The divergent nature of 4 of the 5 residues supports the hypothesis that the peptide binding site on the neurokinin-1 receptor is not highly conserved in the other two receptor subtypes. In contrast, substitution of part of the third extracellular segment and the fourth extracellular segment with the corresponding amino acids of the human neurokinin-3 receptor results in an increase in neurokinin B affinity without affecting substance P binding, suggesting that the two peptides do not interact with the same set of functional groups on the receptor. Among the four extracellular regions, only parts of the third and fourth segments affect the binding of the quinuclidine antagonist L-703,606, and these two regions may partially account for the neurokinin-1 receptor subtype specificity of this non-peptide antagonist. These studies demonstrate that both the extracellular and transmembrane domains of the neurokinin-1 receptor are involved in the binding of substance P and related peptides.
...
PMID:Localization of agonist and antagonist binding domains of the human neurokinin-1 receptor. 128 69

CP-96,345, a quinuclidine, is a potent inhibitor of substance P for the NK1 receptor of bovine brain, but has reduced potency for the corresponding receptor of the rat and mouse, and none for NK2 or NK3 receptors. A related quinuclidine showed similar but lower potency than CP-96,345 for NK1. CP-96,345 was more potent than the spantide I of 1984, D-Arg1,Pro2,Lys3,Pro4,Gln5,Gln6,D-Trp7,Phe8,D-Trp9, Leu10,Leu11,NH2. Our continued designs for antagonists of substance P led to spantide II in 1990 which is: D-NicLys1,Pro2,3-Pal3,Pro4,D-Cl2Phe5,Asn6,D-Trp7 ,Phe8,D-Trp9,Leu10,Nle11-NH2. The pA2 values of spantide II and CP-96,345 for guinea pig taenia coli were 7.6 and 6.8, respectively. The pIC50 values for blockade of tachykinin-mediated neurotransmission in the rabbit iris sphincter were 6.1 and 5.4, respectively. Spantide II was nearly 10 times more potent than CP-96,345 in these two assays.
...
PMID:Comparison of spantide II and CP-96,345 for blockade of tachykinin-evoked contractions of smooth muscle. 171 87

We have recently shown that a series of N-acyl-L-tryptophan benzyl esters are potent substance P antagonists (Macleod, A. M., Merchant, K. J., Cascieri, M. A., Sadowski, S., Ber, E., Swain, C. J., and Baker, R. (1993) J. Med Chem. 14, 2044-2045). We now report the detailed characterization of the interaction of N-acetyl-L-tryptophan-3,5-bistrifluoromethyl benzyl ester (L-732,138) with the human neurokinin-1 (NK-1) receptor. L-732,138 inhibits the binding of 125I-substance P to the cloned human NK1 receptor expressed in Chinese hamster ovary cells with an IC50 of 2.3 +/- 0.7 nM. In contrast, it has 200-fold lower affinity for the cloned rat NK-1 receptor and has > 1000-fold lower affinity for the human NK-2 and NK-3 receptors. L-732,138 acts as a competitive antagonist of substance P, as shown by functional Schild analysis of the inhibition of substance P-induced inositol phosphate synthesis, by kinetic analysis of the dissociation rate, and by thermodynamic analysis of the equilibrium binding of 125I-substance P to the NK-1 receptor. L-732,138 also competitively inhibits the binding of the quinuclidine amine antagonist, [125I]L-703,606, to the receptor. The compound has 230- and 10-fold reduced affinity for mutant NK-1 receptors in which histidine 265 or histidine 197, respectively, are replaced with alanine. We have previously shown that these residues play key roles in the binding of quinuclidine antagonists to the NK-1 receptor. These results suggest that the tryptophan and quinuclidine series of NK-1 antagonists bind to similar binding sites on the human NK-1 receptor.
...
PMID:Characterization of the interaction of N-acyl-L-tryptophan benzyl ester neurokinin antagonists with the human neurokinin-1 receptor. 750 7

The synthesis and structure-activity relationships of a series of aza-tricyclic analogs of the quinuclidine substance P (SP) antagonist 1 are described. The SP receptor affinity of these compounds was found to vary according to the size of the new ring fused to the quinuclidine and the mode of fusion. Correlations between receptor affinity and (1) the steric bulk of the newly introduced ring fusion and (2) the dihedral angle between the benzhydryl and benzylamino substituents of these aza-tricyclic compounds were explored.
...
PMID:Aza-tricyclic substance P antagonists. 752 Sep 43

We describe the development and characterization of substance P labeled at Lys3 with fluorescein ([fluorescein Lys3]SP) as a fluorescent probe for the neurokinin 1 (NK1) receptor. [fluorescein Lys3]SP is an agonist at the human NK1 receptor, with an affinity for both the high-affinity and low-affinity binding states of the receptor approximately 6-fold lower than that of substance P. Binding of the probe to the human NK1 receptor expressed in Sf9 insect cells was observed directly by monitoring either a decrease in fluorescence intensity or an increase in anisotropy of the [fluorescein Lys3]SP. Detection by anisotropy gave the larger signal and thus was used to characterize the interaction of [fluorescein Lys3]SP with the receptor. The anisotropy of the bound ligand was 0.17, compared to 0.04 for the free ligand. The fluorescence was quenched by about 15% upon binding to the receptor. Bound [fluorescein Lys3]SP was displaced by unlabeled SP and by the quinuclidine antagonist L-703,606. As expected for an agonist, binding was also reduced by the addition of the nonhydrolyzable guanine nucleotide analog GppNHp. [fluorescein Lys3]SP should provide a useful structural and kinetic probe for the NK1 receptor.
...
PMID:Characterization of a fluorescent substance P analog. 752 60

The 3,5-bis(trifluoromethyl)benzyl ester of N-acetyl-L-tryptophan (3), which was derived from the screening lead N-ethyl-L-tryptophan benzyl ester, has been used as a starting point to identify high-affinity substance P receptor antagonists with improved in vivo activity. Altering the ester moiety to an amide or ether led to a substantial loss in binding affinity, but conversion to a ketone provided compounds with affinity comparable to the equivalent esters. A homochiral synthesis of the key intermediate amino ketone 15 was developed which allows its preparation on a large scale. From this intermediate a range of amine-containing acylamino derivatives were prepared with affinity optimized in the morpholinylbutyramide 161 which has an IC50 of 0.17 nM at the human NK1 receptor. In addition to improving affinity, the amino group also provided aqueous solubility for a number of these derivatives. When tested in vivo the quinuclidine derivative L-737,488 (16i) was found to be an orally active (ID50 = 1.8 mg/kg) inhibitor of substance P-induced dermal extravasation in the guinea pig.
...
PMID:Synthesis and biological evaluation of NK1 antagonists derived from L-tryptophan. 753 62

We recently described a novel series of diacylpiperazine antagonists of the human neurokinin (NK)-1 receptor. The diacylpiperazine compounds are structurally dissimilar from previously described NK-1 antagonists. L-161,664 [1-(N,N-diphenylaminocarbonyl)-4-(N',N'-di-n-pentylaminocarbony l) piperazine-2-diethylaminopropylcarboxamide] inhibits 125I-substance P binding to the human NK-1 receptor with an IC50 of 43 +/- 21 nM but has 50-fold and 200-fold lower affinity for the human NK-2 and NK-3 receptors, respectively. L-161,664 inhibits substance P-stimulated inositol monophosphate accumulation in Chinese hamster ovary cells expressing the human NK-1 receptor by increasing the EC50 for substance P but not its maximal effect. The compound decreases the apparent affinity of the NK-1 receptor for 125I-substance P and does not alter the rate of dissociation of 125I-substance P from the receptor. These data indicate that L-161,664 is a potent and selective competitive antagonist of the human NK-1 receptor. L-161,664 has reduced affinity for mutants of the NK-1 receptor in which alanine has replaced Gln-165 in transmembrane helix 4, His-197 in helix 5, His-265 in helix 6, or Tyr-287 in helix 7. Similarly, a novel series of acyclic 2-benzhydryl-2-aminoethyl ethers that we have recently shown to be competitive NK-1 receptor antagonists have reduced affinity for the Q165A. H197A, and H265A mutant receptors. These residues have been shown to be important for binding of quinuclidine, tryptophan benzyl ester, and perhydroisoindole antagonists to the receptor. Analysis of the interaction of structural analogs of L-161,664 with the Q165A mutant receptor suggests that this residue interacts with the 2-diethylaminopropylcarboxamide side chain of L-161,664. Thus, even though the diacylpiperazine antagonists are structurally dissimilar from other classes of antagonists described to date, these data suggest that a common antagonist binding site that accomodates much structural diversity is present in the human NK-1 receptor. Furthermore, these data, combined with those obtained from medicinal chemistry approaches, suggest a minimum pharmacophore map for the interaction of these diverse ligands with the NK-1 binding site.
...
PMID:Characterization of the interaction of diacylpiperazine antagonists with the human neurokinin-1 receptor: identification of a common binding site for structurally dissimilar antagonists. 753 86

Substance P binds to and activates the neurokinin-1 receptor with high affinity, thereby modulating several neuronal pathways including pain transmission and neurogenic inflammation. Several high affinity non-peptide antagonists have recently been described. To elucidate the molecular interactions specific for binding to the neurokinin-1 receptor, site-directed mutagenesis has been utilized to identify amino acid residues that interact directly with antagonists. Glutamine 165 in the fourth transmembrane segment was shown to be critical for the binding of CP-96,345 but not SR140333. Analysis of quinuclidine analogs suggests that glutamine 165 interacts with the C-3 heteroatom in this class of antagonists, probably through a hydrogen bond. Glutamine 165 also plays a minor role in the binding of peptides and RP67580. In contrast, serine 169 was determined to be critical for the binding of RP67580. These data indicate that residues 165 and 169 in the fourth transmembrane segment, along with residues in the fifth, sixth, and seventh transmembrane segments as demonstrated previously, form the non-peptide antagonist binding site in the neurokinin-1 receptor. Furthermore, the antagonist binding site overlaps with the binding site for peptide agonists in the fourth and seventh transmembrane segments.
...
PMID:Interaction of glutamine 165 in the fourth transmembrane segment of the human neurokinin-1 receptor with quinuclidine antagonists. 819 29

Crystal structures of nine non-peptide tachykinin NK1 antagonists have been analysed for the intermolecular interactions of their pharmacophoric groups with neighbouring molecules in the crystals. Experimental data on interaction geometries of these antagonists with their environment can be of help in understanding the mechanism of binding to the human NK1 receptor. Several interaction geometries have been identified that are consistent with both structure-activity relationships and reported receptor interactions for the compounds analysed. In addition, an interaction site for the side-chain of Gln-165 in the human NK1 receptor that is probably involved in donating a hydrogen bond to the benzylamino nitrogen or benzylether oxygen of the quinuclidine and piperidine antagonists is explicitly postulated. Also, a superposition based on pharmacophoric elements in the crystal structure conformations of two prototypic NK1 antagonists, CP-96,345 (1) and CP-99,994 (4), suggests how both compounds might interact with the human NK1 receptor in a similar manner.
...
PMID:Possible ligand-receptor interactions for NK1 antagonists as observed in their crystal structures. 911 32

2(S)-((3,5-Bis(trifluoromethyl)benzyl)-oxy)-3(S)-phenyl-4-((3-oxo-1,2,4- triazol-5-yl)methyl)morpholine (L-742,694) is a selective morpholino tachykinin NK1 receptor antagonist that inhibits the binding of 125I-substance P to the human tachykinin NK1 receptor with a Kd = 37 pM. Increasing concentrations of L-742,694 added to cells 15 min prior to agonist progressively increase the apparent EC50 of substance P for inducing the synthesis of inositol phosphate in Chinese hamster ovary (CHO) cells expressing human tachykinin NK1 receptor and decrease the maximal level of stimulation observed. In contrast, addition of substance P and L-742,694 to the cells at the same time results in an increase in the EC50 for substance P with no decrease in the maximal level of stimulation. The compound also decreases the apparent number of binding sites for 125I-substance P observed by Scatchard analysis. Analysis of the binding of [3H]L-742,694 to the tachykinin NK1 receptor shows that it associates with the receptor with k(a) = 3.98 x 10(8) M(-1) min(-1), and dissociates with k(d) = 0.026 min(-1) and t1/2 = 27 min at 22 degrees C. The slow rate of dissociation of L-742,694 from the tachykinin NK1 receptor and the observation that altering the order of addition of antagonist and substance P attenuates the effect of the antagonist on the maximal activation suggest that L-742,694 is a competitive antagonist that can behave as a pseudoirreversible antagonist under some experimental conditions. L-742,694 has reduced affinity for tachykinin NK1 receptors in which alanine has been substituted for Gln165, His197 or His265 in transmembrane helices 4, 5 and 6, respectively. These three residues have previously been shown to be present in the binding site of tachykinin NK1 receptor antagonists of several structural classes. In addition, L-742,694 inhibits binding of the quinuclidine antagonist (2S,3S)-cis-2-(diphenyl methyl)-N-[(2-iodophenyl)-methyl]-1-azabicyclo[2.2.2]octane 3-amine ([125I]L-703,606) with the same affinity as it inhibits binding of 125I-substance P. These data indicate that L-742,694 binds to the same site within the transmembrane domain of the receptor as previously described competitive antagonists.
...
PMID:Characterization of the binding and activity of a high affinity, pseudoirreversible morpholino tachykinin NK1 receptor antagonist. 916 73


1

---