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

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

NKA (4-10), the C-terminal heptapeptide fragment (Asp-Ser-Phe-Val-Gly-Leu-Met-NH2) of tachykinin NKA, is more active than the parent native compound in the interaction with the NK-2 receptor. Substitution of Gly8 with the more flexible residue beta-Ala8 increases its selectivity with respect to other two known receptors (NK-1 and NK-3), whereas substitution with either D-Ala8 or GABA8 deprives the peptide of its biological activity. These findings can be interpreted by a conformational analysis based on NMR studies in DMSO-d6 and in a DMSO-d6/H2O cryoprotective mixture combined with internal energy calculations. NKA(4-10) is characterized by a structure containing a type I beta-turn extending from Ser5 to Gly8, followed by a gamma-turn centered on Gly8, whereas for [beta-Ala8]NKA(4-10) is possible to suggest a type I beta-turn extending from Ser5 to beta-Ala8, followed by a C8 turn comprising beta-Ala8 and Leu9 and by another beta-turn extending from beta-Ala8 to the terminal NH2. The preferred conformation of [beta-Ala8]NKA(4-10) is not compatible with models for NK-1 and NK-3 agonists proposed on the basis of rigid peptide agonists [Levian-Teitelbaum et al. (1989) Biopolymers 28, 51-64; Sumner & Ferretti (1989) FEBS Lett. 253, 117-120]. The preferred solution conformation of [beta-Ala8]NKA(4-10) may thus be considered as a likely bioactive conformation for NK-2 selective peptides.
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PMID:Conformation-activity relationship of tachykinin neurokinin A (4-10) and of some [Xaa8] analogues. 165 41

An extract of the whole brain of the frog Rana ridibunda contained high concentrations of substance P-like immunoreactivity, measured with an antiserum directed against the COOH-terminal region of mammalian substance P and neurokinin B-like immunoreactivity, measured with an antiserum directed against the NH2-terminus of neurokinin B. The primary structure of the substance P-related peptide (ranakinin) was established as: Lys-Pro-Asn-Pro-Glu-Arg-Phe-Tyr-Gly-Leu-Met-NH2. Mammalian substance P was not present in the extract. The primary structure of the neurokinin B-related peptide was established as: Asp-Met-His-Asp-Phe-Phe-Val-Gly-Leu-Met-NH2. This amino acid sequence is the same as that of mammalian neurokinin B. Ranakinin was equipotent with substance P and [Sar9,Met(O2)11]substance P in inhibiting the binding of 125I-Bolton-Hunter-[Sar9,Met(O2)11]substance P, a selective radioligand for the NK1 receptor, to binding sites in rat submandibular gland membranes (IC50 1.6 +/- 0.3 nM; n = 5). It is concluded that ranakinin is a preferred agonist for the mammalian NK1 tachykinin receptor subtype.
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PMID:Ranakinin: a novel NK1 tachykinin receptor agonist isolated with neurokinin B from the brain of the frog Rana ridibunda. 165 33

1. We have evaluated the biological activity of a number of neurokinin A (4-10), (NKA (4-10)) analogues in the endothelium-deprived rabbit isolated pulmonary artery (RPA) and hamster isolated trachea (HT), two tissues rich in different NK2 receptor subtypes. 2. MDL 28,564, a pseudopeptide selective for NK2 receptor sites, behaved as a full agonist in the RPA, while in the HT it competitively antagonized NKA or [beta Ala8]-NKA (4-10) contractile effects. 3. The peculiar behaviour of MDL 28,564 in the RPA and HT may be explained neither by a difference in receptor reserve between the two organs (the reserve being three times greater in RPA than in the HT) nor by a different affinity for the two receptor subtypes (identical dissociation constants, pKA or pKB, calculated in the RPA and in the HT). On the other hand, MDL 28,564 displayed a very different intrinsic efficacy for the two receptor subtypes. 4. The novel peptides MEN 10,295 ([Trp7, beta Ala8]-NKA-(4-10)) and MEN 10,296 ([Tyr5, Trp7, beta Ala8]-NKA-(4-10] behaved as weaker agonists than MDL 28,564 in the RPA, but retained appreciable agonist activity also in the HT. 5. The novel peptides: MEN 10,282 ([Tyr5, D-Trp6,8, Trp9, Arg10]-NKA-(4-10], MEN 10,449 ([diI-Try5, D-Trp6,8,9, Arg10]-NKA-(4-10] and the cyclic hexapeptide L 659,877 (cyclo [Leu-Met-Gln-Trp-Phe-Gly]) behaved as competitive antagonists against NKA contractile effects both in the RPA and HT. MEN 10,282 and MEN 10,449 were unable to distinguish between the NK2 receptor subtypes, having almost the same affinity in the two organs. On the other hand L 659,877 was about 15 times more potent in the HT than in the RPA. 6. These results provide further evidence for NK2 receptors heterogeneity and are useful in outlining pharmacological features of the two subtypes present in the RPA and HT.
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PMID:Further evidence for the existence of NK2 tachykinin receptor subtypes. 166 68

1. The interaction at tachykinin receptors of a series of novel cyclic hexapeptides has been examined by use of radioligand binding assays (NK1 and NK3 sites in rat cortex, NK2 sites in hamster urinary bladder) and functional pharmacological assays (guinea-pig ileum, rat vas deferens and rat portal vein for NK1, NK2 and NK3 receptors, respectively). 2. The compounds cyclo(GlnTrpPhe(R)Gly[ANC-2]LeuMet) (L-659,837) and cyclo(GlnTrpPheGly-LeuMet) (L-659,877) were powerful and selective displacers of NK2 binding (pIC50 6.9 and 8.0, respectively), and were competitive antagonists of responses to stimulation of NK2 receptors in rat vas deferens (pKB for antagonism of responses to eledoisin 6.7 and 8.1, respectively). Responses in the NK1 and NK3 pharmacological assays were blocked only weakly, if at all. 3. In the longitudinal muscle of the small intestine of the rat, responses to stimulation of the putative NK2 receptor by eledoisin, neurokinin A or neurokinin B were antagonized by both cyclo(GlnTrpPhe(R)-Gly[ANC-2]LeuMet) and cyclo (GlnTrpPheGlyLeuMet) in a manner consistent with the presence in this tissue of a uniform population of receptors, indistinguishable from the NK2 receptor of the rat vas deferens. 4. The compounds cyclo(GlnTrpPheGlyLeuMet) and the lactam-containing analogue are among the most selective antagonists for the NK2 receptor that have been described; their availability should be of value in the characterization of the receptors mediating responses to tachykinins, and in elucidating the physiological functions of the tachykinin receptors.
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PMID:Pharmacological specificity of novel, synthetic, cyclic peptides as antagonists at tachykinin receptors. 166 32

The biosynthetic enzyme peptidylglycine alpha-amidating monooxygenase catalyzes the formation of a variety of biologically active alpha-amidated peptides from respective COOH-terminal glycine-extended peptide precursors. Peptidylglycine alpha-amidating monooxygenase activity is dependent on copper, ascorbate, and molecular oxygen and is inhibited by the relatively selective copper chelator N,N-diethyldithiocarbamate or its disulfide dimer disulfiram (Antabuse). In the present study, chronic disulfiram treatment (100 mg/kg/day, for 12-25 days) resulted in significant changes in several neurochemical parameters in the mouse central nervous system, including levels of substance P-like, unamidated substance P-Gly-like, and protease-generated substance P-Gly-Lys-like immunoreactivities (SP-LI, SP-G-LI, and SP-G-K-LI, respectively). Combined high performance liquid chromatography/radioimmunoassay analyses of the extracted SP-LI, SP-G-LI, and SP-G-K-LI species indicated very similar chromatographic and immunochemical behavior as demonstrated for chemically authentic peptide standards. Additionally, changes in levels of monoamines and their metabolites were observed after drug administration. Complementary immunohistochemical analyses using affinity-purified anti-SP-G sera localized these drug-induced changes in levels of immunoreactive unamidated precursor to neural elements that normally express SP. As a functional corollary to alterations in neurochemical parameters, we observed significant disulfiram-induced increases in pain thresholds, potentiated by capsaicin treatment. Overall, our results indicate that the observed changes in steady state levels of immunoreactive SP and of the immature COOH-terminal extended forms of SP may reflect compensatory biosynthetic and posttranslational processing events in SP-containing neural systems after pharmacological challenge.
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PMID:Disulfiram administration affects substance P-like immunoreactive and monoaminergic neural systems in rodent brain. 168 29

Measles virus (MV) encodes the fusion protein (F) that mediates cell fusion and intercellular spread of the virus, and is homologous to the carboxy terminus of the neuropeptide substance P (SP). In addition, the oligopeptide Z-D-Phe-L-Phe-Gly, also homologous to F and SP, inhibits MV fusion with target cells. These observations raise the question of whether MV uses the SP receptor (SPR) during a specific phase of its infectious cycle. In this report, we examine the structural and functional consequences of this interaction and show, using cross-linking studies, that MV and SP specifically bind to a 52-58-kD protein, previously reported to comprise the SPR on human IM-9 lymphoblasts. Moreover, bound MV and SP are shown to reciprocally displace each other from these cells. In addition, we demonstrate that anti-SP antisera inhibits the cell-to-cell spread of MV, and that SP blocks MV fusion with target cells. These results indicate the presence of MV-SPR interactions during viral fusion, and suggest possible novel mechanisms for viral entry into cells.
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PMID:Measles virus-substance P receptor interactions. Possible novel mechanism of viral fusion. 169 Jul 58

A sensitive alpha-amidating enzyme (alpha AE) assay using C-terminal glycine-extended substance P (SP-Gly) as a substrate was developed. The product, substance P (SP), was measured by a radioimmunoassay with specific polyclonal antibodies which recognize SP with an affinity 10,000-fold higher than that of SP-Gly. The sensitivity of the radioimmunoassay was 5 fmol. Enzyme activity could be readily detected with 25 ng alpha AE partially purified from the conditioned medium of rat medullary thyroid carcinoma CA-77 cells. The Km and Vmax values were 2.0 +/- 0.2 microM and 1.7 +/- 0.1 nmol/mg/min (mean +/- SE, n = 3), respectively. The assay enabled the kinetic characterization of alpha AE from a single rat pituitary homogenate. Optimal Cu2+ required was 30 microM and greater than 3 mM of ascorbate was needed for maximal enzyme activity. The sensitivity of this assay will aid efforts to examine the regulation of in vivo alpha AE activity.
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PMID:A radioimmunoassay for measuring alpha-amidating enzyme activity. 169 69

1. We have used pharmacologic, immunologic, and biochemical techniques to examine the role of neurochemicals in modulating the myogenic heart of the snail, Lymnaea. 2. 5-HT [high-pressure liquid chromatography (HPLC) and immunocytochemistry], dopamine (HPLC), FMRFamide-related peptides (radioimmunoassay and immunocytochemistry) and substance P-related peptides (immunocytochemistry) were shown to be localized within heart tissue. 3. The pharmacologic actions of these substances on the auricle from an isolated heart preparation were examined together with other putative modulators, acetylcholine (ACh), small cardioactive peptides A and B (SCPA and SCPB), [Arg]8vasotocin (AVT), and Lymnaea native FMRFamide-related peptides [Phe-Met-Arg-Phe-NH2 (FMRFamide), Ser-Asp-Pro-Phe-Leu-Arg-Phe-NH2 (SDPFLRFamide) and Gly-Asp-Pro-Phe-Leu-Arg-Phe-NH2 (GDPFLRFamide)]. 4. The response to each substance could be distinguished by different effect on beat rate, amplitude, and diastolic tonus, as well as by the duration of responses to standard 1-min applications. ACh was inhibitory at low concentrations (threshold less than 10(-10) M) but excitatory at high concentrations (10(-6) M). AVT was alone in producing no dose-dependent response. At high concentrations (10(-4) M), AVT caused a massive tonic contraction and cessation of auricle beat. All other substances examined were excitatory. 5. Antagonists to 5-HT (cinanserin), dopamine (ergonovine), and ACh (alpha-bungarotoxin) were identified. 6. ACh, 5-HT, dopamine, and FMRFamide-related peptides all acted on the auricle at low concentrations, and the rapid onset and short duration of their excitatory effects (ACh inhibitory at low concentrations) suggested that they may have roles as neurotransmitters. SCPA and SCPB were also potent (threshold less than 10(-10) M) but produced long-duration responses suggesting a modulatory or hormonal role.
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PMID:Pharmacology of the myogenic heart of the pond snail Lymnaea stagnalis. 169 38

1. Opioid receptors have been localised on sensory fibres in the vagus nerve and opioids have previously been shown to inhibit non-adrenergic, non-cholinergic (NANC) neurotransmission in guinea-pig bronchi in vitro and in vivo. We have now investigated whether an inhibitory effect could be demonstrated on cholinergic neurotransmission. 2. Electrical field stimulation (EFS) (8 Hz, 0.5 ms, 40 V for 20 s) produced only a rapid, cholinergic response in the upper trachea but in the lower trachea and main bronchi a cholinergic response which was atropine-sensitive and a longer lasting NANC contraction that was atropine-insensitive was demonstrated. This slow contraction could be blocked by tetrodotoxin and capsaicin pretreatment. 3. [D-Ala2, NMePhe4, Gly-ol5]enkephalin (DAMGO), a selective mu-opioid receptor agonist, inhibited the cholinergic response to EFS at 8 Hz in a dose-dependent manner in main bronchi (IC50 = 113 nM with a maximal inhibition of 35.7 +/- 5.6% 10 microM, n = 5). In the lower trachea, DAMGO inhibited the cholinergic response to a similar extent (inhibition of 35.8 +/- 3.5% at 10 microM, n = 5). However, DAMGO had no effect on the contractile response to exogenously applied acetylcholine in the main bronchi. By contrast, opioids had no inhibitory effect on cholinergic neurotransmission in the upper trachea. DAMGO (1 microM) inhibited the cholinergic response to EFS in a frequency-dependent manner in the main bronchi with greater inhibition at lower frequencies of stimulation. 4. The delta-opioid receptor agonist [D-Pen2, D-Pen5]enkephalin (DPDPE) significantly inhibited the cholinergic component of the constrictor response to EFS at 8 Hz in the bronchi but at the highest dose used (10 microM). U-50,488H, a Kappa-receptor agonist, had no inhibitory effect on the cholinergic constrictor component in the main bronchi (10microM). 5. DAMGO also inhibited the NANC responses to EFS in the main bronchi in a dose-dependent manner (with an IC50 = 36 nm and a maximal inhibition of 63.4 + 8.3%, at 1 microM, n = 5). DAMGO had no effect on contractile responses to exogenously applied substance P (SP). DPDPE (10 microM) was less effective in inhibition of the NANC bronchoconstriction with a maximal inhibition of 29.2 + 4.2% (n = 7), and U-50,488H (1O microM) had no inhibitory effect. 6. After capsaicin pretreatment, which depleted sensory nerves of neuropeptides, the inhibitory effect of DAMGO (1 microM) on cholinergic constriction in main bronchi at 8 Hz was only 13.4 + 1.9% (n = 13) compared with 32.9 + 4.0% (n = 9) inhibition in vehicle-treated controls (P < 0.001). 7. Opioids may reduce the cholinergic neural responses in airways partly via an inhibitory action on excitatory NANC nerves and partly by a direct effect on cholinergic neurotransmission. The opioid receptor involved is of the mu-opioid receptor subtype.
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PMID:Modulation of cholinergic neurotransmission in guinea-pig airways by opioids. 169 31

Aminoterminal fragments of substance P (SP) have been previously shown to produce effects distinct, and often opposite, from those produced by the C-terminal of SP. The present investigation was initiated to determine whether N-terminal fragments interact at binding sites distinct from the neurokinin-1 (NK-1) receptor where the C-terminal sequence of SP binds with high affinity, and distinct from mu-opiate receptors, where we have previously shown the N-terminal sequence of SP to interact. A tritium-labeled aminoterminal heptapeptide of SP, 3H-SP(1-7), was synthesized, purified, and used to characterize the binding of a variety of fragments of SP and opioids in the mouse brain and spinal cord membranes. Using the reduction of SP-induced caudally directed biting and scratching behaviors as an index of biological activity, 3H-SP(1-7) was shown to be equipotent to unlabeled SP(1-7). 3H-SP(1-7) was found to bind reversibly to a saturable population of sites. Scatchard analyses of concentration-dependent saturation of binding in the brain indicated a single population of noninteracting sites with a high affinity (Kd = 2.5 nM) and a low capacity (Bmax = 29.2 fmol/mg protein). Kinetic analyses indicated an apparent dissociation equilibrium constant of 2.1 nM. Two populations of binding sites were observed in the spinal cord, one with a very high affinity (Kd = 0.03 nM) and low capacity (Bmax = 0.87 fmol/mg protein), and the other with lower affinity (Kd = 5.4 nM) and intermediate capacity (Bmax = 19.6 fmol/mg protein). Specific agonists for NK-1, NK-2, and NK-3 and delta opioid receptors, carboxyterminal fragments of SP, and a variety of other peptides did not compete at the 3H-SP(1-7) binding sites, but structurally related N-terminal peptides and (D-Ala2, NMe-Phe4, Gly-ol)-enkephalin (DAMGO) were active in displacing the ligand. The binding site for 3H-SP(1-7) appeared to be a membrane-bound complex whose specific binding was dependent on the integrity of both proteins and phospholipids. These studies are the first to characterize the binding sites for the SP N-terminal partial sequence of SP that can be generated by metabolism in vivo. The expanding body of evidence for distinct biological activities of N-terminal metabolites of SP, together with the current characterization of N-terminal binding, strongly support the existence of an N-terminal-directed SP receptor. The characteristics of SP(1-7) binding sites are consistent with those expected for an SP N-terminal receptor.
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PMID:Specific binding of substance P aminoterminal heptapeptide [SP(1-7)] to mouse brain and spinal cord membranes. 170 82


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