UNIPROT:P20366 - FACTA Search

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)

[Arginine]vasopressin (AVP) is a neuropeptide physiologically synthesized in the hypothalamus but pathologically expressed by small-cell lung cancer (SCLC). A minimal 65 bp AVP promoter can restrict basal activity to SCLC in vitro, but a 199 bp fragment directs 5-fold higher expression in SCLC [Coulson, Stanley and Woll (1999) Br. J. Cancer 80, 1935-1944]. Several predicted E-box motifs occur within the 199 bp fragment, and we now describe an enhancer which contributes to AVP promoter tumour-specificity in some cell lines. The deletion of two adjacent E-boxes (-157 to -131) resulted in an approx. 70% loss of reporter gene expression in a SCLC line (Lu-165) with high endogenous AVP production. Using a series of AVP promoter deletion constructs and site-directed mutagenesis, we show that both these E-box sites were required for enhancer function, whereas mutation of an adjacent AP-1 site had no effect on the promoter activity. Electrophoretic-mobility-shift analysis indicated that, although both the predicted E-box motifs bound specific complexes, only one appeared to function as a strong E-box which binds basic helix-loop-helix (bHLH) factors. This motif formed a complex in lung tumour-cell extracts, which was particularly strongly bound in Lu-165, and was competed for by a characterized E-box motif from the preprotachykinin A promoter. Antibody supershifts indicate that this complex is a heterodimer of upstream stimulatory factor (USF)-1 and USF-2. Non-bHLH complexes weakly bound the second potential E-box motif in a SCLC-specific manner. These complexes were not recognized by the bHLH antibodies and remain unidentified; however, they were detected in seven of eight SCLC cell lines and not in four control lines. We postulate that there is a co-operative and complex interaction between an E-box and an adjacent site constituting a SCLC-specific enhancer within the AVP proximal promoter.
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PMID:E-box motifs within the human vasopressin gene promoter contribute to a major enhancer in small-cell lung cancer. 1058 87

The alpha(2) adrenergic receptor (AR) class of catecholamine/imidazoline (I) agonists, such as norepinephrine and clonidine, produce spinal antinociceptive synergy when co-administered with opioids. We have observed that intrathecally administered moxonidine, a selective I(1)/alpha(2) (AR) agonist, produces antinociception. The present experiments tested moxonidine for ability to synergize with morphine, deltorphin II, and DAMGO (Tyr-D-Ala-NMe-Phe-Gly(ol)) to inhibit substance P-elicited nociceptive behavior in Institute of Cancer Research mice. Moxonidine, morphine, deltorphin II, and DAMGO inhibited substance P-elicited nociceptive behavior with full efficacy. Effective dose 50% (ED(50)) values were calculated and equi-effective dose ratios of the combinations moxonidine-morphine, moxonidine-deltorphin II, and moxonidine-DAMGO were determined. The interactions were tested by isobolographic analysis. The observed ED(50) values of the combinations were statistically compared against their respective calculated theoretical additive ED(50) values. The combinations of moxonidine-morphine and moxonidine-deltorphin II resulted in significant leftward shifts in the dose-response curves compared to those of each agonist administered separately. The ED(50) values of the dose-response curves of these combinations were significantly less than the corresponding calculated theoretical additive ED(50) values; these results indicated that moxonidine synergizes with both morphine and deltorphin II. In contrast, combining moxonidine with DAMGO did not increase the potencies of the agonists (in combination) when compared to the potencies of each agonist administered separately. These results indicated that the moxonidine-DAMGO interaction is subadditive. Collectively, these data demonstrate that moxonidine combined with some opioid agonists produces spinal antinociceptive synergy. Spinally administered moxonidine-opioid combinations may prove an effective therapeutic strategy to manage pain.
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PMID:Moxonidine, a selective imidazoline/alpha(2) adrenergic receptor agonist, synergizes with morphine and deltorphin II to inhibit substance P-induced behavior in mice. 1060 68

Astrocytes harbour functional receptors to many neurotransmitters, including substance P (SP), an undecapeptide belonging to the tachykinin family of peptide transmitters. SP activates malignant glial cells to induce cytokine release and proliferation, both responses being relevant for tumour progression. In tumours developed in nude mice transplanted subcutaneously (s.c.) to U373 MG human glioma cells, the presence of SP was observed at immunohistochemistry. Although the administration of exogenous SP did not significantly affect the size or development of U373 MG xenograft, a role of SP in supporting glioma progression in vivo was highlighted by the tumour growth inhibition induced by highly specific and selective human tachykinin NK1 receptor antagonists (MEN 11467 and MEN 11149). The anti-tumour activity of MEN 11467 was observed both with s.c. or intravenous treatments and was partially reverted by the concomitant administration of exogenous SP. Doxorubicin did not show any activity in controlling U373 MG growth in this in vivo model. A novel therapeutic approach to treat malignant gliomas with tachykinin NK1 receptor antagonists is suggested by these findings.
Br J Cancer 2000 Jan
PMID:Anti-tumour activity of tachykinin NK1 receptor antagonists on human glioma U373 MG xenograft. 1064 8

Significant progress has been made in recent years in developing more effective means of preventing nausea and vomiting induced by cancer chemotherapy. With appropriate application of currently available antiemetic regimens, the majority of patients with cancer who are receiving chemotherapy can anticipate experiencing no emesis during their treatment. Nevertheless, incompletely controlled emesis remains a problem for a significant percentage of patients. Persistent challenges include delayed emesis and emesis following high-dose chemotherapy regimens. The goal of complete prevention of emesis in all patients remains elusive. Therefore, there is a strong rationale for investigating new antiemetic approaches. New antiemetic agents currently under development target the neurotransmitters serotonin (5-hydroxytryptamine; 5-HT) and substance P. A number of new selective antagonists of serotonin 5-HT3 receptors are in clinical trials. Given the lack of clinically significant differences between the available 5-HT3 receptor antagonists, it appears unlikely that any of these new agents will have substantial advantages over currently approved agents. Several other serotonin receptors have been targeted including the 5-HT4, 5-HT1A and 5-HT2A receptors. Of these approaches, only agonism of the 5-HT1A receptor has produced an agent that has proceeded into clinical testing. The most exciting new class of antiemetics currently under development focuses on antagonism of the effects of the neurotransmitter substance P. Results of early clinical trials with tachykinin neurokinin NK1 receptor antagonists demonstrate enhanced control of acute emesis with their addition to currently available agents and promising activity in controlling delayed emesis. Available evidence would strongly suggest that this class of agents will represent the next important advance in efforts to control nausea and vomiting induced by chemotherapy.
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PMID:Antiemetics for cancer chemotherapy-induced nausea and vomiting. A review of agents in development. 1065 96

Delayed emesis in cancer patients undergoing chemotherapy remains a significant problem. The pathogenesis of delayed emesis is still obscure. It was recently demonstrated that methotrexate (MTX), an anticancer drug, evoked delayed emesis in dogs in a manner similar to its actions in humans. We evaluated the antiemetic activity of FK1052, a potent antagonist for both the 5-hydroxytryptamine (HT)(3) and 5-HT(4) receptors, on delayed emesis induced by MTX in beagle dogs. Animal behavior was recorded for 3 days using a video camera. Delayed emesis lasting up to 72 h was observed in dogs treated with MTX (2.5 mg/kg i.v.), but acute emesis did not occur. The following antiemetics, at the dose that prevents cisplatin-induced acute emesis in dogs, were administered i.v. as multiple injections every 12 h during days 2 to 3. FK1052 (1 and 3.2 mg/kg) significantly reduced the emetic episodes caused by MTX, whereas ondansetron (1 mg/kg), a selective 5-HT(3) receptor antagonist, was not effective. The emetic episodes induced by MTX were also inhibited by another 5-HT(3/4) receptor antagonist, tropisetron (1 mg/kg). CP-122,721 (0. 1 mg/kg), a potent selective tachykinin NK(1) receptor antagonist, significantly reduced the emetic responses to MTX. Copper sulfate-induced emesis in dogs was also prevented by FK1052, tropisetron, and CP-122,721 but not by ondansetron. FK1052, tropisetron, and ondansetron had negligible affinity for the NK(1) receptor at 1 microM. These results suggest that the 5-HT(4) receptor may be in part involved in the production of delayed emesis induced by MTX in dogs and that FK1052 may be a useful drug against both acute and delayed emesis induced by cancer chemotherapy.
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PMID:Probable involvement of the 5-hydroxytryptamine(4) receptor in methotrexate-induced delayed emesis in dogs. 1068 16

The anti-emetic profile of the novel brain penetrant tachykinin NK1 receptor antagonist MK-0869 (L-754,030) 2-(R)-(1-(R)-(3,5-bis(trifluoromethyl)phenylethoxy)-3-(S)-(4-fluor o)phenyl-4-(3-oxo-1,2,4-triazol-5-yl)methylmorpholine and its water soluble prodrug, L-758,298, has been examined against emesis induced by cisplatin in ferrets. In a 4 h observation period, MK-0869 and L-758,298 (3 mg/kg i.v. or p.o.) inhibited the emetic response to cisplatin (10 mg/kg i.v.). The anti-emetic protection afforded by MK-0869 (0.1 mg/kg i.v.) was enhanced by combined treatment with either dexamethasone (20 mg/kg i.v.) or the 5-HT3 receptor antagonist ondansetron (0.1 mg/kg i.v.). In a model of acute and delayed emesis, ferrets were dosed with cisplatin (5 mg/kg i.p.) and the retching and vomiting response recorded for 72 h. Pretreatment with MK-0869 (4-16 mg/kg p.o.) dose-dependently inhibited the emetic response to cisplatin. Once daily treatment with MK-0869 (2 and 4 mg/kg p.o.) completely prevented retching and vomiting in all ferrets tested. Further when daily dosing began at 24 h after cisplatin injection, when the acute phase of emesis had already become established, MK-0869 (4 mg/kg p.o. at 24 and 48 h after cisplatin) prevented retching and vomiting in three out of four ferrets. These data show that MK-0869 and its prodrug, L-758,298, have good activity against cisplatin-induced emesis in ferrets and provided a basis for the clinical testing of these agents for the treatment of emesis associated with cancer chemotherapy.
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PMID:The novel NK1 receptor antagonist MK-0869 (L-754,030) and its water soluble phosphoryl prodrug, L-758,298, inhibit acute and delayed cisplatin-induced emesis in ferrets. 1072 86

The aim of this investigation was to determine whether murine models of inflammatory, neuropathic and cancer pain are each characterized by a unique set of neurochemical changes in the spinal cord and sensory neurons. All models were generated in C3H/HeJ mice and hyperalgesia and allodynia behaviorally characterized. A variety of neurochemical markers that have been implicated in the generation and maintenance of chronic pain were then examined in spinal cord and primary afferent neurons.Three days after injection of complete Freund's adjuvant into the hindpaw (a model of persistent inflammatory pain) increases in substance P, calcitonin gene-related peptide, protein kinase C gamma, and substance P receptor were observed in the spinal cord. Following sciatic nerve transection or L5 spinal nerve ligation (a model of persistent neuropathic pain) significant decreases in substance P and calcitonin gene-related peptide and increases in galanin and neuropeptide Y were observed in both primary afferent neurons and the spinal cord. In contrast, in a model of cancer pain induced by injection of osteolytic sarcoma cells into the femur, there were no detectable changes in any of these markers in either primary afferent neurons or the spinal cord. However, in this cancer-pain model, changes including massive astrocyte hypertrophy without neuronal loss, increase in the neuronal expression of c-Fos, and increase in the number of dynorphin-immunoreactive neurons were observed in the spinal cord, ipsilateral to the limb with cancer. These results indicate that a unique set of neurochemical changes occur with inflammatory, neuropathic and cancer pain in C3H/HeJ mice and further suggest that cancer induces a unique persistent pain state. Determining whether these neurochemical changes are involved in the generation and maintenance of each type of persistent pain may provide insight into the mechanisms that underlie each of these pain states.
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PMID:Murine models of inflammatory, neuropathic and cancer pain each generates a unique set of neurochemical changes in the spinal cord and sensory neurons. 1086 52

[Arg(6), D-Trp(7,9), N(me)Phe(8)]-substance P (6-11) (antagonist G) inhibits small cell lung cancer (SCLC) growth and is entering Phase II clinical investigation for the treatment of SCLC. As well as acting as a neuropeptide receptor antagonist, antagonist G stimulates c-jun-N-terminal kinase (JNK) activity and apoptosis in SCLC cells. We extend these findings and show that the stimulation of JNK and apoptosis by antagonist G is dependent upon the generation of reactive oxygen species (ROS) being inhibited either by anoxia or the presence of N-acetyl cysteine (n-AC). Antagonist G is not intrinsically a free radical oxygen donor but stimulates free radical generation specifically within SCLC cells (6.2-fold) and increases the activity of the redox-sensitive transcription factor AP-1 by 61%. In keeping with this, antagonist G reduces cellular glutathione (GSH) levels (38% reduction) and stimulates ceramide production and lipid peroxidation (112% increase). At plasma concentrations achieved clinically in the phase I studies, antagonist G augments, more than additively, growth inhibition induced by etoposide. Our results suggest that antagonist G may be particularly effective as an additional treatment with standard chemotherapy in SCLC. These novel findings will be important for the clinical application of this new and exciting compound and for the future drug development of new agents to treat this aggressive cancer.
Br J Cancer 2000 Oct
PMID:[Arg(6), D-Trp(7,9), N(me)Phe(8)]-substance P (6-11) (antagonist G) induces AP-1 transcription and sensitizes cells to chemotherapy. 1097 Jun 98

The stomatogastric ganglion of the crab, Cancer borealis, is modulated by >20 different substances, including numerous neuropeptides. One of these peptides, proctolin, activates an inward current that shows strong outward rectification (Golowasch and Marder, 1992). Decreasing the extracellular Ca(2+) concentration linearizes the current-voltage curve of the proctolin-induced current. We used voltage clamp to study the currents evoked by proctolin and five additional modulators [C. borealis tachykinin-related peptide Ia (CabTRP Ia), crustacean cardioactive peptide, red pigment-concentrating hormone, TNRNFLRFamide, and the muscarinic agonist pilocarpine] in stomatogastric ganglion neurons, both in the intact ganglion and in dissociated cell culture. Subtraction currents yielded proctolin-like current-voltage relationships for all six substances, and the current-voltage curves of all six substances showed linearization in low external Ca(2+). The lateral pyloric neuron responded to all six modulators, but the ventricular dilator neuron only responded to a subset of them. Bath application of saturating concentrations of proctolin occluded the response to CabTRP and vice versa. N-(6-Aminohexyl)-5-chloro-1-napthalensulfonamide, a calmodulin inhibitor, increased the amplitude and altered the voltage dependence of the responses elicited by CabTRP and proctolin. Together, these data indicate that all six substances converge onto the same voltage-dependent current, although they activate different receptors. Therefore, differential network responses evoked by these substances may primarily depend on the receptor distribution on network neurons.
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PMID:Multiple peptides converge to activate the same voltage-dependent current in a central pattern-generating circuit. 1099 18

Specificity in the actions of different modulatory neurons is often attributed to their having distinct cotransmitter complements. We are assessing the validity of this hypothesis with the stomatogastric nervous system of the crab Cancer borealis. In this nervous system, the stomatogastric ganglion (STG) contains a multifunctional network that generates the gastric mill and pyloric rhythms. Two identified projection neurons [modulatory proctolin neuron (MPN) and modulatory commissural neuron 1 (MCN1)] that innervate the STG and modulate these rhythms contain GABA and the pentapeptide proctolin, but only MCN1 contains Cancer borealis tachykinin-related peptide (CabTRP Ia). Selective activation of each projection neuron elicits different rhythms from the STG. MPN elicits only a pyloric rhythm, whereas MCN1 elicits a distinct pyloric rhythm as well as a gastric mill rhythm. We tested the degree to which CabTRP Ia distinguishes the actions of MCN1 and MPN. To this end, we used the tachykinin receptor antagonist Spantide I to eliminate the actions of CabTRP Ia. With Spantide I present, MCN1 no longer elicited the gastric mill rhythm and the resulting pyloric rhythm was changed. Although this rhythm was more similar to the MPN-elicited pyloric rhythm, these rhythms remained different. Thus, CabTRP Ia partially confers the differences in rhythm generation resulting from MPN versus MCN1 activation. This result suggests that different projection neurons may use the same cotransmitters differently to elicit distinct pyloric rhythms. It also supports the hypothesis that different projection neurons use a combination of strategies, including using distinct cotransmitter complements, to elicit different outputs from the same neuronal network.
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PMID:Projection neurons with shared cotransmitters elicit different motor patterns from the same neural circuit. 1110 5

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