Further evidence for the presence of "septide-sensitive" tachykinin binding sites in tissues possessing solely NK(1) tachykinin receptors

Binding experiments performed with [(125)I]-NKA allowed us to demonstrate the presence of "septide-sensitive" specific binding sites on membranes from rat CHO cells transfected with the NK(1) receptor cDNA (CHO-rat-NK1 cells), human astrocytoma U373 MG, or mouse cortical astrocytes, cells which express NK(1) but neither NK(2) nor NK(3) receptors. In all cases, [(125)I]-NKA was specifically bound with high affinity (2 to 5 nM) to a single population of sites. In the three preparations, pharmacological characteristics of [(125)I]-NKA binding sites were notably different from those of classical NK(1) binding sites selectively labelled with [(125)I]-BHSP. Indeed, the endogenous tachykinins NKA, NPK, and NKB and the septide-like compounds such as septide, SP(6-11), ALIE-124, [Apa(9-10)]SP, or [Lys(5)]NKA(4-10) had a much higher affinity for [(125)I]-NKA than [(125)I]-BHSP binding sites. Interestingly, differences were also found in the ratio of B(max) values for [(125)I]-NKA and [(125)I]-BHSP specific bindings from one tissue to another. These latter observations suggest that these two types of NK(1) binding sites are present on distinct NK(1) receptor isoforms (or conformers). Finally, while several tachykinins and tachykinin-related compounds stimulated cAMP formation or increased inositol phosphate accumulation in CHO-rat-NK1 cells, these compounds only increased the accumulation of inositol phosphates in the two other preparations.     

Receptor subtypes involved in tachykinin-mediated edema formation.

Intradermal (ID) injection of the natural tachykinins substance P (SP), neurokinin A (NKA), and neurokinin B (NKB) (0.3-30 nmol) resulted in a marked and dose-related rat paw edema, with mean ED50 values of 2.68 nmol, 1.17 nmol, and 0.80 nmol, respectively. The ID injection of the selective NK1, SP methyl-ester (1-30 nmol), NK2, [beta-Ala8]-neurokinin A4-10) (beta-Ala, 0.3-30 nmol), or NK3, senktide (1-10 nmol) agonists, caused extensive edema formation with mean ED50s of 0.48 nmol, 0.41 nmol, and 0.18 nmol, respectively. The ID injection of the selective NK1 antagonist FK888 (0.1-3 nmol) produced marked inhibition (94%, 52%, and 66%, respectively) of rat paw edema induced by SP, NKA, or SP methyl-ester. The ID co-injection of the NK2 receptor antagonist SR 48968 elicited a graded inhibition (52%, 67%, and 35%, respectively) of rat paw edema induced by NKA, beta-Ala and, to a lesser extent, the edema caused by SP. Finally, the ID co-injection of the NK, receptor antagonist SR 142801 significantly inhibited (53%, 76%, 53%, and 100%, respectively) the edema formation caused by NKB and NKA or by SP and senktide. Together, the data of the present study suggest that tachykinin-mediated rat paw edema depends on the activation of NK1, NK2 and NK3 receptor subtypes, with apparent major involvement of NK1 receptors subtypes.     

In vitro and in vivo pharmacological characterization of the novel NK(1) receptor selective antagonist Netupitant

The novel NK(1) receptor ligand Netupitant has been characterized in vitro and in vivo. In calcium mobilization studies CHO cells expressing the human NK receptors responded to a panel of agonists with the expected order of potency. In CHO NK(1) cells Netupitant concentration-dependently antagonized the stimulatory effects of substance P (SP) showing insurmountable antagonism (pK(B) 8.87). In cells expressing NK(2) or NK(3) receptors Netupitant was inactive. In the guinea pig ileum Netupitant concentration-dependently depressed the maximal response to SP (pK(B) 7.85) and, in functional washout experiments, displayed persistent (up to 5h) antagonist effects. In mice the intrathecal injection of SP elicited the typical scratching, biting and licking response that was dose-dependently inhibited by Netupitant given intraperitoneally in the 1-10mg/kg dose range. In gerbils, foot tapping behavior evoked by the intracerebroventricular injection of a NK(1) agonist was dose-dependently counteracted by Netupitant given intraperitoneally (ID(50) 1.5mg/kg) or orally (ID(50) 0.5mg/kg). In time course experiments in gerbils Netupitant displayed long lasting effects. In all the assays Aprepitant elicited similar effects as Netupitant. These results suggest that Netupitant behaves as a brain penetrant, orally active, potent and selective NK(1) antagonist. Thus this molecule can be useful for investigating the NK(1) receptor role in the control of central and peripheral functions. Netupitant has clinical potential in conditions such as chemotherapy induced nausea and vomiting, in which the blockade of NK(1) receptors has been demonstrated valuable for patients.     

Reduction induced by substance P of the initial accumulation of myo(3H)inositol in acinar cells of the parotid gland in rats

The stimulation of rat parotid acinar cells by substance P(SP) resulted in a significant reduction in the initial accumulation of cytosolic myo[3H]inositol and in the initial labelling of phosphoinositides. The SP-induced reduction was concentration-dependent, the EC50 of SP was 5.8 +/- 2.5 nM. Spantide, [D-Arg1, D-Trp7,9, Leu11]SP, a SP antagonist, used at a concentration of 10(-5) M, competitively shifted the dose-response curve of SP. The pharmacological analysis of the effects of several tachykinins and analogues, suggests the implication of NK1 receptors (specific receptor of SP).     

生物肽SP对NK细胞NKG2D/NKG2A受体表达的影响

选择NK92-MI细胞为研究体系,研究SP对NK细胞的杀伤活性及功能性受体NKG2D/NKG2A表达的影响,以探讨SP对NK细胞功能的调节作用机制。采用MTT法测定NK92-MI细胞对K562细胞的杀伤活性;采用Real-Time PCR和流式细胞术检测NK92-MI细胞活化性受体NKG2D和抑制性受体NKG2A的基因表达和膜表达。10-14～10-8 mol/L的SP在体外可明显增强NK92-MI细胞的杀伤活性。该浓度范围的SP均可上调NKG2D/NKG2A的mRNA水平;10-14～10-8 mol/L的SP均上调NKG2D/NKG2A的膜表达,较低浓度（10-14 mol/L）的SP仅使NKG2D表达上调,而NKG2A表达无明显变化;SP刺激NKG2D膜表达增加的程度高于NKG2A。生物肽SP调节NK细胞功能性受体NKG2D/NKG2A的表达,可能是SP增强NK细胞杀伤活性的一种原因。     

Pharmacological characterization of tachykinin septide-sensitive binding sites in the rat submaxillary gland

Binding studies have shown that [125I]NKA is a selective ligand of tachykinin septide-sensitive binding sites from membranes of the rat submaxillary gland. Indeed, this ligand bound with high affinity to a single population of sites. In addition, competition studies indicated that natural tachykinins and tachykinin-related compounds had a similar affinity for these sites than for those labeled with [3H]ALIE-124, a selective ligand of septide-sensitive binding sites. Moreover, selective tachykinin NK2, or NK3 agonists or antagonists exhibited weak or no affinity for [125I]NKA binding sites. As indicated by Ki values of several compounds, the pharmacological characteristics of the septide-sensitive binding sites (labeled with [125I]NKA) largely differ from those of classic NK1 binding sites, as determined on crude synaptosomes from the rat brain using [125I]Bolton-Hunter substance P (SP) as ligand. Indeed, several tachykinins including neurokinin A (NKA), neuropeptide K (NPK), neuropeptide gamma (NKgamma), and neurokinin B, as well as some SP and NKA analogues or C-terminal fragments such as septide, ALIE-124, SP(6-11), NKA(4-10), which have a weak affinity for classic tachykinin NK1 binding sites exhibited a high affinity for the septide-sensitive binding sites. In contrast, SP, classic selective NK1 agonists, and antagonists had a high affinity for both types of binding sites. The presence of a large population of tachykinin septide-sensitive binding sites in the rat submaxillary gland may thus explain why NPK and NPgamma induce salivary secretion and may potentiate the SP-evoked response in spite of the absence of tachykinin NK2 receptors in this tissue.     

RP 67580, a potent and selective substance P non-peptide antagonist]

The pharmacological properties of 7,7-Diphenyl-2 [1-imino-2 (2-methoxy-phenyl)-ethyl] perhydroisoindol-4-one (3 aR, 7 aR) or RP67580 are described. This compound, derived from a novel chemical family, is a potent and selective substance P (SP) antagonist, in vitro and in vivo. In vitro, it inhibited in a competitive manner (IC50 = 10 nM) 3H-SP binding in rat brain (NK1 receptors). It did not interact with the two other tachykinin receptor sites (NK2 and NK3) nor the other receptor sites tested. Moreover, RP67580 competitively antagonized the contractile activity of SP on guinea-pig ileum (pA2 = 7.16); in contrast, it was inactive in rabbit pulmonary artery and in rat portal vein tissues which contain NK2 and NK3 receptors, respectively. In vivo, in the rat, RP67580 inhibited the plasmatic extravasation induced by administration of SP (ED50 = 0.04 mg/kg i.v.) as well as that induced by antidromic stimulation of a peripheral sensory nerve (ED50 = 0.15 mg/kg i.v.). In mice and rats, RP67580, like morphine, potently blocked the nociceptive effects of phenylbenzoquinone and formalin; its antinociceptive effect does not involve opiate receptors since it was not reversed by naloxone. These results indicate that RP67580 is a particularly valuable tool for investigating the physiological and pathological role of SP.     

Synthesis of (bis)sulfonic acid, (bis)benzamides as follicle-stimulating hormone (FSH) antagonists

Screening efforts identified (bis)sulfonic acid, (bis)benzamides (1-3) as compounds that interact with the follicle stimulating-hormone receptor (FSHR) and inhibit FSH-stimulated cAMP accumulation with IC(50) values in the low micromolar range. Structure-activity relationship studies using novel analogues of 1-3 revealed that two phenylsulfonic acid moieties were necessary for activity and that the carbon-carbon double bond of the stilbene sub-series was the optimum spacer connecting these groups. Selected analogues (2, 14, and 50) were also able to block FSHR-dependent estradiol production in rat primary ovarian granulosa cells and progesterone secretion in a clonal mouse adrenal Y1 cell line. IC(50) values for these compounds in these assays were in the low micromolar range. Optimization of the benzoic acid side chains of 1-3 led to gains in selectivity versus activity at the thyroid stimulating hormone (TSH) receptor (TSHR). For instance, while stilbene (bis)sulfonic acid congener 2 was only 10-fold selective for FSHR over TSHR, analogue 50 with an IC(50) value of 0.9 microM in the FSHR-cAMP assay was essentially inactive at 30 microM in the TSHR-cAMP assay.     

Substance P-Induced Reduction in the Initial Accumulation of Cytosolic myo-[3H]Inositol in Rat Parotid Acinar Cells Mediated by the NK1 Tachykinin Receptor

Abstract: Stimulation of rat parotid acinar cells by the tachykinin neurokinin (NK) 1 receptor agonist substance P (SP) resulted in a significant reduction in the initial accumulation of cytosolic myo-[³H]inositol. This effect was rapid, because a reduction of ～15% could be seen already at 30 s, with the maximal effect (～45%) being observed at 15 min. The response to SP stimulation Was temperature dependent, because at 4°C no reduction was found, jln addition, at 4°C, cytosolic myo-[³H]inositol represented only 10% of the labeled inositol accumulated at 37°C. The SP-induced reduct on in cytosolic ravo[³H]inositol accumulation was concentration dependent; the EC₅₀ obtained for SP was 5.8 ± 2.5 nM. Spantide [N Arg¹, D-Trp⁷⁹, Leu]SP), a SP antagonist, used at a concentration oif 10⁵ A/, gave a competitive shift of the dose-response curve to SP. Various tachykinins and their analogs were evaluated for their ability to reduce cytosolic mvo-[³H]inositol. [L-Pro⁹]SP and SP methyl ester, two highly selective agonists of NK1 receptors, reduced the initial accumulation of myo-H]inositol with EQo values of 2.3 and 67.0 nM, respectively. Long SP C-terminal fragments were more potent than shorter ones. SP N-terminal fragments and SP free acid were -without effect. [Pro⁷]NKB, a selective NKB analog, had no effect. The rank order of potency of mammalian tachykinins was SP > NKA > NKB. These findings and the close correlation between EC50 values and IC₅₀ values obtained in binding studies implicate the NK 1 receptor. In addition, stimulation of muscarinic receptors by carbachol alscp resulted in a reduction in level of cytosolic mjw-[³H]inositol, with this effect being reversed by atropine. Moreover, atropine was unable tjo alter the SP-induced reduction in cytosolic myo-[³H]inositol accumulation. Other neurotransmitters, such as glutamic acid, serotonin, chplecystokinin, neurotensin, bradykinin, and neuropeptide Y, were without effect on initial cytosolic myo-[³H]inositol accumulation. In conclusion, NK1 and muscarinic receptors seem to regulate the membrane transport of inositol in acinar cells of the rat parotid gland. Measurement of the initial accumulation of cytosolic myo-[³H]inositol in this tissue could profitably be adopted as a very simple, rapid, [sensitive, and specific biochemical procedure for screening the activity of potential agonists and antagonists at NK1 receptors.     

Tachykinin Receptors of the NK1 Type (Substance P) Coupled Positively to Phospholipase C on Cortical Astrocytes from the Newborn Mouse in Primary Culture

Specific 125I-Bolton-Hunter substance P (125I-BHSP) binding sites are present on intact cortical astrocytes of the newborn mouse in primary culture. Therefore, these cells were used to ascertain the existence of functional substance P (SP) receptors coupled positively to phospholipase C. SP stimulated phosphoinositide breakdown with an EC50 value (4.5 x 10(-10) M) similar to its IC50 value (3.8 x 10(-10) M) for inhibiting 125I-BHSP binding. The maximal response to (10(-6) M SP for 60 min) obtained was approximately 500% of control values. The rank order of potency of tachykinins was SP greater than neurokinin (NK) A greater than NKB. Long SP C-terminal fragments were more potent than shorter ones in stimulating the accumulation of 3H-inositol phosphates. SP free acid and SP N-terminal fragments were without effect. [L-Pro9]SP and SP methyl ester, two selective agonists of NK1 receptors, were almost as potent as SP. An excellent correlation was found when the abilities of tachykinins and their analogs for stimulating phosphoinositide breakdown and for inhibiting 125I-BHSP binding were compared. Finally, when used at a concentration of 3 x 10(-6) M, spantide [( D-Arg1, D-Trp7,9, Leu11]SP), an SP antagonist, competitively reduced the stimulatory effect of SP on accumulation of 3H-inositol phosphates. These results demonstrate the presence of functional SP receptors (NK1) on cortical astrocytes from the newborn mouse in primary culture.     

Ubiquitin-dependent down-regulation of the neurokinin-1 receptor

Transient stimulation with substance P (SP) induces endocytosis and recycling of the neurokinin-1 receptor (NK(1)R). The effects of sustained stimulation by high concentrations of SP on NK(1)R trafficking and Ca(2+) signaling, as may occur during chronic inflammation and pain, are unknown. Chronic exposure to SP (100 nm, 3 h) completely desensitized Ca(2+) signaling by wild-type NK(1)R (NK(1)Rwt). Resensitization occurred after 16 h, and cycloheximide prevented resensitization, implicating new receptor synthesis. Lysine ubiquitination of G-protein-coupled receptors is a signal for their trafficking and degradation. Lysine-deficient mutant receptors (NK(1)RDelta5K/R, C-terminal tail lysines; and NK(1)RDelta10K/R, all intracellular lysines) were expressed at the plasma membrane and were functional because they responded to SP by endocytosis and by mobilization of Ca(2+) ions. SP desensitized NK(1)Rwt, NK(1)RDelta5K/R, and NK(1)RDelta10K/R. However, NK(1)RDelta5K/R and NK(1)RDelta10K/R resensitized 4-8-fold faster than NK(1)Rwt by cycloheximide-independent mechanisms. NK(1)RDelta325 (a naturally occurring truncated variant) showed incomplete desensitization, followed by a marked sensitization of signaling. Upon labeling receptors in living cells using antibodies to extracellular epitopes, we observed that SP induced endocytosis of NK(1)Rwt, NK(1)RDelta5K/R, and NK(1)RDelta10K/R. After 4 h in SP-free medium, NK(1)RDelta5K/R and NK(1)RDelta10K/R recycled to the plasma membrane, whereas NK(1)Rwt remained internalized. SP induced ubiquitination of NK(1)Rwt and NK(1)RDelta5K/R as determined by immunoprecipitation under nondenaturing and denaturing conditions and detected with antibodies for mono- and polyubiquitin. NK(1)RDelta10K/R was not ubiquitinated. Whereas SP induced degradation of NK(1)Rwt, NK(1)RDelta5K/R and NK(1)RDelta10K/R showed approximately 50% diminished degradation. Thus, chronic stimulation with SP induces ubiquitination of the NK(1)R, which mediates its degradation and down-regulation.     

生物肽SP对NK细胞活化性受体NCRs表达的影响

研究SP对NK92-MI细胞杀伤活性以及活化性受体NCRs(NKp46、NKp44和NKp30分子)的表达的影响,揭示SP对NK细胞杀伤功能的调节作用及其内在作用机制.MTT法测定NK92-MI细胞对K562细胞的杀伤活性;Real-Time PCR检测NCRs的mRNA表达;流式细胞术检测NCRs的膜表达.在10-14～10-8 mol/L浓度范围的SP作用24h,对NK92-MI细胞的杀伤活性有明显增强作用;10-14～10-8 mol/L的SP,均可增加NK92-MI细胞活化性受体NKp44、NKp46及NKp30的mRNA表达;该浓度范围的SP均可增加NKp46的膜表达水平,仅较低浓度( 10-14moL/L)的SP对NKp44的膜表达水平有增加作用,各浓度的SP对NKp30的膜表达水平均无明显影响.SP可通过上调活化性受体NCRs的表达水平来调节NK细胞的活性.     

Tachykinin receptors mediating airway macromolecular secretion.

Three tachykinin receptor types, termed NK1, NK2, and NK3, can be distinguished by the relative potency of various peptides in eliciting tissue responses. Airway macromolecular secretion is stimulated by the tachykinin substance P (SP). The purposes of this study were to determine the tachykinin receptor subtype responsible for this stimulation, and to examine the possible involvement of other neurotransmitters in mediating this effect. Ferret tracheal explants maintained in organ culture were labeled with 3H-glucosamine, a precursor of high molecular weight glycoconjugates (HMWG) which are released by airway secretory cells. Secretion of labeled HMWG then was determined in the absence and presence of the tachykinins SP, neurokinin A (NKA), neurokinin B (NKB), physalaemin (PHY), and eledoisin (ELE). All the tachykinins tested stimulated HMWG release to an approximately equal degree. Stimulation was concentration-related, with log concentrations giving half-maximal effects (EC50) as follows: SP -9.47, NKA -7.37, NKB -5.98, PHY -8.08, and ELE -7.68. This rank order of potency (SP greater than PHY greater than or equal to ELE greater than or equal to NKA greater than NKB) is most consistent with NK1 receptors. To evaluate the possible contribution of other mediators, tachykinin stimulation was examined in the presence of several receptor blockers. The potency of SP was not diminished by pretreatment with atropine, propranolol, or chlorpheniramine, and atropine actually increased the magnitude of the secretory response. The SP receptor antagonist [D-Arg1,D-Phe5, D-Trp7,9, Leu11]-SP blocked SP-induced secretion. These findings indicate that SP is a potent stimulus of airway macromolecular secretion. This effect occurs through the action of NK1 receptors, and is not dependent upon cholinergic, beta-adrenergic, or H-1 histamine receptors. The facilitation by atropine of SP stimulation suggests the existence of a mechanism of cholinergic inhibition of SP-induced stimulation.     

P物质对大鼠骶髓后连合核神经元甘氨酸激活的氯电流的调控

采用制霉菌素穿孔膜片箍技术,研究了Ｐ物质对急性分离的大鼠骶髓后的核神经元士的宁敏感性甘氨酸反应的调控作用。在箍制电压为－４０ｍＶ时,ＳＰ时１ｍｍｏｌ／Ｌ－１μｍｏｌ／Ｌ之间呈浓度依赖性地增强３０μｍｏｌ／Ｌ甘氨酸激活的氯电流。ＳＰ既不改变ＩＧｌｙ的翻转电位,也不是影响Ｇｌｙ与其受体的亲和力。Ｓｐａｎｔｉｄｅ和选择性Ｎ中受体拮抗剂,Ｌ－６６８,１６９,可阻断ＳＰ的增强作用,而选择性ＮＫ２受体拮抗剂,     

Characterisation of substance P-induced endocytosis of NK1 receptors on enteric neurons

Immunoreactivity for NK1 receptors is confined to specific nerve cell bodies in the guinea-pig ileum, including inhibitory motor neurons and secretomotor neurons. In the present work, endocytosis of NK1 receptors in these enteric neurons was studied following addition of substance P (SP) to isolated ileum. NK1 receptors were localised with antibodies against the C-terminus of this receptor. Some preparations were incubated with SP tagged with the fluorescent label, Cy3.18, so that the fate of SP bound to receptors could be followed. Preparations were analysed by confocal microcopy. In tissue that was incubated at 4° C in the absence of SP, most NK1 receptor immunoreactivity (IR) was confined to surface membranes of nerve cells. At 37° C in the presence of 10⁻⁷ M SP (plus 3×10⁻⁷M tetrodotoxin to prevent indirect activation via other neurons) the neuronal NK1 receptor was rapidly internalised. After 5 min, NK1 receptor IR was partially internalised, at 20 min NK1 receptor IR was throughout the cytoplasm and in perinuclear aggregates and at 30 min it was again at the cell surface. SP-induced NK1 receptor endocytosis was inhibited by the specific NK1 receptor antagonist, SR140333. Cy3-SP was colocalised with NK1 receptor IR and was internalised with the NK1 receptor. These results show that enteric neurons exhibit authentic NK1 receptors that are rapidly internalised when exposed to their preferred ligand.     

N-terminal substance P fragments inhibit the spinally induced, NK 1 receptor mediated behavioural responses in mice.

N-terminal fragments of substance P (SP) were tested for antagonism against the aversive responses induced in mice by various tachykinin receptor agonists, somatostatin and bombesin. When co-administered with SP intrathecally, low doses (1.0-4.0 pmol) of SP (1-7) or SP (1-8) reduced the SP-induced behavioural responses of scratching, biting and licking. Aversive responses induced by two other neurokinin (NK) 1 receptor agonists, Septide and physalaemin, were also dose-dependently decreased by the simultaneous injection of small doses of SP (1-7) or SP (1-8). Aversive responses induced by 400 pmol of NK A were also significantly reduced by co-administration of SP (1-7) or SP (1-8). No significant effects of the N-terminal fragments were observed against the aversive responses elicited by NK A (300 pmol), eledoisin, NK B, somatostatin or bombesin. These results suggest that the behavioural antagonism produced by SP (1-7) and SP (1-8) may be limited to the NK 1 receptor at the spinal level in mice.     

Activation of neurokinin-1 receptors up-regulates substance P and neurokinin-1 receptor expression in murine pancreatic acinar cells

Acute pancreatitis (AP) has been associated with an up-regulation of substance P (SP) and neurokinin-1 receptor (NK1R) in the pancreas. Increased SP-NK1R interaction was suggested to be pro-inflammatory during AP. Previously, we showed that caerulein treatment increased SP/NK1R expression in mouse pancreatic acinar cells, but the effect of SP treatment was not evaluated. Pancreatic acinar cells were obtained from pancreas of male swiss mice (25–30 g). We measured mRNA expression of preprotachykinin-A (PPTA) and NK1R following treatment of SP (10⁻⁶M). SP treatment increased PPTA and NK1R expression in isolated pancreatic acinar cells, which was abolished by pretreatment of a selective NK1R antagonist, CP96,345. SP also time dependently increased protein expression of NK1R. Treatment of cells with a specific NK1R agonist, GR73,632, up-regulated SP protein levels in the cells. Using previously established concentrations, pre-treatment of pancreatic acinar cells with Gö6976 (10 nM), rottlerin (5 μM), PD98059 (30 μM), SP600125 (30 μM) or Bay11-7082 (30 μM) significantly inhibited up-regulation of SP and NK1R. These observations suggested that the PKC-ERK/JNK-NF-κB pathway is necessary for the modulation of expression levels. In comparison, pre-treatment of CP96,345 reversed gene expression in SP-induced cells, but not in caerulein-treated cells. Overall, the findings in this study suggested a possible auto-regulatory mechanism of SP/NK1R expression in mouse pancreatic acinar cells, via activation of NK1R. Elevated SP levels during AP might increase the occurrence of a positive feedback loop that contributes to abnormally high expression of SP and NK1R.