Stimulation of brain adenylate cyclase activity by the undecapeptide substance P and its modulation by the calcium ion

Synthetic substance P stimulated adenylate cyclase activity in particulate preparations from rat and human brain.The concentration of substance P for half maximal stimulation in rat brain was 1.8 · 10⁻⁷ M.The stimulatory effect of substance P on the rat brain adenylate cyclase activity was 88% compared with 48% by noradrenalin, 163% by prostaglandin E₁ and 184% by prostaglandin E₂.Both the basal and substance P-stimulated adenylate cyclase activity in rat brain were inhibited by concentration of Ca²⁺ above 10⁻⁶ M.The chelating agent ethyleneglycol-bis-(β-aminoethylether)-N,N′-tetraacetic acid at a concentration of 0.1 mM reduced the basal adenylate cyclase activity by 64% and eliminated the substance P-stimulated activity.The inhibition by ethyleneglycol-bis-(β-aminoethylether)-N,N′-tetraacetic acid was completely reversed by increasing concentrations of Ca²⁺.     

Salivary secretion induced by substance P

Secretion of fluid, ions, and amylase from parotid and submaxillary glands of rat, induced by intravenous injection of substance P (SP), was examined. The action of SP on salivary glands, like physalaemin, resembled that of cholinergic stimulation. While SP-evoked salivary flow from both glands was blocked by atropine, atropine did not modify composition of SP-evoked saliva. The present study suggests that salivary secretion and secretion of ions and amylase evoked by SP are mediated via SP-sensitive cholinergic receptors and specific SP receptors, respectively.     

Inflammatory responses induced by substance P in rat paw.

Substance P (SP) injection in the plantar region of rat hind paw caused a dose related inflammation, which reached a peak within 10 min of injection and declined after 60 min. Low doses (0.25-0.063 mg/kg) of SP-antagonists like (D-Pro2, D-Trp7,9)-SP and (D-Pro2, D-Phe7, D-Trp9)-SP pretreatment significantly inhibited the SP induced paw oedema, while higher doses (0.5-1 mg/kg) showed agonistic effects. Pretreatment with diphenhydramine alone or along with low doses of SP-antagonists was highly significant in blocking this inflammation, the latter combination being more effective than the former. Pretreatment with acute capsaicin produced a synergestic effect on SP induced paw oedema, while pretreatment with chronic capsaicin significantly inhibited this SP induced paw oedema. The results indicate involvement of histamine and possible therapeutic importance of capsaicin in SP mediated inflammatory type of responses.     

Synaptic P2X receptors

Over the past two years, ATP has clearly been shown to act as a co-transmitter with GABA, glycine and probably glutamate in the central nervous system. Our understanding of the ATP-gated P2X receptors is progressing rapidly, and the pharmacology, stoichiometry and subunit combinations of heteropolymeric P2X channels has been substantially elucidated.     

N-terminally extended substance P is released together with substance P from rat spinal cord.

The release of different forms of substance P-like immunoreactivity (SP-LI) from superfused slices of rat spinal cord was studied. The released SP-LI was characterized by reverse-phase high-performance liquid chromatography and radioimmunoassay with two antisera directed to the C- and N-terminal parts of SP, respectively. The SP-LI detected in the superfusates with the C-terminally directed antiserum was found to consist of (undeca) SP, SP-sulfoxide and a late eluting component which was not detectable with the N-terminally directed antiserum. This component was also found in neutral extracts of the spinal cord. Upon trypsin digestion, it produced SP-LI detectable with both C- and N-terminally directed antiserum which also coeluted with SP. From these results we conclude that this form of SP-LI most likely corresponds to an N-terminally extended form of SP. An increase of the potassium concentration in the superfusion fluid from 5 to 50 mM evoked an increased overflow of both SP and the N-terminally extended SP. The present results indicate that N-terminally extended SP is released by a calcium-dependent mechanism together with SP from terminals in the spinal cord in response to potassium stimulation.     

Properties of substance P aggregates. Application to the synthesis and purification of substance P

By 1H-NMR spectroscopy it has been shown that Substance P is largely aggregated at basic and acid pH and in saline solutions. These SP polymers dissociate rapidly by addition of pyridine and acetonitrile and slowly by addition of methanol. The difficulties previously encountered in the purification of SP and SP analogs may be attributed to this aggregation and can be overcome under disaggregating conditions. As a first application of our study we propose a reliable method for obtaining SP with good yield.     

Photoaffinity labeling the substance P receptor using a derivative of substance P containing p-benzoylphenylalanine.

A novel photoreactive substance P (SP) analogue has been synthesized by solid-phase peptide synthesis methodology to incorporate the amino acid p-benzoyl-L-phenylalanine [L-Phe(pBz)] in place of the Phe8 residue of SP. [Phe8(pBz)]SP was equipotent with SP in competing for SP binding sites on rat submaxillary gland membranes and had potent sialagogic activity in vivo. In the absence of light, the 125I-labeled Bolton-Hunter conjugate of [Phe8(pBz)]SP bound in a saturable and reversible manner to an apparently homogeneous class of binding sites (Bmax = 0.2 pmol/mg of membrane protein) with an affinity KD = 0.4 nM. The binding of 125I-[Phe8(pBz)]SP was inhibited competitively by various tachykinin peptides and analogues with the appropriate specificity for SP/NK-1 receptors. Upon photolysis, up to 70% of the specifically bound 125I-[Phe8(pBz)]SP underwent covalent linkage to two polypeptides of Mr = 53,000 and 46,000, identified by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and autoradiography. Quantitative analysis of the inhibitory effects of SP and related peptides on 125I-[Phe8(pBz)]SP photoincorporation indicated that the binding sites of the two photolabeled polypeptides have the same peptide specificity, namely, that typical of NK-1-type SP receptors. In addition, the labeling of the two polypeptides was equally sensitive to inhibition by guanyl-5'-yl imidodiphosphate, a nonhydrolyzable analogue of GTP. Further information on the relationship between the two labeled SP binding sites was provided by enzymatic digestion studies: the Mr = 46,000 polypeptide contains N-linked carbohydrates and is derived most likely from the higher molecular weight species by proteolytic nicking.(ABSTRACT TRUNCATED AT 250 WORDS)     

Autoradiographic localization of substance P receptors using I substance P

This paper describes a method for localization of substance P receptors in the rat central nervous system using ¹²⁵I labeled substance P in an autoradiographic procedure. Particularly high densities of substance P receptors were observed in the olfactory bulb, dentate gyrus, amygdala, superior colliculus, and locus coeruleus. Surprisingly low densities of substance P receptors were found in the substantia nigra pars reticulata, a region which contains high concentrations of substance P.     

Opioid modulation of capsaicin-evoked release of substance P from rat spinal cord in vivo

Capsaicin has been shown to evoke the release of substance P (SP) from small diameter primary afferent fibers. Using an in vivo perfusion of the rat spinal cord, this study examined the pharmacology of opioid receptor systems which modulate the capsaicin-evoked release of SP. The addition of capsaicin (200 μM) to the perfusate raised SP-like immunoreactivity (SP-LI) from resting levels of 31±5 to 74±14 pg/ml or an increase of 139% above the baseline. Using high pressure liquid chromatography (HPLC) the identity of the released SP-LI was determined to coelute primarily with authentic SP or the oxidized form of SP. Opioid receptor agonists were added to the perfusate and their ability to inhibit capsaicin-evoked release of SP-LI was assessed. Morphine (10–100 μM), DAGO (1–100 μM), DPLPE (10–100 μM), but not U50488H (100 μM) produced a dose-dependent reduction in the capsaicin-evoked release of SP-LI. Pretreatment with the opioid receptor antagonist naloxone (1 mg/kg, IP) had no effect on the basal or capsaicin-evoked release of SP-LI. Naloxone pretreatment was able to antagonize completely the opioid-produced inhibition of capsaicin-evoked SP-LI release. These data indicate that the release of SP from primary afferent fibers can be modulated by the activation of mu or delta but not kappa opioid receptors. Further, these data support the hypothesis that spinally administered mu and delta opioid agonists may produce their antinociceptive effect through the presynaptic inhibition of neuropeptide release from small diameter primary afferent fibers.     

Human lymphocytes lack substance P receptors.

Substance P (SP), a neuropeptide found in high concentrations in the gut, is reported to have many potent immunomodulatory actions. This study evaluated some effects of SP on human peripheral blood lymphocytes (PBL) and jejunal intraepithelial lymphocytes (IEL) and the expression of SP receptors on these and other lymphocytes types. In contrast to previous studies, SP (10(-8) or 10(-12) M) did not affect the proliferation (spontaneous or mitogen-induced) nor spontaneous cytotoxicity by PBL or IEL. To determine whether this unresponsiveness was due to an absence of SP receptors, the SP binding potential of these and other human lymphocyte types was determined by Scatchard analysis of radioligand binding. The IM-9 B lymphoblastoid cell line, used as a positive control, demonstrated 4838 +/- 603 or 3131 +/- 832 receptors per cell, with a Kd of 0.21 +/- 0.01 or 0.18 +/- 0.09 nM, using [3H]SP or 125I-SP, respectively. No receptors were found on PBL, polymorphonuclear leukocytes, splenocytes, IEL, or jejunal lamina propria lymphocytes using either radioligand. These findings dispute the presence of large numbers of SP receptors on lymphocytes in peripheral blood, spleen, or intestinal mucosa, and argue against any major effect of SP on T cell proliferation or spontaneous cytotoxicity.     

Morphine-like substance in leech ganglia. Evidence and immune modulation.

Binding experiments followed by measurement of nitric oxide release revealed an opiate alkaloid high affinity receptor with no affinity to opioids, representing a new mu-subtype receptor in the brain of the leech Theromyzon tessulatum. In addition, evidence of morphine-like substances was found in immunocytochemical studies and HPLC coupled to electrochemical detection (500 mV and 0.02 Hz). Based on previous evidence of the involvement of morphine as an immune response inhibitor, we demonstrate that in leech ganglia injection of lipopolysaccharide (LPS; a potent immunostimulatory agent derived from bacteria) provoked an increase in the level of ganglionic morphine-like substances after a prolonged latency period of 24 h (from 2.4 +/- 1.1 pmol per ganglion to 78 +/- 12.3 pmol per ganglion; P < 0.005; LPS injected 1 microg x mL-1); this effect is both concentration- and time-dependent. Finally, we have demonstrated that morphine, after binding to its own receptor, inhibits leech immunocyte activation through adenylate cyclase inhibition and nitric oxide release. This report confirms that morphine is an evolutionarily stable potent immunomodulator.     

Mechanisms of depletion of substance P by capsaicin

Capsaicin is a neurotoxin that can deplete sensory nerves of their content of substance P and interfere with certain sensory functions, such as responses of animals to noxious heat stimuli. In adult guinea pigs, a species that is susceptible to the effects of capsaicin on both substance P content and sensory function, capsaicin induces selective depletion of substance P from dorsal root ganglia and the dorsal spinal cord, sites of the cell bodies and central terminals of primary afferent neurons, respectively. As the onset of thermal analgesia in guinea pigs precedes depletion of substance P, direct neural actions of capsaicin probably account for its effects on sensory function. Capsaicin interferes with the retrograde transport of nerve growth factor (NGF) to the cell bodies of sensory nerves. Decreased availability of NGF at the site of neural protein synthesis leads to decreased synthesis of substance P. After failure of synthesis of substance P, the content of the peptide in sensory nerves gradually decreases until depletion occurs.     

Catabolism of calcitonin gene-related peptide and substance P by neutral endopeptidase.

Calcitonin gene-related peptide (CGRP) and substance P (SP) are released from sensory nerves upon exposure to irritating stimuli. Neutral endopeptidase (NEP), a membrane-bound peptidase, cleaves many peptides including SP, thereby limiting their biological actions. Recombinant NEP cleaved CGRP1 approximately 88-fold less rapidly than it cleaved SP. The slow cleavage by NEP of CGRP compared to SP suggests that this enzyme is likely to have weaker physiologic effects on CGRP than have been demonstrated for SP.     

Synaptic modulation by a Drosophila neuropeptide is motor neuron-specific and requires CaMKII activity

The Drosophila FMRFamide-related peptide, DPKQDFMRFamide modulates synaptic transmission at the larval neuromuscular junction. The amplitude of excitatory junctional potentials (EJPs) produced by the selective stimulation of motor neuron MN6/7-Ib increases following application of 1 microM DPKQDFMRFamide. EJPs elicited by stimulating motor neuron MNSNb/d-Is, however, exhibit no significant increase with the same concentration of neuropeptide. The mechanisms underlying the modulatory effects of DPKQDFMRFamide were examined using a combination of pharmacological and genetic methods. Three independent lines of evidence implicate CaMKII as an essential effector protein or part of the signal transduction pathway. The effect of the neuropeptide is suppressed by 1 microM KN-93 (CaMKII inhibitor) and by heat-shock induced expression of a CaMKII inhibitor. A heterozygous CaM kinase mutant responds poorly to the peptide.     

The amino acid sequence of bovine hypothalamic substance P. Identity to substance P from colliculi and small intestine.

Bovine substance P has been isolated in pure form from hypothalamic fragments and its complete amino acid sequence determined by studies performed on the intact peptide and on its isolated papain-generated fragments. Direct evidence for the positioning of each residue was obtained, amide assignments were unequivocally established, and the COOH-terminal residue was isolated and identified as Met-NH2. The results of total enzymic digestion performed on each of the peptides obtained argue against the presence of any non-amino acid constituents in the molecule. The amino acid sequence obtained is identical with that previously reported for material isolated form bovine colliculi and from equine small intestine.     

Role of substance P in water homeostasis.

The effect of the naturally occurring peptide substance P on release of antidiuretic hormone (ADH) was studied in anesthetized dogs. Intravenous infusions of substance P in doses of 0.5, 5.0, and 50 ng/kg/min increased plasma concentrations of ADH in a dose-related fashion. At the two low doses, this increase occured in the absence of changes in urine volume, sodium excretion, free water clearance, and urinary cyclic AMP excretion. In addition, when substance P was administered in a concentration of 0.5 ng/kg/min, plasma levels of ADH were increased even though blood pressure did not change, suggesting that substance P may release antidiuretic hormone by a direct mechanism. Intrarenal infusions at a rate of 0.5 and 5 ng/kg/min caused dose-related decreases in free water clearance and significant increases in urinary cyclic AMP excretion. These data suggest that substabce P may play an important role in the regulation of water balance.     

Synthesis of a potent agonist of substance P by modifying the methionyl and glutaminyl residues of the C-terminal hexapeptide of substance P. Structure-activity relationships.

Analogues of [Orn6]-SP6-11 have been synthesized in which the Met11 residue is replaced by glutamate gamma-alkylesters. These analogues were tested in three in vitro preparations representative of NK-1, NK-2, and NK-3 receptor types. Substitution of the SCH3 group of the Met11 side chain by a COOR (R = methyl, ethyl, n-propyl, n-butyl, cyclohexyl) group results in analogues which are full agonists in NK-1 and NK-2 preparations but show little agonist activity in the NK-3 preparation. When the SCH3 group is replaced by a t-butyl ester group and the resulting analogue is a full agonist in all the above preparations and more active than the parent hexapeptide and SP-OCH3 at NK-1 receptors. It is concluded that for activity at NK-1 receptors methionine can be replaced by gamma-t-butyl glutamate without loss of activity, whilst at NK-2 and NK-3 receptors the above substitution increases the activity of [Orn6]-SP6-11. Other gamma-alkyl esters of the glutamic acid reduce its biological activity.     

Synaptic information processing by astrocytes.

Glial cells were classically considered as supportive cells that do not contribute to information processing in the nervous system. However, considerable amount of evidence obtained by several groups during the last few years has demonstrated the existence of a bidirectional communication between astrocytes and neurons, which prompted a re-examination of the role of glial cells in the physiology of the nervous system. This review will discuss recent advances in the neuron-to-astrocyte communication, focusing on the recently reported properties of the synaptically evoked astrocyte Ca2+ signal that indicate that astrocytes show integrative properties for synaptic information processing. Indeed, we have recently shown that hippocampal astrocytes discriminate between the activity of different synapses, and respond selectively to different axon pathways. Furthermore, the astrocyte Ca2+ signal is modulated by the simultaneous activity of different synaptic inputs. This Ca2+ signal modulation depends on cellular intrinsic properties of the astrocytes, is bidirectionally regulated by the level of synaptic activity, and controls the spatial extension of the intracellular Ca2+ signal. Consequently, we propose that astrocytes can be considered as cellular elements involved in information processing by the nervous system.     

Molecular cloning of the murine substance K and substance P receptor genes.

The peptides substance K and substance P evoke a variety of biological responses via distinct, guanosine-nucleotide-binding-regulatory-protein-coupled receptors. We have screened a murine genomic cosmid library using oligonucleotide probes and have isolated, cloned and characterized the substance K receptor and the substance P receptor genes. The coding portion of the substance K receptor gene consists of five exons distributed over 13 kbp. The substance P receptor gene is considerably larger than that of substance K (more than 30 kbp), however, the boundaries of the four exons that have been characterized in the substance P receptor gene correspond exactly to the homologous exons in the substance K receptor gene. To verify the identity of the isolated genes, we have cloned the corresponding cDNA by means of the polymerase chain reaction and we have expressed these cDNA species in Xenopus laevis oocytes. The ligand binding characteristics determined in this system pharmacologically confirm the identity of the two receptors. The deduced amino acid sequence of the mouse substance K receptor is 94% identical to the rat sequence and 85% identical to the bovine and human sequences. The mouse substance P receptor amino acid sequence is 99% identical to the rat sequence. The cloning of the murine substance K and substance P receptor genes should contribute substantially to the generation of in vivo models for the detailed analysis of the functional significance of these receptors.