Inhibition of substance P activity prevents stress-induced bladder damage

Substance P is a neuropeptide involved in inflammation, immune regulation and stress response. Stress may induce bladder damage by stimulating inflammatory response such as mast cell activation. We here examined the role substance P during stress-induced mast cell degranulation and urothelial injury in rat bladder. Adult Sprague-Dawley rats (200-270 g) were either exposed to cold-immobilization stress or substance P (SP) intracerebroventricularly. Different doses of substance P receptor (NK1R) antagonist CP 99994 were administered peripherally or centrally before the stress exposure. From each group, samples of the bladder were examined with light and electron microscope. Stress- and SP-injected centrally, increased the number of both granulated and degranulated mast cells. Ultrastructurally, urothelial degeneration with vacuolization in the cytoplasm and dilated intercellular spaces were seen. Both central and peripheral injection of CP 99994 prevented stress-induced urothelial degeneration as well as stress-induced mast cell degranulation. In conclusion, centrally and peripherally released substance P is involved in stress-induced bladder damage. Inhibition of NK1R prevents stress-induced pathological changes of urinary bladder and NK1R antagonist can be considered for the treatment of inflammatory bladder diseases.     

Endomorphin-1 and endomorphin-2 differentially interact with specific binding sites for substance P (SP) aminoterminal SP1-7 in the rat spinal cord

Endomorphin-1 (EM-1) and endomorphin-2 (EM-2) represent two opioid active tetrapeptides with high affinity and selectivity for the mu-opioid (MOP) receptor. Both EM-1 and EM-2 exhibit strong inhibition of pain signals in the central nervous system (CNS). In contrast to these compounds, the undecapeptide substance P (SP) facilitates pain influx in the CNS. SP has been implicated in a number of functions in the central nervous system, including pain processing and reward. Its aminoterminal fragment SP1-7 has been shown to modulate several actions of SP in the CNS, the nociceptive effect included. Although the actions of SP1-7 have been known for long no specific receptor for the SP fragment has yet been cloned. In this study, we demonstrate the presence of specific binding sites for the heptapeptide in the rat spinal cord. The binding affinity for unlabeled SP1-7 to the specific sites for the labeled heptapeptide highly exceeded those of SP and other C- or N-terminal fragments thereof. The NK-1, NK-2 and NK-3 receptor ligands [Sar9, Met(O2)11]SP, R396 and senktide, respectively, showed no or negligible binding. Moreover, both EM-1 and EM-2 were found to interact with SP1-7 binding. However, a significant difference in binding affinity between the two opioid active tetrapeptides was observed. As recorded from replacement curves the affinity of EM-2 was 10 times weaker than that for SP1-7 but about 100 times higher than that of EM-1. Among other Tyr-Pro-containing peptides Tyr-MIF-1 but not Tyr-W-MIF-1 exhibited affinity of similar potency as EM-2. These results strengthen the previously observed differences between EM-1 and EM-2 in various functional studies. Moreover, using a cell line (C6) expressing the MOP receptor it was shown that the labeled SP1-7 did not interact with binding to this receptor and no functional response was seen for the SP heptapeptide on the MOP receptor by means of stimulation in the GTPgammaS assay. This suggests that the identified SP1-7 binding sites, with high affinity also for EM-2, are not identical to the MOP receptor and apparently not to any of the known tachykinin receptors.     

The neuropeptide substance P is a critical mediator of burn-induced acute lung injury

The classical tachykinin substance P (SP) has numerous potent neuroimmunomodulatory effects on all kinds of airway functions. Belonging to a class of neuromediators targeting not only residential cells but also inflammatory cells, studying SP provides important information on the bidirectional linkage between how neural function affects inflammatory events and, in turn, how inflammatory responses alter neural activity. Therefore, this study aimed to investigate the effect of local burn injury on inducing distant organ pulmonary SP release and its relevance to lung injury. Our results show that burn injury in male BALB/c mice subjected to 30% total body surface area full thickness burn augments significant production of SP, preprotachykinin-A gene expression, which encodes for SP, and biological activity of SP-neurokinin-1 receptor (NK1R) signaling. Furthermore, the enhanced SP-NK1R response correlates with exacerbated lung damage after burn as evidenced by increased microvascular permeability, edema, and neutrophil accumulation. The development of heightened inflammation and lung damage was observed along with increased proinflammatory IL-1beta, TNF-alpha, and IL-6 mRNA and protein production after injury in lung. Chemokines MIP-2 and MIP-1alpha were markedly increased, suggesting the active role of SP-induced chemoattractants production in trafficking inflammatory cells. More importantly, administration of L703606, a specific NK1R antagonist, 1 h before burn injury significantly disrupted the SP-NK1R signaling and reversed pulmonary inflammation and injury. The present findings show for the first time the role of SP in contributing to exaggerated pulmonary inflammatory damage after burn injury via activation of NK1R signaling.     

Delay of neutrophil apoptosis by the neuropeptide substance P: involvement of caspase cascade

Neutrophil apoptosis is an important event in the resolution of inflammation. The role of substance P (SP) in neutrophil apoptosis has not been previously investigated. We found that substance P delays apoptosis in neutrophils. Human neutrophils were isolated and cultured up to 24 hours. Apoptosis was detected by light and electron microscopy, as well as DNA-fragmentation assays. Substance P delayed the spontaneous apoptosis of neutrophils at 6, 12, 18 and 24 hours in a dose-dependent fashion in the range of 10-100 microM. Whereas the both peptide neurokinin-1 (NK-1) receptor antagonists [D-Pro(2), D-Trp(7,9)]-SP and GR 82334 inhibited the substance P effect on neutrophils, the nonpeptide NK(1) receptor antagonist L-703.606 itself, an analogue of CP-96,345, induced apoptosis of neutrophils. Surprisingly, the effect of L-703.606 could be prevented by substance P. Western blotting results showed that the neuropeptide substance P inhibited the spontaneous apoptosis-associated caspase-3 activation in the same concentration range as described above. Parallel the inhibition of cleavage of focal adhesion kinase (FAK), a substrate of caspases could be observed by substance P. In conclusion, our results extend the range of biological effects of the neuropeptide substance P and provide new insight to the role of this tachykinin in the modulation of the inflammatory response by the nervous system.     

Involvement of substance P and the NK-1 receptor in human pathology

The peptide substance P (SP) shows a widespread distribution in both the central and peripheral nervous systems, but it is also present in cells not belonging to the nervous system (immune cells, liver, lung, placenta, etc.). SP is located in all body fluids, such as blood, cerebrospinal fluid, breast milk, etc. i.e. it is ubiquitous in human body. After binding to the neurokinin-1 (NK-1) receptor, SP regulates many pathophysiological functions in the central nervous system, such as emotional behavior, stress, depression, anxiety, emesis, vomiting, migraine, alcohol addiction, seizures and neurodegeneration. SP has been also implicated in pain, inflammation, hepatitis, hepatotoxicity, cholestasis, pruritus, myocarditis, bronchiolitis, abortus, bacteria and viral infection (e.g., HIV infection) and it plays an important role in cancer (e.g., tumor cell proliferation, antiapoptotic effects in tumor cells, angiogenesis, migration of tumor cells for invasion, infiltration and metastasis). This means that the SP/NK-1 receptor system is involved in the molecular bases of many human pathologies. Thus, knowledge of this system is the key for a better understanding and hence a better management of many human diseases. In this review, we update the involvement of the SP/NK-1 receptor system in the physiopathology of the above-mentioned pathologies and we suggest valuable future therapeutic interventions involving the use of NK-1 receptor antagonists, particularly in the treatment of emesis, depression, cancer, neural degeneration, inflammatory bowel disease, viral infection and pruritus, in which that system is upregulated.     

Use of substance P fragments to differentiate substance P receptors of different tissues

The C- and N-terminal fragments of substance P were compared to the parent molecule with respect to their ability to: (a) contract the isolated guinea pig ileum, (b) induce salivation in the rat, (c) excite single cat dorsal horn neurones, and (d) induce scratching by intracranial injections in mice. C-terminal fragments as small as the heptapeptide were potent SP agonists on all assay systems. C-terminal fragments containing five amino acids or less were, at most, only weakly active. The C-terminal hexapeptide was a potent SP receptor stimulant on the isolated guinea pig ileum and, when directly applied by microiontophoresis, on cat dorsal horn neurons. However, the same compound was only 2-5% as potent as substance P in eliciting salivation and scratching in vivo, an indication that this fragment may be especially labile to enzymatic degradation. N-terminal fragments were totally inactive on the isolated guinea pig ileum. On the rat salivation and central nervous system assays, however, N-terminal fragments were capable of weak SP-like activity. It is concluded that SP receptors exist in multiple forms which we have labelled SP1 and SP2 receptors for those insensitive or sensitive to N-terminal fragments, respectively.     

The effect of substance P (SP) and SP partial sequences on nerve fiber growth in tissue culture

Explants of the ganglion trigeminale (PNS) and of the telencephalon (CNS) from chick embryos were cultivated in MAXIMOW chambers in semisynthetic media in the presence of dipeptide fragments (Lys(Z)-Pro . HCl, Lys-Pro-2HBr, Arg-Pro-2HCl) and the heptapeptide (SP5-11) of substance P as well as the complete substance P (SP1-11). 1. Histological examination of the dipeptide-treated CNS explants indicates that the structure of outgrowth in vitro is changed. Fascicel were observed. A stimulation of nerve fibre extension did not take place. 2.1. In dipeptide-treated PNS cultures the index of areas covered by the explants increased. 2.2. The index of nerve fibre growth increased significantly. The stimulation was caused in multiplication of fibres. Only Lys(Z)-Pro . HCl presents a prolongation of neurites. 2.3. SP5-11 effects in no case the growth of nerve fibres. SP1-11 stimulated significantly the fibre regeneration. 3. The possible role of SP1-11 with different effects under in vitro conditions is discussed. Only the N-terminal dipeptides stimulate the growth of nerve fibres. The C-terminal SP5-11 is without effect. Finally it is stated that the best results in neuritic enlargement and neurogenesis can only be obtained by cultivation with SP1-11.     

Effect of substance P on nerve fiber regeneration in tissue culture

Explants of the ganglion trigeminale from chick embryos (PNS) and of the hippocampus from fetal rats (CNS) were cultivated in maximow chambers with growth medium or maintanance medium. Varied concentrations of substance P (SP . 3 CH3COOH . 4 H2O) were added. 1. The effect of substance P (SP) is related to concentration. In the presence of 10(-7)M SP in the growth medium and of 10(-4)M SP in the maintanance medium the cultivation of PNS cultures indicates positive results. These doses are suitable. 2. Within the first 24 hours in vitro SP stimulates the index of area in PNS cultures. The index of characterizes the relation of the outgrowth zone to the explant. In CNS cultures a significant difference of this effect was not observed. 3. The index of growth of nerve fibers may compare the test cultures with the control cultures. SP significantly increases the index of fiber growth in PNS cultures. A stimulation of CNS cultures was observed, significance was not found. 4. From the beginning of the cultivation with SP up to 48 hours in vitro the growth of nerve fibers significantly increases in the treated cultures in comparison with the control cultures. After this time the growth of nerve fibers decreased and a morphological conformity of test cultures and controls was observed. 5. The role of SP is discussed in specific activity on PNS tissue in vitro. The reactive neurons may be from the medio dorsal group of cells of the sensible ganglion.     

Morphological studies of the effect of substance P partial sequences on nerve tissue culture

Explants of the telencephalon and of the ganglion trigeminale from chick embryos were cultivated in the presence of 10(-7) M of substance P partial sequences SP 1-2 (Arg-Pro . 22HCl) and SP3-4 (Lys(Z)-Pro . HCl or Lys-Pro . 2HBr). The morphology of the living outgrowth in fact the growth of nerve fibers, cell migration and proliferation was observed. SP1-2 and SP3-4 influenced particularly the morphology of pns cultures.     

Role of substance P in hypercapnic excitation of carotid chemoreceptors

Experiments were performed on 17 anesthetized, paralyzed, and artificially ventilated cats to evaluate the importance of substance P-like peptide (SP) on the carotid body responses to CO2. Single or paucifiber carotid chemoreceptor activity was recorded from the peripheral end of the cut carotid sinus nerve. In eight of the cats the influence of SP on hyperoxic hypercapnic responses was studied. While the animals breathed 100% O2, intracarotid infusion of SP (1 microgram.kg-1.min-1, 3 min) increased chemoreceptor activity by +4.8 +/- 0.3 impulses/s. After SP infusion, inhalation of CO2 in O2 caused a rapid increase in activity that reached a peak and then adapted to a lower level, whereas similar levels of CO2 before SP caused only a gradual increase in carotid body discharge rate without any overshoot in response. Furthermore SP significantly increased the magnitude and slope of the CO2 response. In the other nine cats the effect of intracarotid infusion of an SP antagonist, [D-Pro2,D-Trp7,9] SP (10-15 micrograms.kg-1.min-1), on carotid body responses to 1) hyperoxic hypercapnia (7% CO2-93% O2), 2) isocapnic hypoxia (11% O2-89% N2), and 3) hypoxic hypercapnia (11% O2-7% CO2-82% N2) was examined. SP antagonist had no effect on carotid body response to hyperoxic hypercapnia but significantly attenuated the chemoreceptor excitation caused by isocapnic hypoxia and hypoxic hypercapnia. These results suggest that 1) SP may play an important role in carotid body responses to hypoxia but not to CO2, and 2) the mechanisms of stimulation of the carotid body by hypercapnia and by hypoxia differ.     

Implication of Substance P in myocardial contractile function during ischemia in rats

Evidence suggests that substance P (SP) participates in the pathology of acute myocardial ischemia and infarction but the profiles of the peptide in regulation of cardiac functions are still elusive. The aim of this study was to investigate the role of substance P in regulation of cardiac functions and its association with adrenergic mechanism in acute myocardial ischemia and infarction with rodent models. The experiments were carried out in Sprague-Dawley rats. SP and norepinephrine were significantly up-regulated in myocardium at 15min, 30min and 60min of coronary artery occlusion. Pretreatment of the rats with a specific antagonist of neurokinin-1 receptor, D-SP, significant increased+dp/dt and decreased -dp/dt, compared with the controls, pretreated with 0.9% saline. Pretreatment of the isolated CAO hearts with substance P (10(-7)mol/L) significantly increased left ventricular end diastolic pressure. SP producing no effects on cardiac functions when given alone to isolated (non-CAO) heart caused significant attenuation of the changes in the contractility and diastolic functions induced by norepinephrine, when given with norepinephrine. SP attenuated the increase in the activity of PKA provoked by norepinephrine in cultured myocytes. In conclusion, the findings may indicate SP regulates cardiac functions via modulation of adrenergic activity, through suppression of over-activation of PKA.     

A comparison of the anatomical distribution of substance P and substance P receptors in the rat central nervous system

A comparison of anatomical distributions of substance P (SP) and substance P receptors in the rat central nervous system was performed. SP was localized by microdissection and radioimmunoassay and SP fibers and cell bodies by immunohistochemistry. Receptors for ¹²⁵I-Bolton Hunter labelled SP (¹²⁵I-BH-SP) were characterized pharmacologically by a slice binding technique in sections that contained primarily striatum. The receptor was saturable and had an equilibrium dissociation constant (K_D) of 0.30 nM and maximum number of binding sites (B_max) of 37.8 fmol/mg protein. Pharmacological characterization using C terminal fragments and naturally occurring analogues of SP reflected characteristics of the receptor which had been shown previously in bioassays and biochemical assays. Comparison of distribution of SP fibers and cell bodies and SP receptors indicated that there is no consistent relationship between the amount of SP receptor and density of SP fibers or cell bodies in a given region of the brain.     

Natural killer cell functions mediated by the neuropeptide substance P

The neuropeptide substance P (SP) can modulate a number of immunological functions in vitro and in vivo. Here, we investigated if SP boosts migration and cytotoxicity of natural killer cells, thus providing a further link between "innate immunity" and neurogenic inflammatory processes like asthma bronchiale. We demonstrate a dose-dependent effect of SP on natural killer cell migration with a maximal response at 10(-8) M SP. SP was shown to stimulate unstimulated as well as interleukin-2 (IL-2)-activated natural killer cells. Stimulation of natural killer cell migration was neurokinin-1 receptor dependent. Furthermore, mRNA encoding the neurokinin-1 receptor was demonstrated as being present in natural killer cells using RT-PCR while mRNA of the neurokinin-2 receptor was not detectable. Additionally, SP seems to influence specific cytotoxicity against Raji and K567 effector cells by a receptor-independent mechanism. In conclusion, our data indicate that functionally active neurokinin-1 receptors can be expressed by human natural killer cells. Substance P might therefore be a novel link between neural structures and innate immunity.     

Functional and immunological responses of Jurkat lymphocytes transfected with the substance P receptor

1. We have transfected the rat substance P receptor (SPR) cDNA into the leukemic T-lymphocyte cell line Jurkat (J-wt) in order to study the effects of substance P (SP) on lymphocyte signaling mechanisms and the resultant neuropeptide-induced immunological changes. 2. The SPR cDNA was transfected into J-wt by the method of electroporation. Clones expressing SPRs were selected using a functional assay that measured SP-induced mobilization of intracellular Ca2+ ([Ca2+]i) in a fluorescence activated cell sorter (FACS) and by their expression of specific 125I-SP binding. 3. One clone, J-SPR, was identified and shown by Northern blot and 125I-SP saturation binding techniques to express the 2.2-kb SPR message and approximately 50,000 SPRs/cell with a Kd of 0.3 nM, respectively. Stimulation of J-SPR by SP resulted in the rapid mobilization of [Ca2+]i. This response was dose dependent in the range 10(-11)-10(-6) M SP and was maximal at 10(-7) M SP, with an EC50 of 0.3-0.5 nM SP. We further demonstrated that the SPR is rapidly desensitized following SP stimulation and by activation of the cell's T-cell receptor (TCR). Whole-cell patch-clamp experiments on J-SPR show that SP stimulation induces a Cl- current by a Ca2+ mediated process dependent on Ca2+/calmodulin-dependent protein kinase (CaMK). 4. Stimulation of J-SPR by SP results in changes in the cell surface expression of a number of molecules that play important roles in cell adhesion and activation: the expression of LFA-1 is decreased, and CD2 and IL-2 receptors are increased by 30 min, 6 hr, and 24 hr, respectively, following stimulation, as assessed by antibody staining in a FACS. 5. The expression of functional SPRs in Jurkat lymphocytes will not permit a detailed examination of how the activation of SPRs result in altered immune responses and further elucidate the role this neuropeptide receptor plays in inflammation.     

Hydrogen sulfide up-regulates substance P in polymicrobial sepsis-associated lung injury

Hydrogen sulfide (H2S) has been shown to induce the activation of neurogenic inflammation especially in normal airways and urinary bladder. However, whether endogenous H2S would regulate sepsis-associated lung inflammation via substance P (SP) and its receptors remains unknown. Therefore, the aim of the study was to investigate the effect of H2S on the pulmonary level of SP in cecal ligation and puncture (CLP)-induced sepsis and its relevance to lung injury. Male Swiss mice or male preprotachykinin-A gene knockout (PPT-A-/-) mice and their wild-type (PPT-A+/+) mice were subjected to CLP-induced sepsis. DL-propargylglycine (50 mg/kg i.p.), an inhibitor of H2S formation was administered either 1 h before or 1 h after the induction of sepsis, while NaHS, an H2S donor, was given at the same time as CLP. L703606, an inhibitor of the neurokinin-1 receptor was given 30 min before CLP. DL-propargylglycine pretreatment or posttreatment significantly decreased the PPT-A gene expression and the production of SP in lung whereas administration of NaHS resulted in a further rise in the pulmonary level of SP in sepsis. PPT-A gene deletion and pretreatment with L703606 prevented H2S from aggravating lung inflammation. In addition, septic mice genetically deficient in PPT-A gene or pretreated with L703606 did not exhibit further increase in lung permeability after injection of NaHS. The present findings show for the first time that in sepsis, H2S up-regulates the generation of SP, which contributes to lung inflammation and lung injury mainly via activation of the neurokinin-1 receptor.     

Exogenous administration of Substance P enhances wound healing in a novel skin-injury model

Soft tissue injury accounts for approximately 44% of all wounds in both the military and civilian populations. Following injury to soft tissue, Substance P (SP) and other neuropeptides are released by cutaneous neurons and modulate the function of immunocompetent and inflammatory cells, as well as epithelial and endothelial cells. The interaction between these components of the nervous system and multiple target cells affecting cutaneous repair is of increasing interest. In this report, we describe the effects of SP on wound repair in a novel, laser-induced, skin-wound model. Gross and histologic examination of laser-induced injury revealed that exogenously administered SP affects wound healing via neurite outgrowth, in addition to adhesion molecule and neurokinin-1 receptor involvement in vivo. All SP effects were decreased by pretreatment with Spantide II, an SP antagonist. The elucidation of SP-mediating mechanisms is crucial to firmly establishing the involvement and interaction of the peripheral nervous system and the immune system in cutaneous repair. Findings presented here suggest that SP participates in the complex network of mediators involved in cutaneous inflammation and wound healing.     

Intrathecal substance P augments morphine-induced antinociception: Possible relevance in the production of substance P N-terminal fragments

The present study sought to examine the mechanism of substance P to modulate the antinociceptive action of intrathecal (i.t.) morphine in paw-licking/biting response evoked by subcutaneous injection of capsaicin into the plantar surface of the hindpaw in mice. The i.t. injection of morphine inhibited capsaicin-induced licking/biting response in a dose-dependent manner. Substance P (25 and 50 pmol) injected i.t. alone did not alter capsaicin-induced nociception, whereas substance P at a higher dose of 100 pmol significantly reduced the capsaicin response. Western blots showed the constitutive expression of endopeptidase-24.11 in the dorsal and ventral parts of lumbar spinal cord of mice. The N-terminal fragment of substance P (1–7), which is known as a major product of substance P by endopeptidase-24.11, was more effective than substance P on capsaicin-induced nociception. Combination treatment with substance P (50 pmol) and morphine at a subthreshold dose enhanced the antinociceptive effect of morphine. The enhanced effect of the combination of substance P with morphine was reduced significantly by co-administration of phosphoramidon, an inhibitor of endopeptidase-24.11. Administration of d-isomer of substance P (1–7), [d-Pro², d-Phe⁷]substance P (1–7), an inhibitor of [³H] substance P (1–7) binding, or antisera against substance P (1–7) reversed the enhanced antinociceptive effect by co-administration of substance P and morphine. Taken together these data suggest that morphine-induced antinociception may be enhanced through substance P (1–7) formed by the enzymatic degradation of i.t. injected substance P in the spinal cord.     

Pronounced substance P innervation in irradiation-induced enteropathy--a study on human colon

The immunohistochemical expression of various neuropeptides, including substance P (SP), and the substance P receptor (SPR), was examined in irradiation-induced enteropathy in man. Samples from irradiated and non-irradiated patients operated on for rectal carcinoma were examined. The samples were from the sigmoid and corresponded macroscopically to non-cancerous sigmoid colon. There was a marked atrophy, ulcerations and inflammatory reactions in the irradiation-influenced mucosa. In this mucosa, there was a very pronounced innervation of varicose nerve fibers showing SP-like immunoreactivity (LI). The degree of SP-LI in the ganglionic cells of the submucous plexus was increased as compared to non-irradiated patients. There were only few or no nerve fibers showing immunoreaction for other neuropeptides examined (CGRP, enkephalin, NPY) in the irradiation-influenced mucosa. A marked SPR immunoreaction was detected in cells in the lamina propria which were interpreted as representing polymorphonuclear leukocytes. The marked expression of SP in the irradiation-damaged mucosa and the presence of SPR immunoreactive leukocytes suggest that SP is highly involved in the inflammatory reactions that occur in response to radiotherapy. The observations also suggest that SP, but not NPY, CGRP and enkephalin, has an important role in the reorganisation processes that take place in the mucosa in irradiation-induced enteropathy.     

Anabolic-androgenic steroids affect the content of substance P and substance P(1-7) in the rat brain

The effects of intramuscular (i.m.) injections of nandrolone decanoate (15 mg/kg/day), an anabolic-androgenic steroid, on the levels of substance P (SP) and on its N-terminal fragment SP(1-7) were examined in the male rat brain by radioimmunoassay. The results demonstrated that the SP immunoreactivity in amygdala, hypothalamus, striatum, and periaqueductal gray was significantly enhanced, whereas the concentration of the N-terminal fragment SP(1-7) was enhanced in the nucleus accumbens and in periaqueductal gray. In the striatum the steroid induced a decrease in the content of SP(1-7). The relevance of these peptides in connection with anabolic-androgenic steroid-induced aggression is discussed.