Neuropeptides in the female genital tract: effect on vascular and non-vascular smooth muscle

The presence of vasoactive intestinal polypeptide (VIP), substance P (SP), somatostatin, enkephalin, and avian pancreatic polypeptide (APP) in nerves in the female genital tract raises the question of their physiological significance as neurotransmitter substances. We have examined the effect of these peptides on non-vascular uterine smooth muscle in vivo as well as in vitro, and the effect on blood flow in the genital tract of rabbit and cat. SP caused a dose-dependent increase in mechanical and myoelectrical activity, an action which could be antagonized by VIP. Substance P, leu-enkephalin and VIP induced a concentration related increase in blood flow of the uterus, where VIP seems to be the most potent vasodilator. Neither the effects on vascular nor on non-vascular smooth muscle were inhibited by adrenergic nor cholinergic blocking agents. APP was able to inhibit the VIP-induced vasodilation in rabbits. These findings suggest that several peptides are involved in the local nervous control of both uterine contractions and haemodynamic events.     

P物质的免疫调节作用

P物质在外周主要分布于了发出细传入的神经元内。在外周神经末梢释放的P物质参与免疫调节和炎症过程。P物质可以影响淋巴细胞的增殖、免疫球蛋白和细胞因子的合成,并能够调节辅佐细胞的活性和细胞因子的合成以及其他一些免疫细胞的活性。P物质通过以上作用参与调节细胞和体液免疫应答。在外周组织中,P物质能的神经纤维和一些免疫细胞联系密切,许多免疫细胞膜上存在有P物质的特异性受体。这些形态学资料为P物质参与免疫调节提供了证据。一些免疫细胞也能够产生P物质,并以自分泌或／和旁分泌的方式调节免疫细胞的功能。以上资料表明P物质不仅是一种神经肽,也是一种免疫调节因子,是神经系统和免疫系统共同的信使物质。     

Role of substance P in hypersensitivity reactions induced by paclitaxel, an anticancer agent

The role of substance P in adverse pulmonary reactions induced by an anticancer agent paclitaxel was investigated in rats and humans who undertook post-operative chemotherapy for ovarian cancer. In rats, paclitaxel caused a marked plasma extravasation and edema in lungs with a concomitant decrease in arterial partial oxygen pressure, which were reversed by an NK1 antagonist LY303870. Substance P level in rat plasma and bronchoalveolar lavage fluid increased after paclitaxel injection. In 13 patients, plasma level of substance P but not histamine significantly (P < 0.05) increased during paclitaxel infusion. Therefore, substance P rather than histamine may be involved in paclitaxel hypersensitivity.     

Effects of Substance P on Nicotinic Acetylcholine Receptor Function in PC 12 Cells

The effects of substance P on the functioning of nicotinic acetylcholine receptors in PC12 cells were examined. Carbachol-stimulated 22Na+ uptake was used to assess the functional state of the nicotinic receptor. We found that incubation of the cells with substance P alone caused a loss of receptor function. Receptors recovered from this effect with a t1/2 of 0.94 +/- 0.10 min. Since receptors recovered from carbachol-induced desensitization at a significantly slower rate (t1/2, 1.77 +/- 0.21 min), it was concluded that the two inactive states are not kinetically equivalent. The effects of substance P on carbachol-induced loss of receptor activity were also examined. Substance P had no effect on a component of carbachol-induced loss of activity that was nonrecoverable (inactivation). However, substance P had several effects on the recoverable loss of activity induced by carbachol (desensitization). Substance P caused a shift to the left in the EC50 for carbachol-induced desensitization at equilibrium. If cells were simultaneously incubated with carbachol and substance P7-11, a low-potency analog of substance P, an increase in the rate of formation of a state of the receptor that was kinetically indistinguishable from the state induced by carbachol alone was observed. However, not all inhibition of nicotinic cholinergic function could be explained by an increased rate of formation of a desensitized receptor and it is concluded that substance P causes both enhanced desensitization and block of the nicotinic receptor-linked channel.     

Acute inflammation enhances substance P-induced plasma protein extravasation in the rat knee joint.

Acute inflammation of the rat knee joint was induced by intra-articular injection of 2% carrageenan. Intra-articular perfusion of the inflamed joint with substance P (SP) exacerbated the inflammatory condition as assessed by the degree of plasma protein extravasation into the synovial cavity. Protein extravasation induced by SP was enhanced and more persistent in the inflamed rat knee compared to normal animals. The time course of the response in the inflamed rat knee was related to SP concentration whilst the persistency of the response was positively correlated with the initial level of joint inflammation.     

The effect of substance P on the regional lymph node antibody response to antigenic stimulation in capsaicin-pretreated rats

The undecapeptide substance P (SP) contained in primary afferent nerves is thought to mediate that part of the neurogenic inflammatory response consisting of vasodilation and plasma extravasation. This response is diminished in rats pretreated as neonates with the neurotoxin capsaicin. It is not known whether primary afferent nerves influence cellular responses of the immune response to antigenic stimulation. Using 6- to 12-wk-old Sprague-Dawley rats pretreated as neonates with capsaicin, we examined the regional lymph node response to a s.c. antigenic stimulus of sheep red blood cells. The number of cells secreting antigen-specific antibody in these animals was reduced by more than 80% using direct and indirect plaque assay methods. The reduced antibody response in capsaicin-pretreated animals was reversed by a s.c. infusion of SP given over a 4-hr period at the injection site immediately after antigen stimulation. This response had a threshold at approximately 1.0 X 10(-5) M SP. SP1-7 (1.0 X 10(-5) M) was without effect but an infusion of SP5-11 (1.0 X 10(-5) M) reversed the effects of capsaicin treatment indicating a carboxyl-terminal effect of SP. The results suggest that the reduced response of capsaicin-treated animals to an antigenic stimulus is due to an effect of capsaicin on the SP-containing primary afferent nerves rather than a toxic effect of capsaicin on the immune system.     

Several mediators appear to interact in neurogenic inflammation

Plasma protein extravasation was studied in the rat abdominal skin. Substance P (SP), neurokinin A (NKA) and B (NKB) were found to induce extravasation with a threshold dose of about 1 pmol. Calcitonin gene-related peptide (CGRP) caused no or little extravasation alone but it potentiated the action of SP, NKA, NKB, and physalaemin. The potentiation of the SP-induced extravasation was unaffected by pretreatment with capsaicin, indomethacin or compound 48/80, it was reduced by neuropeptide Y or pretreatment with mepyramine plus cimetidine, and was abolished in streptozotocin diabetic rats. CGRP augmented extravasation induced by histamine, reduced the effect of ATP or adenosine and did not alter extravasation by serotonin, bradykinin or neurotensin. These results indicate that in addition to SP the novel mammalian tachykinins NKA and NKB may be considered as mediator candidates for neurogenic plasma extravasation. CGRP is a possible mediator of antidromic vasodilation. Furthermore, CGRP potentiates the extravasation caused by coexisting tachykinins and could thereby augment neurogenic inflammation. The diverse interactions of CGRP with other inflammatory mediators suggest multiple sites of action.     

Serotonin and γ-Aminobutyric Acid Turnover After Injection into the Median Raphe of Substance P and D-Ala-Met-Enkephalin Amide

The raphe nuclei [which contain serotonin (5-HT) cell bodies] are also known to contain axons that store substance P, met-enkephalin, and gamma-aminobutyric acid (GABA). We have previously shown that GABA has a tonic inhibitory action on 5-HT turnover. To examine other possible interactions of these neuronal systems, we assessed the effect on 5-HT turnover of injecting substance P and 2-D-ala-met-enkephalin into the median raphe nucleus, and the effects of substance P on GABA turnover. Serotonin turnover was increased by 30% in the hippocampus after the injection of substance P (4 micrograms) into the median raphe, indicating an excitatory effect of substance P on the raphe-hippocampal system. Local injection of the metabolically stable metenkephalin analog 2-D-ala-met-enkephalin amide (10 micrograms) increased the hippocampal steady state content of 5-hydroxyindoleacetic acid (5-HIAA) by 60%. The data suggest an excitatory effect of met-enkephalin within the raphe nucleus. We attempted to estimate GABA turnover from the rate of disappearance of GABA after inhibition of glutamic acid decarboxylase by isoniazid and by the rate of accumulation of GABA after inhibition of GABA transaminase by gabaculine. Isoniazid, which is a competitive inhibitor, had too short and incomplete an action to be of use when injected intranuclearly. Gabaculine, which is an irreversible inhibitor, induced a rapid-onset increase in GABA content. This accumulation was linear up to 90 min. The injection fo gabaculine (80 ng) into the raphe increased GABA content by five times the control values, but hippocampal 5-HT and 5-HIAA contents were not significantly changed. Substance P injection increased the GABA turnover by 30%. Gabaculine seems a promising tool for detecting changes in GABA turnover.     

A key role of neurokinin 1 receptors in acute pancreatitis and associated lung injury

Earlier studies have shown that mice deficient in NK1 receptors or its ligand, substance P, are protected against acute pancreatitis and associated lung injury. In the current study, the protective effect of NK1 receptor blockage against acute pancreatitis and associated lung injury was investigated, using a specific receptor antagonist, CP-96345. Acute pancreatitis was induced in mice by intraperitoneal (i.p.) injections of caerulein. Substance P levels in plasma, pancreas, and lungs were found to be elevated in a caerulein dose-dependent manner. Mice treated with CP-96345, either prophylactically, or therapeutically, were protected against acute pancreatitis and associated lung injury as evident by attenuation in plasma amylase, pancreatic and pulmonary myeloperoxidase activities, and histological evidence of pancreatic and pulmonary injuries. Pulmonary microvascular permeability was also reduced as a result of CP-96345 treatment. These results point to a key role of NK1 receptors in acute pancreatitis and associated lung injury.     

免疫复合物致疼痛与甲醛致炎性痛的大鼠模型比较及巨噬细胞游走抑制因子在两组模型中的表达

目的 比较免疫复合物所致疼痛模型与甲醛致炎性疼痛模型的大鼠疼痛行为、局部炎症反应及巨噬细胞游走抑制因子在不同模型不同部位的表达,探讨免疫复合物所致疼痛的病理机制.方法 成年SD清洁级大鼠15只,随机分为正常对照组,甲醛组及免疫复合物组,每组5只.分别在大鼠右后足底注入20 μL PBS、甲醛及免疫复合物.于30 min、1h、2h、4h、8h、12 h测定疼痛行为.并于12 h后采血、取大鼠局部皮肤及脊髓测定巨噬细胞游走抑制因子(MIF)表达.结果 疼痛行为变化:在甲醛致炎后大鼠立刻出现明显的自发痛,疼痛阈值明显下降,注射足高度肿胀并于1h达高峰后逐渐缓解.免疫复合物组的疼痛阈值低峰在4h后,并持续至8h后逐渐缓解,注射足肿胀不明显.皮肤及脊髓的MIF表达在甲醛组明显增加(P＜0.05),在免疫复合物组中无明显改变.结论 MIF参与炎症性疼痛病理过程,但无证据参与免疫复合物所致疼痛.抗原抗体复合物所致疼痛与甲醛炎性痛病理机制有一定区别.     

Substance P Protects Against Desensitization of the Nicotinic Response in Isolated Adrenal Chromaffin Cells

Substance P, a peptide endogenous to the splanchnic nerve, is known to inhibit the acetylcholine-and nicotine-induced release of catecholamines from isolated adrenal chromaffin cells. In the present study the effect of substance P on desensitization of catecholamine release from these cells was examined. Substance P (10(-5) M) completely protected against desensitization of catecholamine release produced by acetylcholine at 37 degrees C or 23 degrees C and by nicotine at 23 degrees C; substance P also afforded appreciable protection against nicotine-induced desensitization at 37 degrees C. The peptide had no effect on K+-induced desensitization of catecholamine release. Like substance P, d-tubocurarine also prevented nicotinic desensitization. Substance P prevented both of two components of nicotinic desensitization, i.e. the Ca2+-dependent component and the Ca2+-independent, depletion-independent component of desensitization. Substance P had little effect on subsequent catecholamine uptake, indicating that substance P's protection against desensitization is a result of facilitation of catecholamine release rather than inhibition of catecholamine reuptake. Nicotine-induced catecholamine release and nicotinic desensitization of catecholamine release were Na+-independent, although substance P's inhibition of nicotine-induced catecholamine release was reduced by extracellular Na+. These in vitro studies suggest a similar role for substance P in vivo: substance P's protection against nicotinic desensitization may ensure a maintained output of adrenal catecholamines during stress, when the splanchnic nerve releases large amounts of acetylcholine.     

Intrathecal substance P and somatostatin in rats: behaviors indicative of sensation

Biochemical, histochemical and neurophysiological data suggest that substance P and somatostatin are neurotransmitters for primary afferent neurons. This study used intrathecal administration of these peptides and others (neurotensin and vasoactive intestinal polypeptide) in chronically catheterized, environmentally adapted, freely moving rats to evaluate their effects on unconditioned behavior. Substance P and somatostatin each elicited behaviors which were dose related. The behaviors included caudally directed biting and licking along with hindlimb scratching, writhing and retching. The behavioral responses were rapid in onset (1 min) and, in the case of substance P, short in duration (3 min). Vehicle, neurotensin and vasoactive intestinal polypeptide were without effect. These results demonstrate the ability of substance P and somatostatin to induce behavior in rats upon intrathecal administration and extend previous studies in mice.     

The role of calcium channels in substance P-induced contractile response in the rat iris

This study was undertaken to assess the role of calcium channels in the contractile response induced by substance P in the isolated rat iris. Substance P produced graded and sustained contraction in the rat iris. Pre-incubation of preparations with thapsigargin (1 μM), verapamil (1 μM), isradipine (1 μM) or with ω-conotoxin MCIIA (0.1 μM) did not significantly inhibit substance P-mediated contraction in the isolated rat iris. However, pre-incubation of the preparations with nicardipine (1 μM) or ruthenium red (1 mM) caused parallel displacement to the right of the substance P concentration–response curve without affecting its maximal response. In contrast, amiloride (1 μM), markedly inhibited substance P-mediated contraction (73±5%), while econazole (1 mM) also significantly inhibited (44±11%) substance P-mediated contraction in the isolated rat iris. Collectively, these results suggest that substance P-mediated contractile response in the isolated rat iris depends largely on the influx of external Ca²⁺, by a mechanism which might involve the T-type calcium channels.     

Neuropeptide Y-, substance P- and VIP-immunoreactive nerves in cat spleen in relation to autonomic vascular and volume control

Summary Neuropeptide Y (NPY)-immunoreactive (IR) nerve fibres were found around both arteries and veins and in smooth muscle trabeculae of the cat spleen with the highest density on the arterial side. Considerably more tyrosine hydroxylase (TH)- and dopamine--hydroxylase (DBH)-positive than NPY-IR nerves were seen in the trabeculae and splenic capsule. The NPY-IR nerves in the spleen most likely originated in the coeliac ganglion, since (1) splanchnic nerve sectioning did not change the splenic NPY-IR nerves, (2) most neurones in the coeliac ganglion were NPY-IR, as well as DBH- and TH-positive, and (3) NPY-IR was transported axonally from the coeliac ganglion towards the spleen via the splenic nerve. Local NPY infusion in the isolated, blood-perfused cat spleen caused a marked increase in splenic vascular resistance and a small volume reduction. NA caused a comparatively larger reduction in splenic volume than NPY in addition to vasoconstriction. VIP-IR cell bodies in the coeliac ganglion were NPY- and TH-negative. VIP-IR nerves were seen both around the splenic artery and vein as well as around arterioles and within venous trabeculae of the spleen. VIP infusion caused reduction of splenic perfusion pressure (i.e. vasodilation) as well as an increase in splenic volume. Substance P-IR nerves, most likely of splanchnic afferent origin, were present in the coeliac ganglion around the splenic artery and arterioles of the spleen. Infusion of substance P induced marked reduction in perfusion pressure and a reduction in splenic volume. Enkephalin-immunoreactive nerves of splanchnic origin surrounded some TH- and NPY-positive, coeliac ganglion cells.It is concluded that several vasoactive peptides are located in splenic nerves. NPY is present in noradrenergic neurones and causes mainly increased vascular resistance. VIP occurs in non-adrenergic neurones of sympathetic origin and induces vasodilation and relaxation of the capsule. Finally, substance P is present in peripheral branches of spinal afferent nerves and causes vasodilation and capsule contraction. Stimulation of the splenic nerves may thus release several vasoactive substances in addition to noradrenaline, exerting a variety of actions.     

Orexin 和P物质对顺铂诱发大鼠异食癖的影响

目的:观察食欲素(Orexin)和P物质(SP)对顺铂诱发大鼠异食癖的影响。方法:雄性Wistar大鼠被随机分为对照组和顺铂处理组,顺铂处理组给予大鼠顺铂(3或6 mg/kg,腹腔注射),对照组给予等量生理盐水。记录顺铂大鼠摄食高岭土量、摄食量的改变;Real-time PCR法观察顺铂对大鼠下丘脑Orexin和延髓中SP前体-前速激肽原A(PPT-A)m RNA表达的影响;分别和联合应用SP受体(NK1受体)拮抗剂阿瑞匹坦和Orexin-A对顺铂大鼠异食癖和摄食量的作用。结果:皮下注射3 mg/kg(低剂量组)的顺帕后大鼠高岭土摄入量和摄食量与对照组相比无明显差异(P0.05),而注射6 mg/kg(高剂量组)顺铂后,大鼠高岭土摄入量与对照组和低剂量组相比显著增加(P0.05);高剂量的顺铂作用12 h时,大鼠延髓内PPT-A的m RNA表达有轻微增加,但无统计学差异(P0.05),24 h后,延髓内PPT-A的m RNA表达量显著增加(P0.05)。在此后持续观察的5天中,顺铂可持续引起延髓中PPT-A的mRNA表达增高,在第5天时PPT-A的m RNA仍维持166.23±16.92%的高表达。高剂量顺铂抑制大鼠下丘脑中Orexin的mRNA表达,24 h时Orexin降低幅度最明显,为对照组的34.81±7.22%(P0.05)。此后检测的5天,Orexin浓度均低于对照组;将阿瑞匹坦和orexin联合应用,大鼠高岭土摄入量较单独应用阿瑞匹坦或orexin明显减少,摄食量显著增加(P0.05)。结论:P物质和orexin通路对顺铂化疗大鼠的异食癖和摄食量调控具有协同作用。     

Estrogen rapidly modulates mustard oil-induced visceral hypersensitivity in conscious female rats: A role of CREB phosphorylation in spinal dorsal horn neurons

This study investigated the effect of sex hormones on mustard oil (MO)-induced visceral hypersensitivity in female rats and analyzed possible involved signaling pathways. Female rats, either intact or ovariectomized (OVX), were prepared for abdominal muscle electromyography in response to colorectal distension after intracolonic instillation of MO. The effect of MO intracolonic sensitization was evaluated in intact rats, OVX rats, and OVX rats pretreated with a single injection of 17beta-estradiol (E), progesterone (P), E+P, or vehicle. cAMP-responsive element-binding protein (CREB) and phosphorylated CREB (pCREB) were detected in the superficial dorsal horn of L6 and S1 in MO or mineral oil-treated OVX rats with/without colorectal distension and estrogen replacement. The distal colorectum was removed for histological evaluation of inflammatory severity in MO-treated intact or OVX rats. The MO-treated rats had significantly higher visceromotor reflex than controls (enhanced visceral hypersensitivity), whereas OVX eliminated this hypersensitivity. After a single injection of E or E+P, the rats rapidly restored MO-induced visceral hypersensitivity within 2 h. Estrogen also rapidly induced a dose-dependent increase in pCREB expression in the superficial dorsal horn neurons in MO-treated, but not mineral oil-treated, OVX rats. The present study suggests that estrogen can rapidly modulate visceral hypersensitivity induced by MO intracolonic instillation in conscious female rats, which may involve spinal activation of the cAMP response element-mediated gene induction pathway.     

Effects of intracerebroventricular administration of neurotensin,substance P and calcitonin on gastrointestinal motility in normal and vagotomized rats

The effects of intracerebroventricular (ICV) vs. intravenous (IV) injection of neurotensin, substance P and calcitonin on intestinal myoelectrical activity were examined in fed rats. ICV administered neurotensin and calcitonin restored the ‘fasted’ pattern of intestinal activity, i.e. the migrating myoelectric complex (MMC) at a dose as low as 12 and 0.2 pmol, respectively, whereas substance P only reduced significantly ($\text{P < 0.01}$) the duration of the postprandial pattern when injected ICV (48 pmol).Administered systemically at doses 100 times higher than the smallest active doses by the ICV route, calcitonin induced a fasted pattern, while neurotensin and substance P did not modify the fed pattern.The effects of ICV administration of neurotensin and calcitonin were abolished after vagotomy but the shortening effect of substance P on the duration of the postprandial pattern was still present.It is concluded that these three neuropeptides act centrally to control the pattern of intestinal motility in fed rats by shortening the ‘fed’ pattern for substance P and by restoring the MMC pattern for calcitonin and neurotensin, this last effect being mediated by the vagus.     

The effects of substance P on the preconstricted pulmonary vasculature of the anesthetized dog

Substance P is a vasoactive peptide. Nerve fibers containing substance P are present in the media of pulmonary arteries but the physiologic function of substance P in the pulmonary vasculature is unknown. Several doses of substance P were infused intravenously in the anesthetized dog to ascertain its effects on the pulmonary vasculature, both during normoxia and following preconstriction with hypoxia (F1O2 0.1) or prostaglandin F2 alpha (PGF2 alpha 5 mug/kg/min). Substance P resulted in systemic vasodilation during normoxia but had minimal effect on the pulmonary vasculature. During hypoxia and PGF2 alpha-induced pulmonary vasoconstriction, substance P significantly lowered pulmonary artery pressure, pulmonary vascular resistance, mean aortic pressure, and total systemic resistance. It had no effect on cardiac output, wedge pressure, and arterial blood gases. To investigate possible mechanisms for substance P-induced vasodilation, substance P was studied following pretreatment with N-acetylcysteine (a radical scavenging agent), methylene blue (an inhibitor of guanylate cyclase), meclofenamate (a cyclooxygenase inhibitor), and atropine (a muscarinic receptor antagonist). None of these agents impaired substance P-induced vasodilation. Substance P given intravenously is a nonselective vasodilator in the dog but the mechanism of its action remains uncertain.     

Opposite modulation of capsaicin-evoked substance P release by glutamate receptors

Substance P and glutamate are present in primary afferent C-fibers and play important roles in persistent inflammatory and neuropathic pain. In the present study, we have examined whether activation of different glutamate receptor subtypes modulates the release of substance P evoked by the C-fiber selective stimulant capsaicin (1 μM) from rat trigeminal nucleus slices. The selective NMDA glutamate receptor agonist L-CCG-IV (1–10 μM) enhanced capsaicin-evoked substance P release about 100%. This facilitatory effect was blocked by 0.3 μM MK-801, a selective NMDA receptor antagonist. The metabotropic glutamate receptor agonists L-AP4 (group III) and DHPG (group I) (30–100 μM) inhibited capsaicin-evoked substance P release by approximately 60%. These inhibitory effects were blocked by the selective metabotropic glutamate receptor antagonist (±)-MCPG (5 μM). On the other hand, AMPA and kainate (0.1–10 μM), did not significantly affect capsaicin-evoked substance P release. Thus, substance P release from non-myelinated primary afferents, and possibly nociception, may be under the functional antagonistic control of some metabotropic and ionotropic glutamate receptor subtypes.