Regional differences in cardiac effects of pituitary adenylate cyclase-activating polypeptide-27 in the isolated dog heart

Recent observations indicate that several neuropeptides may be involved in the regulation of cardiac function, but the effects of these peptides on the atrium are not always the same as those on the ventricle. To compare the effect of pituitary adenylate cyclase-activating polypeptide (PACAP)-27 on the atrium with that on the ventricle, we investigated the effects of PACAP-27 on the sinus rate and atrial and ventricular contractility in isolated, blood-perfused dog heart preparations. PACAP-27 (0.01-0.3 nmol) caused transient positive followed by negative chronotropic and inotropic responses in a dose-dependent manner in the isolated right atrium, whereas it caused only a dose-dependent positive inotropic response in the left ventricle. After atropine treatment, PACAP-27 caused only positive cardiac responses in isolated atria. The order of the increase in response to PACAP-27 was atrial contractile force > sinus rate > or = ventricular contractile force. Tetrodotoxin blocked the negative chronotropic and inotropic responses to PACAP-27 in isolated atria. Propranolol did not affect the positive response. PACAP-(6-27), a type I PACAP receptor antagonist, attenuated the positive responses similarly in the atropine-treated right atrium and the left ventricle. Thus, we demonstrated that (1) PACAP-27 caused negative cardiac effects in the atrium and sinoatrial node by activation of intracardiac parasympathetic nerves, but had no negative effect on the ventricle; (2) PACAP-27 had positive effects in the atrium, sinoatrial node and ventricle mediated by type I PACAP receptors, but PACAP-27 was more effective in the atrium and sinoatrial node than in the ventricle of the dog heart.     

Chemoprevention of head and neck cancer

The role of pituitary adenylate cyclase-activating polypeptide (PACAP) in the regulation of exocrine and endocrine pancreas was investigated in conscious sheep. Intravenous infusions of PACAP-27 and PACAP-38 (1, 3, and 10 pmol/kg/min) for 10 min during phase II of the duodenal migrating myoelectric complex accelerated pancreatic protein and amylase outputs dose-dependently. The responses in enzyme secretion to both PACAPs at the highest doses were inhibited significantly by atropine infusion (14.4 nmol/kg/min). Vasoactive intestinal polypeptide (VIP) at 3 pmol/kg/min significantly accelerated protein but not amylase outputs, although the response to the highest dose was not significantly influenced by atropine. PACAP-27 and VIP increased pancreatic juice flow and bicarbonate output dose-dependently; however, the responses to the highest dose were not altered significantly by atropine. On the other hand, intravenous injection of PACAP-38 (100 pmol/kg) did not influence basal plasma concentration of insulin, glucagon, and glucose. Moreover, PACAP-38 (1-100 pmol/kg) altered neither pancreatic endocrine response to intravenous infusion of glucose (20 mumol/kg/min) not that to n-butyric acid (33 mumol/kg/min). These results suggest that PACAP contributes to the regulation of exocrine secretion of the ovine pancreas but not to endocrine secretion. PACAP appears to accelerate pancreatic enzyme secretion mostly via the cholinergic nerves.     

Pituitary adenylate cyclase activating polypeptide (PACAP) is localized in human dermal neurons and causes histamine release from skin mast cells

OBJECTIVE AND DESIGN: Pituitary adenylate cyclase activating polypeptide (PACAP) is a neuropeptide homologous with vasoactive intestinal polypeptide (VIP) which is known to induce histamine release in human skin mast cells. PACAP has not been detected in human skin. The purposes of the study were to investigate the occurrence of PACAP in human skin and to evaluate the histamine releasing activity of the two common pro-PACAP products, PACAP-27 and PACAP-38. MATERIAL: Fourteen human surgical skin samples were obtained. PACAP and VIP were visualized by immunohistochemistry. A microdialysis technique was used to measure histamine release in intact skin samples following intradermal injections of the peptides. RESULTS: PACAP and VIP were localized in dermal nerves in connection with sweat glands. Intradermal injection of 3 or 10 microm PACAP significantly released histamine. Kinetics of histamine release showed peak release 2-4 min after skin challenge. Ten microm of PACAP-27, VIP and somatostatin caused histamine release with similar efficacy, whereas PACAP-38 was less effective. Substance P was twice as efficient as PACAP-27, whereas calcitonin gene-related peptide did not release histamine. CONCLUSIONS: PACAP is found in human skin and is capable of releasing histamine from skin mast cells.     

Electrophysiological analysis of the actions of pituitary adenylyl cyclase activating peptide in the taenia of the guinea-pig caecum

The actions of pituitary adenylyl cyclase activating peptide (PACAP) on membrane potential and conductance were investigated in the taenia of the guinea-pig caecum. The possible role of PACAP in inhibitory transmission was also investigated. Membrane potentials of smooth muscle cells were measured by intracellular microelectrodes, in the presence of hyoscine and nifidepine (both 10(-6)M. To determine conductance changes, current was passed from external plate electrodes using the technique of Abe and Tomita (1968). PACAP-27 caused a concentration dependent hyperpolarization of the muscle with a maximum of 12-15 mV at 10(-6)M. The hyperpolarization caused by PACAP was associated with a substantial increase in membrane conductance. The hyperpolarization was abolished by apamin (10(-6)M), a blocker of small conductance, calcium-dependent, potassium channels, and was reduced to about 50% by suramin (10(-4)M), which is an antagonist of P2 receptors for purines. The hyperpolarization was not reduced by tetrodotoxin (2 x 10(-6)M), suggesting PACAP acts directly on the muscle. With continued exposure to PACAP, the hyperpolarization decayed back to resting membrane potential after several minutes, possibly due to receptor desensitization. Inhibitory junction potentials (IJPs) were markedly reduced in amplitude in the period of presumed receptor desensitization to PACAP, were abolished by tetrodotoxin, but were not affected by suramin. Apamin abolished the IJP and revealed a small excitatory junction potential. This study implies that PACAP released from nerve fibres in the taenia caeci hyperpolarizes the muscle via an opening of apamin-sensitive potassium channels. The action is probably through type I PACAP receptors.     

Gene expression of pituitary adenylate cyclase activating polypeptide (PACAP) in the rat hypothalamus

Pituitary adenylate cyclase activating polypeptide (PACAP) isolated from ovine hypothalamus is considered to be a member of the vasoactive intestinal peptide/glucagon/secretin/growth hormone-releasing hormone family of peptides. Two forms of PACAP, PACAP38 and PACAP27, have been demonstrated in the rat hypothalamus. The PACAP precursor contains another peptide called PACAP-related peptide (PRP), but so far no information on this peptide in tissue exists. We have developed three radioimmunoassays specific for PACAP38, PACAP27 and PRP and demonstrate that all three preproPACAP peptides are expressed in the rat hypothalamus, the PACAP38/PACAP27 ratio being around 60 and the PACAP38/PRP ratio being around 10. HPLC analysis of hypothalamic extract showed that PACAP38 and PACAP27 are found in only one form corresponding to the respective synthetic peptides, whereas PRP eluted in two peaks, the predominant form corresponding to synthetic PRP1-29. The cellular distribution of PACAP38, PACAP27, and PRP and corresponding mRNA in the hypothalamus was determined with immunohistochemistry and in situ hybridization histochemistry. PACAP- and PRP-immunoreactive neuronal perikarya were observed in the medial parvocellular part of the paraventricular nucleus (PVN) in colchicine pretreated rats. Some cell bodies of magnocellular variety were found in the PVN. PACAP mRNA containing cells were observed in moderate numbers in the same parts of the paraventricular nucleus. PACAP- and PRP immunoreactive fibres and varicosities were distributed in the PVN and in the periventricular nucleus. These data show that PACAP38, PACAP27 and PRP are expressed in the parvocellular part of the PVN, implying roles as hypothalamic regulatory peptides.     

Procaine-induced positive chronotropic and inotropic responses of the isolated, blood-perfused dog atrium

In the isolated, blood-perfused canine atrium preparations, procaine given into the cannulated sinus node artery induced frequently significantly positive chronotropic and inotropic effects at a dose level of 30-1000 microng. Above a dose of 100 microng, initially brief negative chronotropic and inotropic effects were usually observed. Procaine-induced negative effects were not blocked by an adequate dose level of atropine. Procaine-induced positive effects were inhibited by treatment with propranolol but not modified by tetrodotoxin or desmethylimipramine. Procaine suppressed acetylcholine-induced negative chronotropic and inotropic effects. On the other hand, procaine did not block norepinephrine-induced positive inotropic and chronotropic effects. From these results, it is concluded that procaine may have sympathomimetic and atropine-like properties.     

Positive chronotropic and negative inotropic effects induced by potassium chloride in the isolated canine atrium

The effects of potassium chloride on inotropic and chronotropic activity were investigated in five isolated canine atrium preparations which were suspended in a bath and perfused with arterial blood from the carotid artery of the heparinized support dog. Potassium chloride administered into the cannulated sinus node artery in a dose range of 100 mug-1 mg produced a dose-related negative inotropic and a positive chronotropic effect. These effects were not influenced by treatment with either atropine or propranolol. From these results, it is concluded that potassium had a direct negative effect on atrial contractility and a direct positive effect on atrial rate.     

PACAP stimulates pancreatic exocrine secretion via the vagal cholinergic nerves in sheep

The present study evaluates the possible role of the vagus nerves in mediating the stimulatory effect of PACAP-27, PACAP-38 and VIP on the exocrine pancreas, especially on enzyme secretion which is atropine sensitive in sheep. The animals were equipped with two cannulae into the common bile duct, a duodenal cannula, and a ruminal cannula under anesthesia. The bilateral cervical vagus nerves were coiled with a cooling device. In conscious animals, the peptides were infused intravenously for 10 min at 10 pmol kg(-1)min(-1) in phase II of the duodenal migrating motor complexes and the same peptide infusion was repeated in the reversible cooling blockade of the vagus nerves. Increment in fluid secretion was not significantly altered by the vagal blockade in all the peptide infusions, while increment in bicarbonate ion by only PACAP-27 was inhibited by the vagal blockade. Increments in protein and amylase output decreased significantly to 32.0+/-5.0 and 23.2+/-2.6% in PACAP27, and to 26.1+/-7.7 and 20.8+/-6.4% in PACAP-38 in the vagal blockade, but the increments by VIP did not decrease. These results demonstrate that circulating PACAP stimulates pancreatic enzyme secretion via the vagal cholinergic preganglionic neurons in sheep, suggesting the central action of PACAP.     

Pituitary adenylate cyclase-activating polypeptide, helospectin, and vasoactive intestinal polypeptide in human corpus cavernosum

1. The distribution and effects of pituitary adenylate cyclase-activating polypeptide (PACAP-27 and -38), helospectin (Hel-1 and Hel-2), and vasoactive intestinal polypeptide (VIP), were investigated in isolated preparations of human corpus cavernosum (CC). 2. Immunohistochemistry revealed coinciding profiles of nerve structures that showed immunoreactivities for VIP and PACAP, and VIP and Hel. Confocal microscopy showed the co-existence of VIP- and PACAP-immunoreactivities, and VIP- and Hel-immunoreactivities in most (90%) varicose nerve structures. 3. As determined by radioimmunoassay, the amounts of VIP, PACAP-27, and PACAP-38 in the preparations were 61.7 +/- 11.6, 0.1 +/- 0.05, and 3.7 +/- 0.5 pmol g-1 wet weight of tissue (pmol g-1 wet wt.), respectively. In tissue from patients with diabetes, the content of VIP was lower (13.7 +/- 0.5 pmol g-1 wet wt.), whereas that of PACAP (-27 and -38) was unchanged. 4. Cyclic nucleotide levels were determined in preparations exposed to PACAP-27, PACAP-38, Hel-1, Hel-2, and VIP. All the peptides, but Hel-2, significantly increased the concentrations of cyclic AMP, whereas the levels of cyclic GMP were unchanged. 5. The peptides concentration-dependently relaxed noradrenaline-contracted preparations. The order of potency was VIP > PACAP 27 > Hel-1 > Hel-2 > PACAP-38. 6. Hel-1, VIP and PACAP-27 effectively counteracted electrically induced contractions. At 10(-6) M, the highest peptide concentration used, the inhibitory effects obtained reached 96 +/- 3%, 87 +/- 6%, and 80 +/- 3%, respectively. 7. The results suggest that PACAP and Hel-1 are co-localized with VIP in nerve structures within the human cavernous tissue, and that the peptides are effective relaxants of CC preparations in vitro. The role of the investigated peptides for penile erection remains to be established.     

Differential signal transduction by five splice variants of the PACAP receptor

The two forms of pituitary adenylyl cyclase-activating polypeptide (PACAP-27 and -38) are neuropeptides of the secretin/glucagon/vasoactive intestinal polypeptide/growth-hormone-releasing hormone family and regulate hormone release from the pituitary and adrenal gland. They may also be involved in spermatogenesis, and PACAP-38 potently stimulates neuritogenesis and survival of cultured rat sympathetic neuroblast and promotes neurite outgrowth of PC-12 cells. The PACAP type-I receptor (found in hypothalamus, brain stem, pituitary, adrenal gland and testes), specific for PACAP, is positively coupled to adenylyl cyclase and phospholipase C. The recently cloned type II receptor does not discriminate between PACAP and vasoactive intestinal polypeptide and is coupled to only adenylyl cyclase. Here we have used a new expression cloning strategy, based on the induction of a reporter gene by cyclic AMP, to isolate a complementary DNA encoding the type-I PACAP receptor. On transfection of this cDNA, both PACAP-27 and -38 stimulate adenylyl cyclase with similar EC50 values (50% effective concentration, 0.1-0.4 nM), whereas only PACAP-38 stimulates phospholipase C with high potency (EC50 = 15 nM). Four other splice variants were isolated with insertions at the C-terminal end of the third intracellular loop. Expression of these cDNAs revealed altered patterns of adenylyl cyclase and phospholipase C stimulation, suggesting a novel mechanism for fine tuning of signal transduction.     

Inborn errors of copper metabolism: kinky hair disease and hepatolenticular degeneration. Therapeutic approaches

1. The effects of secretin on inotropic and chronotropic activity were investigated in nine isolated canine atrium preparations which were suspended in a bath and perfused with arterial blood from a carotid artery of a heparinized donor dog. 2. Secretin administered into the cannulated sinus node artery in a dose range of 0-1-10 units produced a dose-related positive inotropic and a biphasic chronotropic effect. 3. The positive chronotropic and inotropic responses to secretin were not suppressed by treatment with alprenolol in doses which blocked responses to noradrenaline. 4. The negative chronotropic response to secretin was not blocked by atropine in doses which blocked the response to acetylcholine. 5. After treatment with glucagon, secretin produced dose-related negative chronotropic and a positive inotropic effects. Thus glucagon may antagonize the positive chronotropic effect of secretin. 6. From these results, it is concluded that secretin has a direct effect on atrial rate and contractility.     

The contribution of nitric oxide to endotoxin-induced ocular inflammation: interaction with sensory nerve fibres

1. The actions of nitric oxide (NO) have been investigated in an endotoxin-evoked ocular inflammatory model in the rabbit, with particular emphasis on the relationship between NO, sensory nerves (C-fibres) and the C-fibre neuropeptides, calcitonin gene-related peptide (CGRP) and pituitary adenylate cyclase activating peptide (PACAP). 2. Endotoxin, injected intravitreally, evoked inflammatory responses, i.e. conjunctival hyperaemia, miosis and protein extravasation, reflected by the aqueous flare response (AFR). In control rabbits, the maximum AFR was 66.5 +/- 9.5 (arbitrary units). Pretreatment with the NO synthase (NOS) inhibitor, NG-nitro-L-arginine (L-NAME, 200 mg kg-1) given by intravenous injection, inhibited the endotoxin-evoked responses; the AFR was 16.5 +/- 1.9 (n = 8, P < 0.001) and the conjunctival hyperaemia was abolished. 3. Endotoxin-evoked ocular inflammation is associated with the release of CGRP and PACAP from C-fibres. In the eyes challenged with endotoxin, the concentrations of PACAP-27, -38 and CGRP in the aqueous humour were 58.2 +/- 10.9, 54.4 +/- 12.4 and 5526 +/- 519 (pmoll'), respectively. L-NAME inhibited the release of PACAP-27, -38 and CGRP; the concentrations were 14.3 +/- 2.5, 13.5 +/- 2.5 and 510 +/- 67 (pmoll-1), respectively (n = 8, P < 0.01 or 0.001). 4. Intravitreal injection of 0.3 nmol CGRP induced conjunctival hyperaemia and AFR; the maximum AFR was 140.2 +/- 11.4. L-NAME suppressed the response induced by CGRP; the AFR was 23.4 +/- 5.5 (n = 8, P < 0.001). L-NAME abolished the conjunctival hyperaemia induced by PACAP-27 and -38 (0.3 nmol) and reduced the AFR. 5. The inflammatory cells that infiltrated the uvea, cornea and aqueous humour in large numbers in response to intravitreal injection of endotoxin were found to express inducible NOS. L-NAME prevented the appearance of such cells. 6. Our findings suggest that NO plays an important role in the endotoxin-evoked ocular inflammation in the rabbit: NO activates C-fibres causing release of C-fibre neuropeptides into the aqueous humour. In addition, NO mediates scme of the ocular effects of CGRP and PACAP, since L-NAME suppressed the AFR induced by these peptides.     

Effects of pituitary adenylate cyclase-activating polypeptide and vasoactive intestinal polypeptide on cyclic AMP accumulation in sheep pituitary cells in vitro

Pituitary adenylate cyclase-activating polypeptide (PACAP) and vasoactive intestinal polypeptide (VIP) are known to stimulate adenylate cyclase activity in rat pituitary cells but no direct effects have been reported on sheep pituitary cells. In this study we determined whether either peptide could stimulate intracellular cAMP accumulation in dispersed sheep pituitary cells in primary culture. Time course studies with PACAP showed that tachyphylaxis developed rapidly and so a short incubation time (5 min) was used to define the dose-response relationship. PACAP dose-dependently stimulated intracellular cAMP levels with a half-maximum response at 2.9 +/- 0.2 nmol/l (n = 4). In contrast, VIP only caused a small increase in intracellular cAMP levels at the highest dose tested (1 mumol/l). The VIP antagonist [4Cl-D-Phe6,Leu17]VIP had no effect on the cAMP response to either PACAP or VIP while the peptide PACAP(6-38), a putative PACAP antagonist, blocked the cAMP response to PACAP. The desensitisation to PACAP was further investigated by pretreating cells with PACAP for 30 min. After a further 15 min in culture medium alone, these cells showed no cAMP response to subsequent treatment with PACAP but could respond to forskolin. When a longer incubation period of 240 min was used between the first and second treatment with PACAP, a partial return in responsiveness to PACAP was observed. In summary, these results show that PACAP activates adenylate cyclase in sheep pituitary cells but that there is rapid development of tachyphylaxis. Experiments with the antagonists suggest that the response to PACAP is via the PACAP type I receptor. In contrast, physiological doses of VIP do not stimulate cAMP accumulation in sheep pituitary cells.     

Distribution and effects of pituitary adenylate cyclase-activating peptide in the rabbit eye

Pituitary adenylate cyclase-activating peptide (PACAP)-like immunoreactivity was demonstrated by immunocytochemistry together with calcitonin gene-related peptide (CGRP)-like immunoreactivity in small to medium-sized neurons in the trigeminal ganglion and in nerve fibers in the iris, ciliary body, cornea, choroid and sclera of the rabbit eye. The regional distribution of PACAP-27- and PACAP-38-like immunoreactivity in the eye was studied by radioimmunoassay: the highest concentrations were found in the iris sphincter and ciliary body. The distribution pattern resembled that of CGRP-like immunoreactivity, which is a well-known constituent of sensory C-fibre neurons. Intravitreal injection of PACAP-27 or PACAP-38 induced conjunctival hyperemia, swelling of the anterior segment of the eye, miosis and breakdown of the blood-aqueous barrier, manifested as a marked aqueous flare response. Tetrodotoxin pretreatment inhibited the conjunctival hyperemia, the swelling of the anterior segment of the eye, and the miosis but not the aqueous flare response. The concentration of PACAP-like immunoreactivity in the aqueous humor was increased greatly following infrared irradiation of the iris, topical application of formaldehyde to the cornea, or intravitreal injection of endotoxin or bovine serum albumin. Also the concentration of CGRP-like immunoreactivity in the aqueous humor was increased greatly. Both in vivo and in vitro studies showed that capsaicin caused a parallel release of PACAP-like immunoreactivity and CGRP-like immunoreactivity from the uvea. Injection of PACAP-27 and PACAP-38 resulted in the release of CGRP-like immunoreactivity (and PACAP-like immunoreactivity) into the aqueous humor and PACAP-27 and PACAP-38 were also found to evoke tachykinin-mediated contractions of the isolated iris sphincter muscle, indicating that PACAP induces positive feedback on C-fibres. Thus, PACAP is a sensory neuropeptide in the eye. Since the PACAP-induced ocular responses mimicked the symptoms of inflammation, and since the PACAP-like immunoreactivity concentration in the aqueous humor was greatly increased following noxious stimulation, we suggest that it takes part in the inflammatory responses of the rabbit eye.     

Transmural care. A new approach in the care for terminal cancer patients: its effects on re-hospitalization and quality of life

The pharmacological properties of non-adrenergic non-cholinergic (NANC) inhibitory neurotransmission were investigated in the rabbit choledocho-duodenal junction (CDJ), using the microelectrode and tension recording methods. L-NAME (10(-4) M) and apamin (5 X 10 (-6) M) suppressed NANC relaxation evoked by electrical field stimulation (EFS) in the presence of atropine and guanethidine (each 10(-6) M) to a similar extent (to about 40% of the initial control). However, combined application of L-NAME (10(-4) M) and apamin (5 X 10(-6) M) did not abolish it. EFS also evoked biphasic inhibitory junction potentials (IJPs) consisting of initial fast and slow sustained components in the presence of atropine and guanethidine (each 10(-6) M). Apamin (5 X 10(-8)-5 X 10(-6) M) dose-dependently suppressed the initial fast component by about 70%. In contrast, L-NAME (10(-4) M) did not affect either the amplitude of IJP or the resting membrane potential. PACAP-38 (> 10(-8) M) dose-dependently hyperpolarized the smooth muscle membrane of rabbit CDJ followed by a slow repolarization to the original level. After pretreatment with apamin (5 X 10(-7) M), PACAP-38 (10(-6) M) failed to evoke membrane hyperpolarization. During repolarization in the continued presence of PACAP-38, the amplitude of initial fast component of IJP was reduced to about 40-60% of control value, while that of the slow one was unaffected. A similar suppression of initial fast component of IJP (about 40% of the control value) also occurred after application of PACAP (6-38), a PACAP antagonist, or prolonged treatment with monoclonal antibodies to PACAP-27 or PACAP-38. Furthermore, the substantial part of residual fast IJP in the presence of PACAP (6-38) was suppressed by desensitization to alpha,beta-methylene ATP (10(-3) M). These results indicate that in rabbit CDJ NANC relaxation consists mainly of apamin- and L-NAME-sensitive components, which occur in a membrane potential dependent (through membrane hyperpolarization) and independent fashion, respectively. It has further been suggested that PACAP, together with a smaller contribution of ATP, may be involved as the principal apamin-sensitive transmitter in NANC relaxation of this muscle.     

Histomorphometric, physical, and mechanical effects of spaceflight and insulin-like growth factor-I on rat long bones

Pituitary adenylate cyclase activating peptide and vasoactive intestinal peptide belong to the same neuropeptide family. Both peptides are present in nerve fibers in the gastric wall and are thought to be involved in the regulation of inflammatory processes. Experimental ulcers were induced in the rat gastric mucosa by local application of acetic acid. During the healing process we examined the PACAP and VIP innervation by means of immunohistochemistry and in situ hybridization. The ulcer area was examined from day 1 to day 15 after ulcer induction. There was a marked depletion of PACAP in nerve fibers at the ulcer margin from day 1 and onwards. On day 10 and day 15, PACAP-immunoreactive nerve fibers could again be visualized at the ulcer margin. In contrast, VIP immunoreactive nerve fibers were present at the ulcer margin at all time points studied. From day 10 following ulcer induction PACAP- and VIP- immunoreactive nerve fibers were increased in frequency in the smooth muscle beneath the ulcer. An upregulation of VIP and PACAP mRNA was also demonstrated in the myenteric ganglia adjacent to ulcer. The present results indicate that neuronal PACAP and VIP react differently to the inflammation at the ulcer margin but similarly in the smooth muscle during the ulcer healing.     

Investigation of endogenous neurotransmitters of guinea pig gallbladder using nicotinic agonist stimulation

Gallbladder motility is modulated by intrinsic nerves, the identities of which are not well established. The aim of this study was to determine the effect of nicotinic receptor stimulation of intrinsic nerves on gallbladder muscle contractility. Guinea pig gallbladder muscle strips were studied in vitro. Histamine 1 microM was used to increase baseline tone. The nicotinic receptor agonist, 1,1-dimethyl-4-phenylpiperazinium (DMPP), produced a biphasic response characterized by an initial transient contraction followed by a sustained relaxation. The initial contraction was inhibited by the neural blocker tetrodotoxin, the nicotinic antagonist hexamethonium, and the muscarinic antagonist atropine, but not by a substance P receptor antagonist or a bombesin receptor antagonist. The relaxation response to DMPP was not affected by tetrodotoxin, but was reduced by hexamethonium and omega-conotoxin GVIA, an inhibitor of neurotransmitter release. The relaxation response was reduced by the nitric oxide synthase inhibitor L-NAME, but not by a vasoactive intestinal peptide antagonist or propranolol. DMPP produces a biphasic response in the guinea pig gallbladder. The initial contractile response is mediated by nicotinic receptors on the cell body or axon of cholinergic nerves. The relaxation response appears to result, in part, from activation of nicotinic receptors on nerve terminals of nitric oxide-releasing nerves. These results suggest nicotinic receptors have heterogeneity in location depending on excitatory or inhibitory neuronal function.     

Allogeneic bone marrow transplantation for chronic myelomonocytic leukemia in childhood: a report from the European Working Group on Myelodysplastic Syndrome in Childhood

The purpose of this study was to investigate the mechanisms of action of pituitary adenylate cyclase-activating polypeptide (PACAP) in stimulating aldosterone production in two different models: bovine adrenal zona glomerulosa (ZG) cells in primary culture and the human adrenocortical carcinoma cell line H295R. PACAP binds to two major groups of receptors: type I, which prefers PACAP38 and PACAP27 over vasoactive intestinal peptide (VIP); and type II, which has approximately equal affinity for PACAP38, PACAP27, and VIP. The type I subclass comprises multiple splice variants that can be distinguished by their specificity to PACAP38 and PACAP27 in their activation of adenylate cyclase and phospholipase C. Type II PACAP/ VIP receptors couple only to AC. In bovine ZG cells, PACAP38 and PACAP27 stimulated aldosterone production in a dose-dependent manner, whereas VIP was ineffective. In H295R cells, PACAP38, PACAP27, and VIP dose-dependently stimulated aldosterone production with roughly the same ED50. In bovine ZG cells, PACAP38 and PACAP27 stimulated cAMP production with similar efficacy, whereas VIP had no effect. In H295R cells, all three peptides stimulated cAMP accumulation. PACAP38 and PACAP27 also activated PLC in bovine ZG cells as they induced an increase in Ins(1,4,5)Ps production. In H295R cells, neither of these peptides was able to stimulate IP turnover. These results indicate that PACAP stimulation of aldosterone production is mediated by the PVR1s or the PVR1hop splice variants of the type I PACAP-specific receptor subtype in bovine ZG cells, whereas only type II PACAP/VIP receptors seemed to occur in the human H295R cell line. In addition, PACAP-stimulated aldosterone production was inhibited by atrial natriuretic peptide in bovine and human adrenocortical cells, however not by the same mechanism. This further supports species-specific and/or cell type-specific signaling pathways for PACAP in the regulation of aldosterone production.