The role of central melanocortin receptors in the activation of the hypothalamus-pituitary-adrenal-axis and the induction of excessive grooming

1. In accord with previous studies intracerebroventricular (i.c.v.) injections of ACTH1-24 (1 microg) induced a display of excessive grooming, and increased the plasma concentrations of ACTH and corticosterone. Pituitary-adrenal activation was blocked by pretreatment with dexamethasone, indicating that the effect of the (i.c.v.) injected peptide was not caused by a peripheral effect on the adrenal cortex. 2. Doses of 1 and 3 microg of a non-selective melanocortin-3/4-receptor antagonist (SHU 9119), or of 5 and 10 microg of a selective melanocortin-4-receptor antagonist ([D-Arg8]ACTH4-10), coadministered (i.c.v.) with 1 microg ACTH1-24, inhibited the ACTH1-24-induced activation of the hypothalamus-pituitary-adrenal-axis and excessive grooming. 3. In addition, several doses of the selective melanocortin-3-receptor agonist Lys-gamma2-MSH were centrally administered, but neither neuroendocrine, nor excessive grooming responses were observed. 4. These results imply that the melanocortin-4-receptor, and not the melanocortin-3-receptor, is involved in the ACTH1-24-induced rise in plasma levels of ACTH and corticosterone, and excessive grooming.     

Inhibition of nitric oxide synthesis inhibits rat sleep

Previous findings indicate that nitric oxide (NO) may play a role in the regulation of sleep-wake activity. In rabbits, blocking the production of endogenous NO by a nitric oxide synthase inhibitor, N omega-nitro-L-arginine (L-NAME) suppresses spontaneous sleep and interferes the somnogenic actions of interleukin 1. In the present experiments we extended our earlier work by studying the long-term effects of L-NAME treatment on sleep-wake activity including power spectra analyses of the electroencephalogram (EEG) in rats. Rats implanted with EEG electrodes, brain thermistor, and intracerebroventricular (i.c.v.) guide cannula were injected i.c.v. with vehicle or 0.2, 1, or 5 mg L-NAME at light onset. In separate experiments, rats were injected intraperitoneally (i.p.) with L-NAME three times (50, 50, 100 mg/kg), 12-12 h apart. Both i.c.v. and i.p. injections of L-NAME elicited decreases in time spent in NREMS and REMS. After i.c.v. injection of 5 mg L-NAME the sleep responses were long-lasting; NREMS did not return to baseline even 72 h after injection. EEG delta-wave activity during NREMS (slow wave activity) was also suppressed after 0.2 and 5 mg L-NAME. Brain temperature was slightly increased after the two lower doses of L-NAME, whereas there was a transient decrease in Tbr after 5 mg L-NAME. Acute i.p. injection of 50 mg/kg L-NAME elicited an immediate decrease in NREMS which lasted for approximately 2 h. The second injection of 50 mg/kg L-NAME and the following injection of 100 mg/kg L-NAME induced biphasic decreases in NREMS but not REMS.     

Muscarinic receptor subtype involvement in brain cholinergic stimulation by intracerebroventricular neostigmine in sinoaortic denervated rats

1. The present studies evaluated the participation of central muscarinic receptors in the cardiovascular effects of centrally injected neostigmine, a quaternary anticholinesterase, in conscious, sham-operated rats and in sinoaortic denervated animals. 2. The dose-dependent pressor effect of neostigmine (0.1 to 1 microg i.c.v.) was greater in sinoaortic denervated rats than in sham-operated animals, but only a dose-dependent bradycardic effect was seen in sham-operated rats. 3. Doses of 3.3 nmol (i.c.v.) of both the M1 muscarinic antagonist, pirenzepine, and the M3 muscarinic antagonist, 4-DAMP, prevented the pressor response to 1 microg of neostigmine in sham-operated rats and in sinoaortic denervated animals; however, the M2 muscarinic antagonist, AF-DX116, partially blocked this response in sham-operated rats while failing to do so in sinoaortic denervated rats. In sham rats, doses of 3.3 nmol (i.c.v.) of both pirenzepine and 4-DAMP prevented the bradycardic response to 1 microg (i.c.v.) of neostigmine, whereas AF-DX116 induced a partial blockade. 4. 4-DAMP, at the dose of 0.3 nmol (i.c.v.), but not pirenzepine at the same dose, prevented the pressor effect of neostigmine (0.1 to 1 microg i.c.v.) in both groups of rats. Both muscarinic antagonists at this dose prevented the bradycardia elicited by the anticholinesterase (0.1 to 1 microg i.c.v.), but 4-DAMP showed a greater antagonistic action on this cardiac effect than pirenzepine. In sham-operated rats, i.c.v. injection of 0.3 nmol of AF-DX116 failed to modify the cardiovascular responses to 0.3 microg of neostigmine. 5. Results suggest mainly an involvement of brain M3-subtype muscarinic receptors in the cardiovascular effect of intracerebroventricular administration of anticholinesterase neostigmine in both groups of rats.     

The nitric oxide/cyclic GMP system at the supraspinal site is involved in the development of acute morphine antinociceptive tolerance

The role of the supraspinal nitric oxide (NO)/cyclic GMP system in the development of acute morphine antinociceptive tolerance was investigated by use of the mouse 55 degrees C warm-water tail-flick test. A single intracerebroventricular (i.c.v.) pretreatment of mice with morphine (3 nmol, 140 min before testing) produced an acute antinociceptive tolerance to subsequent i.c.v. doses of morphine, as demonstrated by a 120-fold rightward shift of the morphine dose-response curve. When co-administered with morphine (140 min before testing), the NO synthase inhibitors: N-nitro-L-arginine methyl ester (L-NAME), 3-bromo-7-nitroindazole, 7-nitroindazole and NG-monomethyl-L-arginine, attenuated the development of morphine tolerance. All four NO synthase inhibitors completely blocked the rightward shift of the morphine dose-response curve caused by i.c.v. morphine pretreatment (3 nmol, 140 min before testing). This effect was partially antagonized by L-arginine, but not D-arginine, in a dose-dependent manner. Also, D-NAME did not block the development of tolerance. Like the NO synthase inhibitors, LY-83,583, a guanylyl cyclase inhibitor, blocked the development of tolerance, which suggests that NO acting through the cyclic GMP pathway is involved in the development of acute antinociceptive tolerance. The effects of increased NO production on acute morphine antinociceptive tolerance were also studied. When co-administered with morphine (140 min before testing), neither L-arginine (100 nmol) nor the NO donors, sodium nitroprusside (5 nmol) and isosorbide dinitrate (10 nmol), had any effect on the magnitude of morphine antinociceptive tolerance. These results suggest that NO, acting through the cyclic GMP pathway, mediates the development of acute antinociceptive tolerance, but that NO production does not alter the magnitude of antinociceptive tolerance.     

Mediation by nitric oxide of TRH-, but not metoclopramide-stimulated TSH secretion in humans

In order to establish whether nitric oxide (NO) participates in the regulation of thyroid stimulating hormone (TSH) secretion in humans, seven normal men were treated with a placebo (normal saline) or the NO synthase inhibitor L-NAME, given at doses (40 micrograms kg-1 injected plus 50 micrograms kg-1 infused i.v.) previously found to be unable to change blood pressure. Experiments were carried out either in basal conditions or during stimulation of TSH secretion with an i.v. injection of 200 micrograms thyrotropin releasing hormone (TRH) or 10 mg of the dopaminergic antagonist metoclopramide (MCP). Administration of L-NAME did not change the basal secretion of TSH or the TSH response to MCP, but significantly reduced the TSH increase induced by TRH. These data fail to provide evidence of NO involvement in regulation of basal TSH secretion. NO also appears to be without effects on the dopaminergic control of TSH secretion. In contrast, the inhibitory effect of L-NAME on TRH-induced TSH secretion suggests the mediation by NO of the TSH-releasing action of TRH.     

The effect of central angiotensin II receptor blockade on interleukin-1beta- and prostaglandin E-induced fevers in rats: possible involvement of brain angiotensin II receptor in fever induction

We investigated the role of the brain angiotensin II (Ang II) receptor subtypes AT1 and AT2 in the development of fever induced in freely moving rats by administration of interleukin-1beta (IL-1beta) or prostaglandin E2 (PGE2). Intraperitoneal (i.p.) injection of IL-1beta (2 microg/kg) induced a marked fever of rapid onset. Intracerebroventricular (i.c.v.) administration, immediately before IL-1beta injection, of a selective AT2 receptor antagonist, CGP42112A (5 or 20 microg), reduced the fever in a dose-related manner. Rats given an i.c.v. injection of PGE2 (200 ng) developed a monophasic fever response that was attenuated by i.c.v. treatment with CGP42112A (10 or 20 microg) in a dose-related manner. The IL-1beta (2 microg/kg i.p.)- and PGE2 (200 ng i.c.v.)-induced fevers were unchanged by the selective AT1 receptor antagonist losartan (60 microg i.c.v.). Treatment with exogenous Ang II (100 ng i.c.v.), which itself had no effect on resting body temperature, resulted in an enhancement of the PGE2 (50 ng i.c.v.)-induced fever. The administration of CGP42112A (2 and 5 microg) into the rostral hypothalamus (preoptic/anterior hypothalamic region) reduced fevers induced by IL-1beta (2 microg/kg i.p.) or intrahypothalamic (i.h.) PGE2 (100 ng). Moreover, i.h. injection of Ang II (25 ng) augmented the PGE2 (25 ng i.h.)-induced fever. Finally, the i.h. administration, 15 min before i.h. PGE2 (100 ng), of the angiotensin-converting enzyme (ACE) inhibitor lisinopril (5 and 10 microg) attenuated the PGE2-induced fever. These results suggest that brain AT2 receptors contribute to the induction of such febrile responses in rats.     

The role of corticotropin-releasing factor and corticosterone in stress- and cocaine-induced relapse to cocaine seeking in rats

We have shown previously that footshock stress and priming injections of cocaine reinstate cocaine seeking in rats after prolonged drug-free periods (Erb et al., 1996). Here we examined the role of brain corticotropin-releasing factor (CRF) and the adrenal hormone corticosterone in stress- and cocaine-induced reinstatement of cocaine seeking in rats. The ability of footshock stress and priming injections of cocaine to induce relapse to cocaine seeking was studied after intracerebroventricular infusions of the CRF receptor antagonist D-Phe CRF12-41, after adrenalectomy, and after adrenalectomy with corticosterone replacement. Rats were allowed to self-administer cocaine (1.0 mg/kg/infusion, i.v) for 3 hr daily for 10-14 d and were then placed on an extinction schedule during which saline was substituted for cocaine. Tests for reinstatement were given after intermittent footshock (10 min; 0.5 mA) and after priming injections of saline and cocaine (20 mg/kg, i.p.). Footshock reinstated cocaine seeking in both intact animals and animals with corticosterone replacement but not in adrenalectomized animals. The CRF receptor antagonist D-Phe CRF12-41 blocked footshock-induced reinstatement at all doses tested in both intact animals and animals with corticosterone replacement. Reinstatement by priming injections of cocaine was only minimally attenuated by adrenalectomy and by pretreatment with D-Phe CRF12-41. These data suggest that brain CRF plays a critical role in stress-induced, but only a modulatory role in cocaine-induced, reinstatement of cocaine seeking. Furthermore, the data show that although reinstatement of cocaine seeking by footshock stress requires minimal, basal, levels of corticosterone, stress-induced increases in corticosterone do not play a role in this effect.     

Effects of intracerebroventricular leptin administration on food intake, body weight gain and diencephalic nitric oxide synthase activity in the mouse

1. Intracranial administration of leptin reduces both food intake and body weight gain in the mouse. Inhibitors of nitric oxide (NO) synthase produce similar effects. 2. To investigate the role of the brain L-arginine/NO pathway in mediating this effect of leptin, we have evaluated food intake and body weight gain after daily (5 days) intracerebroventricular (i.c.v.) administration of leptin (0.5-2 microg) alone or in association with L-arginine (10 microg). Moreover, we measured diencephalic nitric oxide synthase (NOS) activity after a single i.c.v. leptin (0.25-2 microg) injection and after consecutive doses of leptin (0.25-2 microg) over 5 days. The time course of the effect of leptin on NOS activity was also evaluated. 3. I.c.v. injected leptin (1 and 2 microg) significantly and dose-dependently reduced food intake and body weight gain with respect to vehicle (food intake: 5.97+/-0.16 g 24 h(-1) and 4.27+/-0.18 g 24 h(-1), respectively, vs 8.05+/-0.34 g 24 h(-1), P<0.001, n=6 for each group; body weight gain: -10.7+/-0.46% and -15.7+/-0.65%, respectively, vs 5.14+/-0.38%, P<0.001, n=6 for each group). This effect was antagonized by L-arginine (food intake: 7.90+/-0.37 g 24 h; body weight gain: 5.11+/-0.31%, n=6). Diencephalic NOS activity was significantly reduced by the highest doses of leptin with respect to vehicle (vehicle: 0.90+/-0.04 nmol citrulline min(-1) g(-1) tissue; leptin 1 microg: 0.62+/-0.03 nmol citrulline min(-1) g(-1) tissue, P<0.001; leptin 2 microg: 0.44+/-0.03 nmol citrulline min(-1) g(-1) tissue, P<0.001, n=6 for each group). Similar results were obtained in animals treated with daily consecutive doses of leptin. The inhibitory effect appeared rapidly (within 30 min) and was long lasting (up to 12 h). 4. Our results suggest that the brain L-arginine/NO pathway may be involved in the central effect of leptin on feeding behaviour and body weight gain in mice.     

An extension of Satterthwaite''s approximation applied to pharmacokinetics

Central inhibition of nitric oxide synthase (NOS) by intracerebroventricular (i.c.v.) administration of NG-nitro-l-arginine methyl ester (L-NAME; 150 microg/5 microl) to conscious rats produced a biphasic pressor response characterized by an initial transient increase within 5 min, and a delayed response starting between 60-90 min. The effect was stereospecific, as D-NAME (250 microg/5 microl) did not modify the resting arterial blood pressure, nor did L-arginine (323 microg/5 microl, i.c.v.), indicating the substrate for NOS is not rate-limiting. Intracerebroventricular pretreatment with losartan (25 microg/5 microl), a non-peptide antagonist of the angiotensin II AT1 receptor subtype, or indomethacin (100 microg/5 microl), a blocker of cyclooxygenase, however, prevented the initial increase in blood pressure without affecting the delayed pressor response. In contrast, neither intravenous losartan (10 mg/kg b.wt) nor prazosin, an alpha1 adrenergic receptor antagonist, at doses of 5 microg/5 microl (i.c.v.) or 0.3 mg/kg b.wt (i.v.) were effective in altering the pressor responses. These results indicate that centrally produced NO maintains the resting arterial blood pressure at least partially through modulation of the brain angiotensin system and prostaglandins.     

Boron neutron capture therapy of brain tumors: enhanced survival following intracarotid injection of either sodium borocaptate or boronophenylalanine with or without blood-brain barrier disruption

The purpose of the present study was to determine whether the efficacy of boron neutron capture therapy could be enhanced by means of intracarotid (i.c.) injection of sodium borocaptate (BSH) or boronophenylalanine (BPA) with or without blood-brain barrier disruption (BBB-D). For biodistribution studies, F98 glioma-bearing rats were injected i.v. or i.c. with either BSH (30 mg of boron/kg of body weight) or BPA (24 mg of boron/kg of body weight) with or without mannitol-induced, hyperosmotic BBB-D and killed 2.5 h later. The highest tumor boron concentrations for BSH and BPA were attained following i.c. injection with BBB-D (48.6 and 94.0 microg/g, respectively) compared to i.c. (30.8 and 42.7 microg/g) and i.v. injection (12.9 and 20.8 microg). Using the same doses of BSH and BPA, therapy experiments were initiated 14 days after intracerebral implantation of F98 glioma cells. Animals were irradiated 2.5 h after i.v. or i.c. administration of the capture agent with or without BBB-D using a collimated beam of thermal neutrons at the Brookhaven Medical Research Reactor. The median survival times of rats given BSH or BPA i.c. were 52 and 69 days, respectively, for rats with BBB-D; 39 and 48 days for rats without BBB-D; 33 and 37 days for i.v. injected rats; 29 days for irradiated controls; and 24 days for untreated controls. i.c. injection of either BSH or BPA resulted in highly significant enhancement (P = 0.01 and P = 0.0002, respectively) of survival times compared to i.v. injection, and this was further augmented by BBB-D (P = 0.02 and P = 0.04, respectively) compared to i.c. injection. Normal brain tissue tolerance studies were carried out with non-tumor-bearing rats, which were treated in the same way as tumor-bearing animals. One year after irradiation, the brains of these animals showed only minimal radiation-induced changes in the choroid plexus, but no differences were discernible between irradiated controls and those that had BBB-D followed by i.c. injection of either BSH or BPA. Our data clearly show that the route of administration, as well as BBB-D, can enhance the uptake of BSH and BPA, and, subsequently, the efficacy of boron neutron capture therapy.     

Histamine-induced biphasic macromolecular leakage in the microcirculation of the conscious hamster: evidence for a delayed nitric oxide-dependent leakage

1. Late effects (up to 3 h) of intravenously-injected histamine on FITC-dextran extravasation were investigated in the conscious hamster, by use of computer-assisted image analysis of fluorescence distribution in a microscopic window of dorsal skin fold preparations. This analysis allowed measurement of local (skin) and general (all organs) extravasations caused by a bolus injection of histamine (1 mg kg(-1), i.v.) 2. Histamine doses higher than 0.01 mg kg(-1) caused biphasic local and general extravasations. Initial phases developed fully within 15 min (for local) and 60 min (for general) and were followed by late phases beginning 90 min after histamine injection. Although the initial and late phases of histamine-induced extravasations had differential apparent reactivities to the autacoid, all the effects of histamine on the microcirculation (1 mg kg[-1]) were inhibited by pyrilamine (1 mg kg(-1), i.v.) but not by cimetidine (1 mg kg(-1), i.v.). 3. Pretreatment with N(G)-monomethyl-L-arginine (L-NMMA, 30 mg kg(-1), i.v.) or N(G)-nitro-L-arginine methyl ester (L-NAME, 100 mg kg(-1), i.v.) did not affect the initial phases but did prevent the late phases of local and general extravasations triggered by 1 mg kg(-1) histamine. The inhibitory effects of L-NAME were reversed by L-arginine (30 mg kg[-1]) but not by D-arginine (30 mg kg[-1]) according to the enantioselectivity of nitric oxide synthase (NOS). A late NO-mediated venular dilatation occurred in response to plasma histamine. 4. A low dose of aminoguanidine (1 mg kg(-1), i.v.), a selective inhibitor of the inducible isoform of NOS (iNOS), mimicked the inhibitory effects of L-NAME on the late phases of histamine-induced macromolecular extravasations and venular dilatation. 5. Pretreatment with dexamethasone (1 mg kg(-1), i.v.) prevented both the initial and late phases of histamine-induced extravasations. Fucoidan (1 or 25 mg kg(-1), i.v.) prevented the late phases without affecting initial phases, consistent with a role for leukocytes adhesion in the development of the late NO-mediated effects of histamine. 6. We conclude that intravenous injection of histamine triggers a biphasic inflammatory cascade via initial activation of H1 receptors which induces a late NO-mediated PMN-dependent extravasation process.     

Monocyte chemotactic protein 1 regulates oral tolerance induction by inhibition of T helper cell 1-related cytokines

Intracerebroventricular (i.c.v.) choline (50-150 microg) increased blood pressure and decreased heart rate in spinal cord transected, hypotensive rats. Choline administered intraperitoneally (60 mg/kg), also, increased blood pressure, but to a lesser extent. The pressor response to i.c.v. choline was associated with an increase in plasma vasopressin. Mecamylamine pretreatment (50 microg; i.c.v.) blocked the pressor, bradycardic and vasopressin responses to choline (150 microg). Atropine pretreatment (10 microg; i.c.v.) abolished the bradycardia but failed to alter pressor and vasopressin responses. Hemicholinium-3 [HC-3 (20 microg; i.c.v.)] pretreatment attenuated both bradycardia and pressor responses to choline. The vasopressin V1 receptor antagonist, (beta-mercapto-beta,beta-cyclopenta-methylenepropionyl1, O-Me-Tyr2, Arg8)-vasopressin (10 microg/kg) administered intravenously 5 min after choline abolished the pressor response and attenuated the bradycardia-induced by choline. These data show that choline restores hypotension effectively by activating central nicotinic receptors via presynaptic mechanisms, in spinal shock. Choline-induced bradycardia is mediated by central nicotinic and muscarinic receptors. Increase in plasma vasopressin is involved in cardiovascular effects of choline.     

Epithelial removal with the excimer laser (laser-scrape) in photorefractive keratectomy retreatment

1. A study was made relating the involvement of alpha-adrenoceptors in the cardiovascular responses to intracerebroventricular (i.c.v.) injection of B-HT 920, a clonidine-type drug, in conscious sham-operated and sinoaortic-denervated rats. 2. Wistar rats were used, 7 days after the sham operation or sinoaortic denervation. For i.c.v. injection of drugs, a guide cannula had been previously implanted in the left lateral ventricle. 3. In sham-operated rats, cardiovascular responses to B-HT 920 (10-60 microg) were increased blood pressure and bradycardia; but, in sinoaortic-denervated rats, after the pressor response, a decrease in blood pressure also was seen. The responses to this agent were greater in sinoaortic-denervated rats than in sham-operated animals. Treatment with the alpha2-adrenoceptor antagonist yohimbine (30 microg), the imidazoline receptor antagonist idazoxan (15 microg) and the alpha1A-adrenoceptor antagonist 5-methylurapidil (15 microg) blocked the responses to B-HT 920 (30 microg). The alpha1-adrenoceptor antagonist prazosin (15 microg) and the alpha1B-adrenoceptor antagonist chloroethylclonidine (100 microg) did not modify the responses to agonist. 4. Sinoaortic denervation enhances the cardiovascular responses to B-HT 920. Moreover, the effects of i.c.v. administration of B-HT 920 could be mediated by several types of brain receptors: imidazoline receptors and alpha1A- and alpha2-adrenoceptors.     

Cytokines serum levels as the markers of thyroid activation in Graves'' disease

We examined whether central somatostatin prevents an inhibitory effect of central calcitonin-gene related peptide (CGRP) on pancreatic secretion in conscious male Wistar rats (330-330 g). Rats were prepared with separate cannulas for draining bile and pancreatic juice and with a duodenal cannula and an extrajugular vein cannula. In addition, another cannula was stereotactically implanted into the left lateral cerebral ventricle. Rats were placed in restraint cages and experiments were conducted 4 days after the operation without anesthesia. An injection of CGRP (0.1, 1.0 nmol/10 microl) into the left lateral cerebral ventricle (i.c.v.) inhibited pancreatic secretion dose-dependently. To confirm the inhibitory effect of CGRP (i.c.v.) was mediated via sympathetic nerves, phentolamine was injected intravenously (i.v.) bolus (0.5 mg kg(-1)) 0.5-h before CGRP (i.c.v.), followed by continuous infusion of 0.2 mg kg(-1) h(-1). Phentolamine (i.v.) reversed the inhibition produced by CGRP (i.c.v.). An injection of 4 nmol/10 microl somatostatin (i.c.v.) 5 min prior to CGRP injection diminished the inhibitory effect of CGRP (i.c.v.). It is concluded that centrally administered somatostatin diminished the inhibitory action of CGRP (i.c.v.) on pancreatic secretion, probably via inhibiting autonomic (sympathetic) nerve excitation at the central site.     

Effects of moguisteine on the cough reflex induced by afferent electrical stimulation of the superior laryngeal nerve in guinea pigs

The study aimed to further demonstrate the peripheral antitussive properties of moguisteine. Firstly, the antitussive effect of moguisteine on the cough reflex induced by inhalation of citric acid aerosol was evaluated in conscious guinea pigs. Secondly, the effects of both moguisteine and codeine on the centrally mediated cough reflex induced by afferent electrical stimulation of the superior laryngeal nerve were investigated in anesthetized guinea pigs. Moguisteine (2.5-10 mg/kg, intravenously, i.v.) reduced the cough reflex induced by 7.5% citric acid aerosol in a dose-dependent manner, with an ED50 value of 0.55 mg/kg. Both i.v. (0.5-4 mg/kg) and intracerebroventricular (i.c.v., 5-20 microg) injection of codeine dose dependently inhibited the cough reflex induced by afferent electrical stimulation of the superior laryngeal nerve; the ED50 values were 0.91 mg/kg and 7.90 microg, respectively. The inhibitory effect of codeine (4 mg/kg i.v.) was abolished by pretreatment with naloxone (2 mg/kg intraperitoneally). In contrast to codeine, neither i.v. (4 and 20 mg/kg) nor i.c.v. (20 microg) injection of moguisteine affected the cough reflex. These results suggest that the antitussive effect of codeine is mediated by central opioid mechanisms, whereas the antitussive effect of moguisteine is mediated by peripheral mechanisms.     

Complete reversal of ischemic wall motion abnormalities by combined use of gene therapy with transmyocardial laser revascularization

1. The effects of the various doses of NG-nitro-L-arginine methyl ester (L-NAME, 10 and 30 mg/kg) on some cardiovascular and biochemical parameters during the early posthemorrhagic period were studied in anesthetized rabbits subjected to hemorrhagic hypovolemia. 2. Hemorrhagic shock was produced by intermittent bleeding of 40% of the estimated blood volume for 15 min. Blood samples were taken before and after bleeding (0, 15 and 60 min). Simultaneously, the mean arterial pressure (MAP) and the heart rate (HR) were measured. Hemorrhaged rabbits were treated by L-NAME10 or L-NAME30 (10 or 30 mg/kg, i.v. bolus injection, respectively) or the corresponding volumes of saline (0.6 ml, i.v. bolus) immediately after the end of bleeding. 3. The observed cardiovascular parameters (MAP, HR) were significantly reduced after the end of bleeding in all rabbits. 4. The rise of the MAP was significantly more pronounced 30 min after the injection of L-NAME30 in comparison with the corresponding values in the saline (S) group. In contrast, L-NAME10 produced only a small, insignificant increase in the MAP in hemorrhaged rabbits. 5. The L-NAME30-induced rise of the MAP was accompanied by a severe bradycardia, hyperkalemia and an aggravated metabolic acidosis, more severe than the corresponding disturbance of the acid-base status in the S group. The changes in the acid-base parameters were observed both in arterial (pH, excess base) and in venous blood (pH) of hemorrhaged rabbits. 6. In conclusion, the i.v. bolus injection of L-NAME30 (immediately after the end of bleeding) produced a significant increase in the MAP during the first hour after the injury, but the presumable inhibition of the endothelial constitutive nitric oxide synthase during the early posthemorrhagic period resulted in severe cardiovascular and metabolic disturbances.     

Influence of fasting and neuropeptide Y on the suppressive food intake induced by intracerebroventricular injection of glucagon-like peptide-1 in the neonatal chick

Recently, we have reported that central administration of glucagon-like peptide-1 (GLP-1) strongly decreased food intake of chicks. The aim of the present study was to elucidate whether suppressed food intake by central injection of GLP-1 would be modified by an appetite stimulant such as fasting and neuropeptide Y (NPY). Birds (2 days old) were starved for 3 or 6 h and then GLP-1 (0.03 microg/10 microl) or saline was injected by the intracerebroventricular (i.c.v.) route. Birds starved for 6 h ate significantly more food than those starved for 3 h, while irrespective of the time for fasting GLP-1 strongly inhibited food intake as rapidly as 10 min after i.c.v injection. The suppressive effect on food intake continued until 4 h after injection. Central administration of NPY (2.5 microg/10 microl) greatly enhanced food intake, but co-injection of GLP-1 (0.01, 0.02 or 0.03 microg/10 microl) decreased food intake in a dose-dependent fashion. Under GLP-1 (0.03 microg/10 microl) treatment, whether NPY modifies food intake of chicks in a dose-dependent manner was investigated by co-injection of graded levels of NPY (0.4, 1.0 and 2.5 microg/10 microl). GLP-1 completely inhibited the effect of NPY on food intake without a dose response. These results suggest that central GLP-1 may interact with NPY and may be the most potent inhibitor of food intake in the chicken.     

Inter-RNA interaction of phage phi29 pRNA to form a hexameric complex for viral DNA transportation

The order of potency of tachykinin (TK) receptor agonists suggests that TK NK-1 receptors mediate their inhibitory effect on water intake induced by intracerebroventricular (i.c.v.) injection of angiotensin II (AngII) in rats. The present study was aimed at further evaluating which TK receptor subtype mediates the effect, using selective antagonists for the TK receptor subtypes. Pulse i.c.v. injection of the TK agonist neuropeptide gamma (NP gamma), 31-250 ng/rat, markedly inhibited AngII-induced water intake. The i.c.v. injection of the NK-1 receptor antagonist SR14033, 0.5 microgram/rat, significantly reduced, while 1 microgram/rat completely abolished the inhibitory effect of NP gamma, 125 ng/rat. The selective NK-2 receptor antagonist SR48968 and the selective NK-3 receptor antagonist R820 were devoid of any effect up to the i.c.v. dose of 2 micrograms/rat. On the other hand, i.c.v. injection of SR140333, 1 microgram/rat, did not increase drinking induced by i.c.v. injection of AngII, 0.1-10 ng/rat, and did not increase drinking in water sated or water deprived rats. The results of the present study confirm that central TKergic mechanisms inhibit AngII-induced drinking in rats, and provide further evidence that TK NK-1 receptors mediate the effect. Failure of i.c.v. injected SR 140333 to increase AngII-induced drinking, as well as water intake in sated or deprived rats suggests that brain NK-1 receptor mechanisms apparently do not exert a tonic control on AngII-induced drinking and, in general, on water intake in rats. From a pharmacological point of view, the inhibitory effect of TKs on the dipsogenic action of AngII can represent a functional test for activity at central NK-1 receptors in rats.     

Suppression for the proliferation of fibroblasts by external DNA

ntracerebroventricularly (i.c.v.) administered nitric oxide (NO) donors, 3-morpholinosydnonimine (SIN-1) (100-500 microg/animal) and sodium nitroprusside (SNP) (100-250 microg/animal) dose-dependently inhibited the rat gastric acid secretion evoked by vagal stimulation at 3 Hz. Furthermore, the inhibitory effect of SIN-1 (250 microg/animal) was more marked and its onset was more rapid than that of SNP (250 microg/animal). The SIN-1 (250 microg/animal)-induced antisecretory effect was abolished by both splanchnicotomy and phentolamine (5 mg/kg, i.m.), and also by indomethacin (500 microg/animal, i.c.v.). These results suggest that i.c.v. administered NO donors inhibit vagally evoked gastric acid secretion by activation of central sympathetic outflow. Central prostaglandin is probably implicated in this NO-mediated antisecretory effect.     

Arachidonic acid and its metabolites are involved in the expression of morphine dependence in guinea-pig isolated ileum

This study was undertaken to determine if the nitric oxide (NO) synthase inhibitor, NG-nitro-L-arginine methyl ester (L-NAME), is a competitive antagonist of muscarinic receptors in vivo. Cats were anesthetized with pentobarbital (36 mg/kg, i.p.). Five peripheral muscarinic responses were characterized based on their sensitivity to intravenous administration of atropine (1-100 microg/kg), pirenzepine (1-100 microg/kg) or gallamine (30-3000 microg/kg) as follows: (1) muscarinic ganglionic transmission through the superior cervical ganglion to the nictitating membrane (M1), (2) electrically elicited vagal bradycardia (M2), (3) neurally evoked sudomotor responses (M3; non-endothelial), (4) basal pupil tone in sympathectomized cats (M3; non-endothelial) and (5) methacholine-induced depression of arterial blood pressure (M3; endothelial). Additional groups of animals were administered L-NAME (50 mg/kg, i.v.) to determine if this agent would alter activation of these muscarinic systems. L-NAME was devoid of effect on responses elicited by stimulation of muscarinic M1, M2 and M3 (non-endothelial) receptors. In contrast, L-NAME significantly reduced the depressor responses to i.v. methacholine (M3; endothelial), as did its non-alkyl ester congener, L-NA (NG-nitro-L-arginine; 25 mg/kg, i.v.). These results support the conclusion that although L-NAME inhibits synthesis of nitric oxide in vascular endothelial cells, it is not a generalized muscarinic receptor antagonist in vivo.