Association of nicotinic acetylcholine receptors with central respiratory control in isolated brainstem-spinal cord preparation of neonatal rats

Nicotine exposure is a risk factor in several breathing disorders Nicotinic acetylcholine receptors (nAChRs) exist in the ventrolateral medulla, an important site for respiratory control. We examined the effects of nicotinic acetylcholine neurotransmission on central respiratory control by addition of a nAChR agonist or one of various antagonists into superfusion medium in the isolated brainstem-spinal cord from neonatal rats. Ventral C4 neuronal activity was monitored as central respiratory output, and activities of respiratory neurons in the ventrolateral medulla were recorded in whole-cell configuration. RJR-2403 (0.1-10mM), a4b2 nAChR agonist induced dose-dependent increases in respiratory frequency. Non-selective nAChR antagonist mecamylamine (0.1-100mM), a4b2 antagonist dihydro-b-erythroidine (0.1-100mM), a7 antagonist methyllycaconitine (0.1-100mM), and a-bungarotoxin (0.01-10mM) all induced dose-dependent reductions in C4 respiratory rate. We next examined effects of 20mM dihydro-b-erythroidine and 20mM methyllycaconitine on respiratory neurons. Dihydro-b-erythroidine induces hyperpolarization and decreases intraburst firing frequency of inspiratory and preinspiratory neurons. In contrast, methyllycaconitine has no effect on the membrane potential of inspiratory neurons, but does decrease their intraburst firing frequency while inducing hyperpolarization and decreasing intraburst firing frequency in preinspiratory neurons. These findings indicate that a4b2 nAChR is involved in both inspiratory and preinspiratory neurons, whereas a7 nAChR functions only in preinspiratory neurons to modulate C4 respiratory rate.

Antinociception induced by stimulating amygdaloid nuclei in rats: changes produced by systemically administered antagonists

The antinociceptive effects of stimulating the medial (ME) and central (CE) nuclei of the amygdala in rats were evaluated by the changes in the latency for the tail withdrawal reflex to noxious heating of the skin. A 30-s period of sine-wave stimulation of the ME or CE produced a significant and short increase in the duration of tail flick latency. A 15-s period of stimulation was ineffective. Repeated stimulation of these nuclei at 48-h intervals produced progressively smaller effects. The antinociception evoked from the ME was significantly reduced by the previous systemic administration of naloxone, methysergide, atropine, phenoxybenzamine, and propranolol, but not by mecamylamine, all given at the dose of 1.0 mg/kg. Previous systemic administration of naloxone, atropine, and propranolol, but not methysergide, phenoxy-benzamine, or mecamylamine, was effective against the effects of stimulating the CE. We conclude that the antinociceptive effects of stimulating the ME involve at least opioid, serotonergic, adrenergic, and muscarinic cholinergic descending mechanisms. The effects of stimulating the CE involve at least opioid, beta-adrenergic, and muscarinic cholinergic descending mechanisms.

Antinociceptive effects of stimulation of discrete sites in the rat hypothalamus: evidence for the participation of the lateral hypothalamus area in descending pain suppression mechanisms

The sites in the rat hypothalamus where microinjection of morphine 5 mug/0.5 mul) or electrical stimulation depresses the tail withdrawal reflex to noxious heating of the skin were examined. Among other hypothalamic sites found to be sensitive to morphine or to an electrical stimulus, the posterior part of the lateral hypothalamic area (LHA) was the only portion of the hypothalamus that was strongly sensitive to both manipulations. A 15-sec period of 35-muA sine-wave stimulation of the LHA significantly increased the latency of the tail reflex for periods up to 30 min. The effects of intraperitoneal administration of antagonists to opioids (naloxone), 5-hydroxytryptamine (methysergide), noradrenaline (phenoxybenzarnine), dopamine (haloperidol and acetylcholine (atropine and mecamylamine) on the antinociceptive effects of LHA stimulation were also examined. Naloxone, methysergide, and atropine (all given at doses of 0.5 and 1.0 mg/kg attenuated the effects of LHA stimulation in a dose-dependent manner. Phenoxybenzamine, but not haloperidol (both at the dose of 1.0 mg/kg), was also effective but dose-dependent curves could not be constructed. Mecamylamine (1.0 mg/kg) reduced the duration but no the peak effect of stimulating the LHA. We conclude that antagonism at the level of opioid, serotonergic, adrenergic, and muscarinic cholinergic receptors, but not dopamine or nicotinic cholinergic receptors reduces the antinociceptive effects of LHA stimulation. This may imply that antinociception evoked from the LHA depends on the activation of descending pathways that relay in the mesencephalic periaqueductal gray matter and then in the nucleus raphe magnus and/or nucleus reticularis paragigantocellularis.

Influence of sympathetic tone on the reactivity to indorenate in the external carotid vascular bed of the dog

The present study was designed to analyze the effects of drugs th at interfere with sympathetic transmission on the external carotid vasodilator response induced by the 5-HT1A receptor agonist, indorenate, in pentobarbital-anesthetized dogs. Intracarotid (i.c.) infusions of indorenate (1000 µg/lmin) produced an increase in external carotid blood flow (external C.B.F.) without modifying mean arterial blood pressure or heart rate. This effect of indorenate was dose-dependently antagonized by intravenous (i.v.) administration of the Ó1-adrenoceptor antagonist, prazosin (1, 3.1, 10, 31 and 100 µg/kg), the ganglionic blocking agent, mecamylamine (0.31, 0.1, 0.31, 1, 3.1 and 10 mg/kg) or the 5-HT2 receptor and Ó1-adrenoceptor antagonist, ketanserin (10, 31 and 100 µ/kg). It is concluded that indorenate.induced increase in canine external C.B.F. is dependent on the vascular neurogenic tone

Effects of nicotine on pain and aggressivity and antagonism of these effects by mecamylamine

Nicotine caused a dose-dependent decrease [1.25 and 2.5 mg/kg] on writhing score of the mice, made painful by intraperitoneal [i.p.] acetic acid injection. At the dose of 0.75 mg/kg i.p. nicotine lowered attack score and time of the mice but there wasn't a significant change at 0.5 mg/kg dosage. These effect of nicotine were blocked by 2.5 mg/kg mecamlamine which was given 15 minutes before nicotine administration

Alfa-melanotropin induced excessive grooning involve brain acetylcholine possible interaction in the ventral tegmental area

Cuando alfa-MSH es inyectado en el área tegmental ventral (VTA) o intracerebroventricularmente (icv) induce comportamiento de aseo excesivo. La infusión icv del péptido tamién provoca el síndrome de estiramiento y bostezo (SEB). Estos efectos son suprimidos por la administración de atropina intraperitoneal, icv o en el ATV. Las evidencias experimentales presentadas sugerían que alfa-MSH actuaría específicamente sobre una aferencia colinérgica en el ATV. Los resultados indicarían que el péptido actuaría en un blanco neural distinto al sistema dopaminérgico , y originaría los cambios comportamentales recientemente mencionados

Action of acetylcholine on the atropinised heart of the frog during summer months.

During summer months high doses of acetylcholine produced positive inotropic and chronotropic actions in 19 out of 22 preparations of atropinised perfused heart of the frog. Hexamethonium failed to block both the positive inotropic and chronotropic actions of Ach. Interestingly another ganglion blocking agent mecamylamine as well as beta adrenergic blocking agent propranolol blocked the positive inotropic action but not the positive chronotropic action.