Influence of dopamine on rumino-reticular motility and rumination in sheep

The effects of intracerebroventricular (i.c.v.) and intravenous (i.v.) administration of dopamine and its antagonists (domperidone and metoclopramide) on forestomach motility were investigated in four sheep fitted with Nichrome electrodes and strain gauges implanted on the reticulum and the caudo-dorsal sac of the rumen. Infused by the i.c.v. route at a rate of 2 micrograms . kg-1 . min-1, dopamine inhibited the phasic contractions of the reticulo-rumen. A similar effect was obtained following i.v. administration of doses which were 10 times higher, but the effect was associated with an increased tone of the rumen wall. Prior i.v. administration of domperidone (0.5 micrograms . kg-1) blocked these effects and a selective blockade of the dopamine-induced inhibition of phasic contractions was obtained with higher dose of domperidone (2.5 micrograms . kg-1) administered centrally. When dopamine was infused alone ventricularly or intravenously after metoclopramide (40 micrograms . kg-1), it induced a transient (6-8 min) period of rumination, which could be blocked by a prior i.c.v. administration of tolazoline. It was concluded that dopamine acts on rumino-reticular motility in sheep through specific dopamine receptors (i) centrally by inhibiting the frequency of reticular contraction and (ii) peripherally by increasing the muscular tone of the rumen, and its effects on rumination involved alpha 2 adrenergic receptors located in the central nervous system.     

Modification by 6-hydroxydopamine (6-OHDA) of the inhibition of extrinsic rumen contractions in sheep produced by beta-endorphin

In sheep, beta-endorphin (1 and 2 micrograms/kg) administered into the third cerebral ventricle caused a significant inhibition of the frequency of rumen contractions. The amplitude of the first rumen contractions, following immediately after the end of infusion, and the average amplitude of primary rumen contractions, were inhibited. Beta-endorphin caused general psychomotor excitability. These results suggest that an inhibitory mu and delta opioid system is involved in the control of forestomach motility and general behaviour in sheep. All effects of beta-endorphin were completely prevented by i.c.v. 6-hydroxydopamine (6-OHDA, 18.2 micrograms/kg) pre-treatment. These results suggest that beta-endorphin-induced inhibition of rumen motility is due to central noradrenergic system activation. The exact location of this noradrenergic system remains to be determined.     

Loperamide: evidence for a centrally mediated opioid effect on rumen motility in conscious goats and sheep

Loperamide inhibited the frequency and amplitude of cyclical contractions of the rumen in conscious goats (100 micrograms/kg, i.v. and sheep (250 micrograms/kg, i.v.). In goats, the inhibitory effect of loperamide could be prevented by pretreatment with the opiate antagonist naltrexone (greater than or equal to 12.5 micrograms/kg, i.v.) but not by pretreatment with the dopaminergic antagonist domperidone (500 micrograms/kg, i.v.). Intracerebroventricular administration of 1 microgram/kg loperamide in goats significantly depressed ruminal contraction frequency, whereas intravenous administration of 10 micrograms/kg loperamide did not affect cyclical motility. Administered via the carotid artery, loperamide (4 micrograms/kg) depressed both frequency and amplitude of cyclical contractions of reticulum and rumen, whereas the same dose was ineffective via the coeliac artery. In vitro, loperamide (10 nM-100 microM) had no influence on spontaneous activity or tone of the reticular longitudinal muscle strips. It is concluded that loperamide inhibits cyclical ruminal contractions through a central opioid pathway.     

Depression of reticulo-ruminal motor functions through the stimulation of 012-adrenoceptors

Inhibition of the cyclical contractions of the reticulum and the rumen by detomidine (10-40 micrograms/kg, i.v.), xylazine (20-80 micrograms/kg, i.v.) and clonidine (2.5-10 micrograms/kg, i.v.) were compared in sheep and cattle housed individually in box stalls. Two alpha 2-adrenergic receptor blocking agents, tolazoline and yohimbine, were administered intravenously for prevention (0.1-0.4 mg/kg) or reversal (0.4-1.2 mg/kg) of these effects. Continuous recording of the reticuloruminal contractions and measurement of the volume of ruminal gas eliminated through the upper respiratory tract indicated that the three alpha 2-agonists inhibited the primary ruminal contractions associated with the reticular contractions. The occurrence of secondary ruminal contractions was also blocked in sheep, but only suppressed in cattle. The inhibition of reticulo-ruminal contractions was prevented or reversed competitively by the two alpha 2-blocking agents, suggesting an alpha 2-adrenoceptor mediation of the inhibition of cyclical motor activity of the reticulo-rumen. In contrast with tolazoline, yohimbine was unable to alleviate the accumulation of gas resulting from inhibition of the secondary ruminal contractions.     

Central and peripheral β-adrenergic influences on reticulo-rumen and upper-gut myoelectrical activity in sheep

The effects of intravenous (i.v.) and intracerebroventricular (i.c.v.) administration of beta-adrenoceptor agonists were evaluated on the reticulo-rumen and upper-gut myoelectrical activity in six ewes chronically fitted with intraparietal electrodes and a cannula in a lateral ventricle of the brain. Intravenous infusion of the beta 1 agonist dobutamine (30 micrograms/kg/min for 15 min) reduced the frequency of reticulo-ruminal and abomasal contractions and stimulated duodeno-jejunal motility, inducing a Phase III on the jejunum. These effects were reproduced by i.c.v. dobutamine at a dose of 10 micrograms/kg. Intravenous infusion of the beta 2 agonist ritodrine (15 micrograms/kg/min for 15 min) selectively inhibited antral and duodenal motility. Ritodrine i.c.v. (15 micrograms/kg) did not affect forestomach or gastrointestinal motility. The mixed beta 1, beta 2 agonist isoprenaline infused i.v. (0.6 micrograms/kg/min for 15 min) reproduced the effects of i.v. dobutamine, except at the antro-duodenal level which was strongly inhibited. The effects of i.v. dobutamine were antagonized by i.v. or i.c.v. acebutolol, a specific beta 1 antagonist. The effects of i.v. ritodrine were blocked by i.v. but not i.c.v. administration of propranolol, a mixed beta 1, beta 2 antagonist. These data indicate that the stimulation of central beta 1 adrenoceptors inhibits forestomach and antral motility and stimulates duodeno-jejunal motility. Stimulation of peripheral beta 2 adrenoceptors selectively inhibits duodeno-jejunal motility.     

5-Hydroxytryptamine potentiates contraction mediated by the intramural cholinergic nerve in the longitudinal smooth muscle of the ruminant forestomach

The effects of 5-hydroxytryptamine (5-HT) on the longitudinal smooth muscle from the rumen and reticulum of the bovine forestomach were investigated. 5-HT (0.25–490 μM) caused a contraction and a relaxation of the ruminal strips while it produced only an excitatory effect on the reticular strips. These effects were not affected by tetrodotoxin, hexamethonium, atropine or morphine, but were blocked by methysergide, LSD-25 or phenoxybenzamine. 5-HT potentiated the contraction evoked by stimulation of the intramural cholinergic nerves but did not show any effect on the relaxation produced by the non-adrenergic inhibitory nerves' excitation. The 5-HT-induced potentiation was not affected by morphine, LSD-25, methysergide and hexamethonium or high concentration of nicotine. Nicotine and dimethylphenylpiperazinium also caused a transient augmentation of the nerve-mediated contraction, but these effects were abolished by the competitive ganglionic blockers. The evoked contraction was depressed in high-Mg²⁺ solution, but this depression was antagonized partly by 5-HT. The affinity of the cholinomimetics to post-synaptic muscarinic receptor was not affected by 5-HT. It is concluded that contractions or relaxations of bovine forestomach strips induced by 5-HT are mediated through activation of D-receptors in the smooth muscle, and the 5-HT-induced potentiation of the evoked contraction may be elicited through presynaptic neural effects of 5-HT on the cholinergic nerves.     

Effects of tryptamine antagonists on the anaphylactic contractions of the bovine pulmonary smooth muscles

Calves were sensitized with horse plasma (H.P.), 0.2 ml/kg, i.v., and H.P. (0.2 ml/ kg) in Freund's complete adjuvant, s.c. The latter injection was repeated 1 week later and the animals were killed 10 days after the second injection. Spirally cut strips of pulmonary artery and vein and the trachealis muscle from the sensitized calves contracted to 5-hydroxytryptamine (5-HT) and specific antigen (horse plasma). Antigen-induced contractions of the pulmonary smooth muscles were significantly blocked (P<0.05) by the 5-HT antagonists, methysergide and ketanserin. The trachea, however, appeared less sensitive to the antagonists than the pulmonary vessels.
The results suggest that 5-HT participates in the pulmonary anaphylactic reactions of cattle and that ketanserin may be useful in suppressing bovine pulmonary hypersensitivities.     

Effects of dopamine receptor agonists on food intake and rumen motility in dwarf goats

Kaya, F., Van Duin, C.T.M. & Van Miert, A.S.J.P.A.M. Food intake and rumen motility in dwarf goats. Effects of some dopamine receptor agonists. J. vet. PharmacolTherap, 17 , 120–126. In ruminants, the dopaminergic regulation of feeding behaviour has not been investigated. Therefore, the effects of dopamine receptor agonists and antagonists on food intake and forestomach motility were studied in dwarf goats Goats treated i.v. with bromocriptine (1 μg or 2.5 μg/kg body wt/min during 10 min) ate less food than when treated with saline. This inhibitory effect on food intake could not be prevented by the peripheral dopamine receptor antagonist domperidone (0.5 mg/kg body wt i.v.). In contrast, dopamine (i.v. 20 μg/kg body wt/min during 15 min), levodopa (i.v. 40 μg/kg body weight during 10 min), apomorphine (i.v. 2 μg/kg body wt/min during 10 min) and lisuride (i.v. 0.2 μg/kg body wt/min during 15 min and 0.5 μg/kg body wt during 10 min) failed to modify food intake. Given in association with benserazide, a decarboxylase inhibitor (i.v. 20 μg/kg body wt/min during 10 min), levodopa was still inactive as an anorectie agent. Levopoda, bromocriptine and lisuride administered at similar dose rates to those which were used in the food intake experiments, induced some clinical signs including inhibition of forestomach contractions. The inhibition of rumen contractions induced by these drugs was completely antagonized by domperidone pretreatment. These results, together with earlier in vivo and in vitro observations, suggest that the inhibitory effects of dopamine receptor agonists on forestomach contractions are due to interactions with peripheral dopaminergic receptors. The change in smooth muscle tension, which leads to a change in the signals transmitted via vagal afferents to the central nervous system, probably does not modify feeding behaviour in dwarf goats. Furthermore, i.v. infusion of lisuride induced rumination when the inhibition of the forestomach contractions was prevented by domperidone; this effect may involve α₂-adrenoceptor activation.     

Effects of nitric oxide donor and nitric oxide synthase inhibitor on ruminal contractions in conscious sheep

The present study was planned to evaluate a role of nitric oxide (NO) in the regulation of regular ruminal contractions in conscious sheep. Intravenous infusion of S-nitroso-acetyl-DL-penicillamine (SNAP) at doses of 3-30 nmol kg(-1) min(-1)for 30 minutes inhibited both the amplitude and frequency of ruminal contractions in a dose-dependent manner. However, intravenous infusion of Nomega-nitro-L-arginine-methyl ester (L-NAME) at doses of 0.3-3.0 micromol kg(-1) min(-1)did not alter the basal tone of intraruminal pressure and the amplitude of ruminal contractions. The frequency of contractions was slightly inhibited by L-NAME infusion at 1.0 micromol kg(-1)min(-1). The effects of L-NAME were abolished by simultaneous infusion of L -arginine at 30 micromol kg(-1) min(-1). These results suggest that exogenous NO can diminish the ruminal contractions, while endogenous NO is not involved in the regulatory mechanism of basal tone and regular phasic contractions of the rumen in healthy sheep.     

Types of serotonergic receptors involved in the control of reticulo-ruminal myoelectric activity in sheep

The effects of peripheral (intravenous, i.v.) and central (intracerebroventricular, ICV) administrations of agonists of 5-HT_1A, 5-HT₂, 5-HT₃ and 5-HT₄ receptors were investigated in conscious sheep chronically fitted with intraparietal electrodes on the reticulum and the dorsal, ventral and caudo-ventral rumen. The 5-HT_1A agonist 8-hydroxydipropylaminotetralin increased reticular and decreased ruminal spike burst frequency when given i.v. (80 μg/kg) and ICV (8 μg/kg). The 5-HT₂ and 5-HT₃ agonists, α-methylserotonin and 2-methylserotonin, induced a moderate inhibition of rumino-reticular contractions when given i.v. at 100 and 150 μg/kg, respectively, while marked inhibition was observed after ICV administration at doses of 10 and 5 μg/kg, respectively. The 5-HT₄ agonist 5-methoxytryptamine strongly stimulated rumino-reticular motility by the ICV (10 μg/kg) route, whereas it induced a moderate inhibition when administered i.v. (200 μg/kg). The selective antagonist of 5-HT_1A, 5-HT₂, 5-HT₃ and 5-HT₄ receptors, spiroxatrine, ritanserin, granisetron and DAU 6285, respectively, blocked the responses of the respective agonists given by the same route. Moreover, the antagonists given ICV blocked the effects of the agonists given i.v. except for DAU 6285 ICV, which did not antagonize the inhibition induced by 5-methoxytryptamine i.v. It is concluded that the four types of serotonergic receptors investigated control rumino-reticular motility at the central level. However, according to the receptor type and the forestomach area (reticulum or rumen) this control may be stimulatory or inhibitory, demonstrating a pleiotropic role of serotonin in the control of rumino-reticular motility in sheep.     

Selective blockade of the responses of reticuloruminal muscle to 5-HT in sheep

The effects of intravenous administration of 5-HT on the patterns of reticulo-rumen contractions were studied in conscious sheep. Contractions were measured by strain gauges applied to the external wall of the reticulum and the ventral and/or dorsal sac of the rumen. The responses to 5-HT comprised (i) a short-lived contraction followed by (ii) a sustained increase in muscle tone and (iii) a concomitant inhibition of the extrinsic reticulo-rumen contractions. The corresponding blockades produced by (i) atropine, (ii) 5-HT antagonists and (iii) chemical sympathectomy suggest involvement of a peripheral cholinergic mechanism in the initial contractile response and a central adrenergic mechanism in the reflex inhibition of extrinsic reticulo-rumen contractions.     

Gastro-intestinal motor disturbances induced by lysine-acetylsalicylate treatment in sheep

The effects of intravenous (i.v.), intramuscular (i.m.) and oral administration of lysine-acetylsalicylate (Lys-ASA) on gastro-intestinal motility were investigated in sheep using electromyography. A dose of 20 mg/kg Lys-ASA intravenously reduced the frequency of reticular contractions for 86 ± 18 min, produced abomasal hypomotility and caused a disruption of the cyclical pattern of intestinal motility for at least 120 min. The frequency of reticular contractions measured from 20 to 30 min after Lys-ASA administration was negatively correlated (ß= 0.97; PΔ0.01) to the log of the dose used for doses varying from 10 to 40 mg/kg. Similar effects were observed with intramuscular and oral dose rates of 40 and 80 mg/kg, respectively. Previous i.v. administration of phentolamine (0.1 mg/kg) or tolazoline (2 mg/kg) abolished the effects of Lys-ASA (20 mg/kg) administered intravenously on both reticular contractions and abomaso-intestinal motility.
It was concluded that Lys-ASA administered at therapeutic doses in sheep produced gastro-intestinal motor disturbances and that α-and α₂-adrenergic antagonists are able to block them.     

Pharmacokinetics of probenecid in sheep

Six Merino ewes were given 1 g (27 g/kg) probenecid by the intravenous (i.v.), intramuscular (i.m.) and subcutaneous (s.c.) routes. After i.v. injection, the biological half-life was 1.55 h and apparent volume of distribution at the steady state (Vdss) 0.18 l/kg. Body clearance (ClB) and renal clearance (ClR) were 0.12 l/h/kg and 0.03 l/h/kg, respectively. Approximately 28% of unchanged probenecid was excreted in urine. Plasma probenecid concentrations after i.v., i.m. and s.c. injections were 133, 37, and 31 micrograms/ml, respectively, at 15 min; 76, 36, and 34 micrograms/ml at 1 h; and 43, 23 and 34 micrograms/ml at 2 h. The average bioavailability of probenecid given by i.m. and s.c. injection was 46% and 34%, respectively. However, after 2 h, probenecid plasma concentrations remained higher when it was given subcutaneously than when it was given intramuscularly. Urine output was correlated positively (P less than 0.05) with kel and ClB. Urine pH increased significantly (P less than 0.01) for the first 2 h, and then steadily declined over the subsequent 6 h. The results suggested that probenecid in sheep was rapidly eliminated because it was rapidly excreted in the normal but alkaline urine. Subcutaneous administration of probenecid in animals may be a useful alternative to oral or i.v. administration.     

Central and local actions of opioids upon reticulo-ruminal motility in sheep

The effects of opioids and naloxone on cyclical forestomach motility were determined in anaesthetized and conscious sheep. To assess central or peripheral opioid actions, differential routes of administration were used. Possible dynamic effects along the innervating vagovagal reflex arc were investigated electrophysiologically at the cervical level of the vagus nerve. Further, direct influences on the smooth muscle were evaluated in vitro on isolated longitudinal reticular strips. Additionally, the effects of some spasmogenic agents were studied for comparative purposes. In anaesthetized sheep, opioids depressed in an identical manner both the amplitude of spontaneous cyclical contractions and contractions evoked by electrical stimulation of the distal end of the cut cervical vagus. In conscious sheep, low doses of normorphine and loperamide inhibited frequency and amplitude centrally (20 micrograms/kg and 4 micrograms/kg via carotid artery respectively), whereas locally higher dose levels (200 micrograms/kg and 10 micrograms/kg via coeliac artery respectively) affected only the amplitude of cyclical contractions. Furthermore the opioid peptides Leu-, Met-enkephalin and [D-Ala2-Met5]-enkephalinamide preferentially depressed the amplitude of cyclical motility most efficiently if administrated via the coeliac artery. These results indicate the presence both of a central opioid action depressing frequency and amplitude and of a local opioid action depressing only the amplitude of cyclical reticulo-ruminal motility. Opioids did not alter the resting discharge of afferent tension units and similarly failed to modulate tone of reticular strips in vitro, suggesting that the opioids act locally on the intramural neuronal plexus, possibly by diminishing the output of excitatory transmitter. Whether substance P could play a role as a vagal excitatory transmitter besides the classically implicated acetylcholine has been discussed. The central opioid mechanism is probably not situated within the gastric centres but elsewhere in the brain. Naloxone (greater than or equal to 100 micrograms/kg, jugular vein) stimulated the frequency of cyclical ruminal motility only in well-defined experimental conditions, probably via a central mechanism.     

Antinociceptive actions of intravenous a2-adrenoceptor agonists in sheep

The antinociceptive activity of the intravenously administered alpha 2-adrenoceptor agonists, clonidine and xylazine, was measured in sheep using thermal and mechanical pressure threshold detection systems. Both drugs demonstrated clear antinociceptive activity for both forms of threshold stimuli and clonidine at 6 micrograms/kg i.v. was more potent and longer lasting than xylazine at 50 micrograms/kg i.v. The antinociceptive effects were reversed by idazoxan (0.1 mg/kg i.v.), but were not affected by naloxone at 0.2 mg/kg i.v. indicating that these effects were mediated by alpha 2-adrenoceptors.     

The effects of jingsongling, a xylazine analog, on mean arterial blood pressure and heart rate in dogs — influences of yohimbine, tolazoline, prazosin, and atropine

The effects of jingsongling (JSL) and xylazine on heart rate (HR) and mean arterial pressure (MAP) were studied in five conscious male dogs. An i.v. injection of xylazine (1 mg/kg) caused a bradycardia, an initial hypertension, and a subsequent hypotension. An i.v. injection of JSL (1 mg/kg) caused a bradycardia and a 20-min hypertension without a subsequent hypotension. Atropine sulfate (45 micrograms/kg, i.v.) increased HR for 30 min without changing MAP, and antagonized JSL-induced bradycardia for at least 60 min. There was a subsequent rebound bradycardia. Atropine sulfate potentiated JSL-induced hypertension in both magnitude and duration. Yohimbine (0.1 mg/kg, i.v.), an alpha 2-adrenoceptor antagonist, increased HR and MAP for 110 and 70 min, respectively. Yohimbine not only failed to potentiate but even reversed the pressor effect of JSL in a dose-dependent manner. Yohimbine also caused a dose-dependent reversal of JSL-induced bradycardia. Tolazoline (5 mg/kg, i.v.), a nonselective alpha-adrenoceptor antagonist, increased MAP for 20 min without changing HR. Tolazoline also reversed JSL-induced hypertension and bradycardia. Prazosin (1 mg/kg), an alpha 1-adrenoceptor antagonist, decreased MAP and increased HR for at least 110 min. Prazosin reversed JSL-induced hypertension but failed to affect JSL-induced bradycardia. These results indicated that: (1) JSL-induced bradycardia and hypertension are mediated by alpha 2-adrenoceptors; (2) yohimbine and tolazoline may be useful in antagonizing these untoward reactions associated with JSL administration, whereas prazosin and atropine were not found to be beneficial in this regard.     

Intracerebroventricular administration of PD 140.548 N-methyl-D-glucamine attenuates the release of cortisol and catecholamines induced by duodenal distension in the sheep

The aim of this study was to determine the influence of mechanically induced duodenal distension (DD) and PD 140.548 N-methyl-D-glucamine (a specific peptide antagonist of a CCK1 receptor) premedication on mechanographical reticulo-ruminal activity, animal general behaviour, catecholamines (CA) and the blood plasma cortisol levels, as well as the clinical symptoms of visceral pain induced by DD in sheep. After 24 h fasting, 6 animals, Polish merino sheep were praeanaesthetised by i.m. injection of ketamine (20 mg x kg(-1) b.w.) and anaesthetised with i.v. infusion of pentobarbital (20 mg x kg(-1) b.w.) and a permanent stainless steel cannula (gate cannula) was inserted inside the lateral cerebral ventricle (controlled by cerebrospinal fluid efflux) 10 mm above the bregma and 5 mm laterally from the midline suture using stereotaxic method. Under the same general anaesthesia and analgesia a T-shaped silicon cannula, was inserted into the duodenum (12 cm from pylorus) and a second one was inserted into the dorsal sac of the rumen. During 7 consecutive days after surgery each animal was treated i.m. with procaine penicillin (300000 I.U..kg(-1) b.w.), dihydrostreptomycine (DHS, 10 microg x kg(-1) b.w.), prednisolone acetate 1.2 mg x kg(-1) b.w.) together and i.m. injection of ketamine (20 mg x kg(-1) b.w.), separetely. The influence of PD 140.548 N-methyl-D-glucamine on the unfavourable effects of duodenal distension using a 10 cm long balloon filled with 40 and 80 ml (DD40 and DD80) water at animal body temperature was investigated in this study. Five minutes DD40 and DD80 caused an immediate and compete inhibition of the reticulo-ruminal frequency, a significant increase in plasma CA and cortisol levels, an increase in the heart rate, hyperventilation and other symptoms of pain, proportionally to the degree of intestinal distension. Intracerebroventricular (i.c.v.) administration of PD 140.548 alone at a dose of 0.25, 0.5, 1 or 2 mg in toto did not significantly change the reticulo-ruminal motility, CA and cortisol concentrations, but 10 min after the i.c.v. infusion (or 10 min before DD) at a dose 1 and 2 mg in toto , it completely blocked the increase of blood plasma cortisol, epinephrine (E), norepinephrine (NE) and dopamine (DA) concentrations for 20 min. In the some time it prevented the reticulo-ruminal atony provocked by DD. It is concluded that PD 140.548 N-methyl-D-glucamine--an antagonist of the central CCK1 receptor can be an effective analgesic agent in duodenal pain. This action is due to the inhibition of peripheral CCK1 type receptor in the central descending nerve pathway, facilitating pain transmission in sheep perhaps in the hypothalamic-pituitary-adrenal axis.     

Xylazine-induced mydriasis in rats and its antagonism by α-adrenergic blocking agents

Pupillary response to xylazine (10-300 micrograms/kg, i.v.) norepinephrine (1-30 micrograms/kg. i.v.) and atropine (3-100 micrograms/kg, i.v.) were observed in rats anaesthetized with pentobarbital. Xylazine caused a dose-dependent mydriasis which was antagonized by a selective alpha 2-adrenergic blocking agent, yohimbine (2.5 mg/kg, i.v.). was less effective in antagonizing this effect of xylazine. A selective alpha 1-adrenergic blocking agent, prazosin (2.5 mg/kg, i.v.) was ineffective in reducing the xylazine-induced mydriasis. In contrast, both phentolamine and prazosin blocked the pupillary dilation produced by norepinephrine, while yohimbine was much less effective in antagonizing norepinephrine-induced mydriasis. Atropine also induced a dose-dependent mydriasis which was not affected by yohimbine pretreatment. The present study suggests that the mydriatic effect of xylazine in the rat is mediated by an adrenergic mechanism, possibly by stimulating the alpha 2-adrenergic receptors in the iris and CNS.     

The effect of central sympathectomy by 6-hydroxydopamine (6-OHDA) on the response to morphine in conscious sheep

When morphine, an opioid -agonist, was administeredin vivo into the third cerebral ventricle (ICV) of conscious sheep at 20 and 40 µg/kg body weight, it caused psychomotor excitability for 2–3 h and a significant decrease in the reticuloruminal frequency for 45 min and in the mean amplitude of the primary contractions for 65 min. From 60 min after infusion, the same doses of morphine caused a significant increase in the average amplitude of the contractions for 45 min. This suggests that an inhibitory -opioid acceptor is involved in the central control of forestomach motility and general behaviour in sheep. All the effects of morphine were completely prevented by pretreatment with 18.2 µg/kg body weight 6-OHDA ICV. These results suggest that both morphine-induced inhibition of rumen motility and psychomotor excitability are due to central noradrenergic descending system activation. The exact location of the noradrenergic system remains to be determined.     

Food intake and rumen motility in dwarf goats. Effects of some serotonin receptor agonists and antagonists

The serotonergic regulation of feeding behaviour has not so far been studied in ruminants. Therefore, the effects of some serotonin (5-HT) receptor agonists and antagonists on food intake and forestomach motility were studied in dwarf goats.Goats ate less food when treated intravenously (IV) with the 5-HT precursor 5-HTP (25 µg, 50 µg or 100 µg kg^–1 min^–1 over 15 min) than when they were treated with 5-HT (which does not pass the blood-brain barrier) or with saline. Accordingly, IV dexfenfluramine infusions (50 µg or 100 µg kg^–1 min^–1 over 15 min), which induces release of brain 5-HT, also led to dose-related reductions in food intake. In contrast, no anorectic effects were observed after IV infusions with the selective 5-HT reuptake inhibitor fluoxetine (100 µg kg^–1 min^–1 over 15 min), the selective 5-HT1A agonist 8-OH-DPAT (0.5 µg kg^–1 min^–1 over 15 min), or eltoprazine (4 or 8 µg kg^–1 min^–1 over 15 min), a mixed 5-HT1A/5HT1B receptor agonist. None of the 5-HT antagonists tested gave any increase in food consumption in this model. Interestingly, the non-selective 5-HT receptor antagonist methysergide (360 µg/kg IV) reduced food intake. This effect was most noticeable at 3 h after injection. The 5-HT3 receptor antagonist ondansetron (IV 10 µg kg^–1 min^–1 over 15 min) and the peripheral 5-HT2 receptor antagonist xylamidine (IV 100 µg kg^–1 min^–1 over 10 min) failed to modify food intake. These results provide evidence for central serotonergic involvement in the control of feeding. However, this control system differs markedly in goats and rodents.Dexfenfluramine, 5-HTP and eltoprazine administered at similar dose rates to those used in the food intake experiments induced some clinical signs including inhibition of forestomach contractions. These results, together with our earlierin vivo andin vitro observations, suggest that the inhibitory effects of serotonin receptor agonists on forestomach contractions are due to interactions with both peripheral and central serotonergic receptors. The change in smooth muscle tension, which leads to a change in the signals transmitted via vagal afferents to the central nervous system, appears not to modify feeding behaviour in dwarf goats.