Cardiovascular responses to opioid agonists injected into the nucleus of tractus solitarius of anesthetized cats

It has been proposed that various opiate receptor subtypes mediate different cardiovascular responses to centrally administered opioids. We evaluated this hypothesis in chloralose-urethane anesthetized cats by monitoring the cardiovascular and respiratory responses to relative mu [morphine, morphiceptin, D-Ala2, MePhe4, Gly-ol5 enkephalin (DAGO)] and delta [D-Ala2, D-Leu5enkephalin (DADL)] agonists microinjected (0.5 ul/kg) into the caudal region of the Nucleus of Tractus Solitarius (NTS). Dynorphin (1-13), an endogenous opioid which exhibits selective affinity towards the kappa receptor, was also tested. Dynorphin at a dose of 50 nMol/kg did not alter cardiovascular or respiratory variables. Morphine (10-54 nMol/kg) and DAGO (50 nMol/kg) had no effect on blood pressure, heart rate or respiratory rate; morphiceptin (100-320 nMol/kg) caused tachycardia only at the highest dose. DADL (10-100 nMol/kg) elicited a dose-dependent depression of blood pressure. High doses of DADL depressed heart rate and respiratory rate. The depressor effects of DADL were reversed by low doses of naloxone (0.1 mg/kg). This dose of naloxone also elicited pressor responses in cats treated with the other opioids and reversed the morphiceptin-induced tachycardia. These data indicate that opioid agonists differ with regard to their cardiovascular and respiratory effects following microinjection into the NTS of anesthetized cats, with the delta agonist DADL showing greatest activity.     

Stereospecific reversal of nitrous oxide analgesia by naloxone

The opiate antagonist naloxone was found to block nitrous oxide analgesia in a stereospecific fashion. Using a modified hotplate test in mice, the (-)-enantiomer of naloxone (which has a KD of approximately 1 nM for opiate receptors) antagonized the analgesic actions of nitrous oxide in a dose-dependent (2.5-20 mg/kg) fashion. In contrast, the (+)-enantiomer (KD approximately 10,000 nM) had no effect on nitrous oxide analgesia at the highest dose tested (40 mg/kg). These data strongly suggest that nitrous oxide analgesia is mediated via opiate receptors and is consistent with the hypotheses that this effect occurs either through the release of endogenous opioids or by physical perturbation of the opiate receptors.     

Attenuation of heat shock-induced cardioprotection by treatment with the opiate receptor antagonist naloxone

Whole body hyperthermia induces heat shock proteins (HSPs), which confer cardioprotection. Several opioid receptor subtypes are expressed in the heart and are linked to cardioprotection; however, no one has attempted to link the protection elicited by heat stress (HS) to opioids. Therefore, we investigated the effect of an opiate receptor antagonist, naloxone, on HS-induced cardioprotection. Anesthetized Sprague-Dawley rats were subjected to HS (42 degrees C for 20 min) with and without naloxone pretreatment and were allowed to recover for 48 h. They then underwent 30 min of ischemia followed by 2 h of reperfusion. An acute HS group was given an intravenous bolus of naloxone (3 mg/kg) 10 min before index ischemia. Infarct size (IS), expressed as a percentage of the area at risk (IS/AAR), was determined. The right heart was excised for analysis of HSP content by Western blot. Heat-shocked rats showed significant reductions in IS/AAR versus control (16 +/- 3 vs. 58 +/- 4%, P < 0.001). Pretreatment with naloxone before HS attenuated the protective effects in a dose-dependent fashion, with significant attenuation of protection occurring at 15 mg/kg naloxone versus heat shock (42 +/- 6 vs. 16 +/- 3%, P < 0.001). Acute treatment with naloxone (3 mg/kg) 48 h after recovery from HS also significantly attenuated the delayed protective effect (47 +/- 4 vs. 16 +/- 3%, P < 0.001). No difference was seen in the level of HSP70 induced in the different groups. We conclude that heat shock-induced cardioprotection can be attenuated by naloxone, an opiate receptor antagonist, without reducing the levels of certain HSPs. These results suggest there may be a link between the endogenous release of opioids and HS that mediates cardioprotection.     

β-endorphin: Pharmacologic and behavioral activity in cats after low intravenous doses

Synthetic human beta-endorphin (β_h-EP), an opiate-like peptide, produced characteristic responses immediately after it was intravenously (iv) administered to 7 unrestrained male cats. Doses of 50 μg/kg resulted in dose-dependent high frequency (> 1/sec) licking and diminished locomotion. At higher doses (100–500 μg/kg) the responses included vomiting and relaxation of the nictitating membrane. The responses were blocked by iv naloxone hydrochloride (1.0 mg/kg) administered 10 min prior to β_h-EP. When administered after β_h-EP naloxone reversed the established response. These results indicate that low iv doses of β_h-EP are active in the cat, and that the effects are mediated by opiate receptors.     

Central, stereoselective receptors mediate the acute effects of opiate antagonists on luteinizing hormone secretion

Although a central site of acute opiate action in regulating luteinizing hormone (LH) secretion has been suggested by the ability of centrally implanted opiate antagonists to increase LH levels, opiate antagonists are lipophilic and could influence the pituitary in situ. Also, the physiological significance of opiate receptor blockade with antagonists rests on the assumed, but untested, stereoselectivity of these receptors. Therefore, a lipophobic quaternized derivative of naltrexone (MRZ 2663-Naltrexone methobromide) and dextro- (+) and levo- (-) stereoisomers of naloxone were used to study the site- and stereoselectivity of gonadotropin responses to opiate antagonists in vivo. Male rats were injected intracerebroventricularly (icv) or intravenously (iv) with the quaternary or tertiary congeners of naltrexone and subcutaneously (sc) with (-) or (+)-naloxone. Rats injected icv with 20 ug of quaternary naltrexone displayed significant increases in serum luteinizing hormone (LH). The onset of the response was rapid with serum LH levels being significantly elevated 15 minutes after the injection and returning to basal levels 30 minutes later. Rats injected iv with 10 mg/kg of quaternary naltrexone failed to show significant LH responses. Rats injected either centrally or periphally with equivalent doses of tertiary naltrexone showed LH responses that were similar to those found in animals injected icv with quaternary naltrexone. As little as 0.5 mg/kg of (-)-naloxone resulted in significant elevations in serum LH that were higher than those elicited by up to 10 mg/kg of (+)-naloxone, indicating that this effect of naloxone is stereoselective. These data support the argument that opioids can acutely modulate LH secretion through actions at stereoselective opioid receptors in the central nervous system.     

Naloxone antagonism of diazepam-induced feeding in the Syrian hamster

Three experiments investigated the effects of the intragastric administration of the benzodiazepine diazepam on feeding in non-deprived Syrian hamsters ($\text{mesocricetus auratus}$). In the first experiment diazepam (0, 0.5, 1.0, 2.0, and 4.0 mg/kg) produced dose dependant increases in feeding. 4.0 mg/kg of diazepam produced significantly more feeding than the other doses tested and the lowest dose tested (0.5 mg/kg) produced a significant increase in feeding. In the second experiment naloxone (10 mg/kg) partially antagonized the effect of 4 mg/kg of diazepam on feeding. In the third experiment the ability of naloxone (0.1, 1.0, 5.0, 10.0 or 20 mg/kg) to reduce feeding produced by either 4 mg/kg or 2 mg/kg of diazepam was tested. Naloxone partially antagonized the effects of 4 mg/kg of diazepam on feeding in a dose dependant manner. While 2 mg/kg of diazepam produced significantly less feeding than 4 mg/kg, naloxone did not antagonize the effect of 2 mg/kg on feeding. The results suggest that two mechanisms are involved in diazepam-induced feeding in hamsters. The high dose of diazepam may produce increased feeding by activating the endorphin system while the low dose of diazepam produces increased feeding via a naloxone insensitive mechanism.     

Withdrawal and bidirectional cross-withdrawal responses in rats treated with adenosine agonists and morphine

The aim of this study was to investigate whether the A1/A2 receptor agonist, 5'-N-ethylcarboxamidoadenosine (NECA), and the selective A1 agonist, N6-cyclopentyladenosine (CPA), induced physical dependence by quantifying specific antagonist-precipitated withdrawal syndromes in conscious rats. In addition, the presence of bidirectional cross-withdrawal was also investigated. The agonists were administered s.c. to groups of rats at 12 h intervals. Antagonists were administered s.c., 12 hours after the last dose, followed by observation and measurement of faecal output for 20 min. NECA (4 x 0.03 mg kg(-1), s.c) and CPA (4 x 0.03, 0.1 and 0.3 mg kg(-1), s.c.) induced physical dependence, as shown by the expression of a significant withdrawal syndrome when challenged with the adenosine A1/A2 receptor antagonist, 3,7-dimethyl-1-propargylxanthine (DMPX, 0.1 mg kg(-1), s.c.) and the A1 antagonist, 8-cyclopentyl-1,3-dipropylxanthine (CPDPX, 0.1 mg kg(-1), s.c.) respectively. The syndromes consisted of teeth chattering and shaking behaviours shown to occur in morphine-dependent animals withdrawn with naloxone viz, paw, body and 'wet-dog' shakes, but with the additional behaviours of head shaking and yawning. In further contrast to the opiate withdrawal syndrome, no diarrhoea occurred in the groups of animals treated with adenosine agonists and withdrawn with their respective antagonists. Bidirectional cross-withdrawal syndromes were also revealed when naloxone (3 mg kg(-1), s.c.) was administered to adenosine agonist pre-treated rats and adenosine antagonists were given to morphine pre-treated rats. This study provides further information illustrating that close links exist between the adenosine and opiate systems.     

δ versus μ receptors: cardiovascular and respiratory effects of opiate agonists microinjected into nucleus tractus solitarius of cats

The cardiovascular and respiratory responses to relatively specific μ or δ agonists microinjected (0.5 μl/kg) into the region of the nucleus of tractus solitarius (NTS) were examined in anesthetized cats. Blood pressure, heart rate, and respiratory rate were monitored for 30 min after the microinjection of opioid compounds or saline vehicle. The δ agonist, (d-Ala²,d-Leu⁵)-enkephalin (10–100 nmol/kg) elicited dose-dependent decreases in blood pressure, heart rate, and respiratory rate which were naloxone reversible. In contrast the μ agonists, morphine (10–54 nmol/kg) and morphiceptin (100–320 nmol/kg) had no effect on blood pressure or respiratory rate; yet, naloxone elicited pressor responses in animals pretreated with these μ agonists. A receptor-binding assay demonstrated a predominance of μ sites in the NTS. These data show that the δ opiate agonist is more effective than μ agonists in modifying cardiovascular variables in the NTS; we suggest caution in relating specific cardiovascular function to receptor subtypes defined by binding assays.     

Failure of naloxone to attenuate fasting induced hyperphagia in broiler chicks

Subcutaneous administration of naloxone at 1 to 10 mg/kg produced a dose-related decrease in feed intake of broiler chicks. Food deprivation for 3, 6, 12, and 24 hours produced a significant increase in feed intake compared to non-food deprived birds. Subcutaneous administration of naloxone at 1 to 10 mg/kg failed to attenuate hyperphagia of broiler chicks, deprived of food for 12 hrs. These data suggest that opiate receptors are involved in the regulation of spontaneous feeding behavior in broiler chicks. However, in contrast to other mammals and pigeons, a mechanism, other than endorphinergic system, not sensitive to naloxone blockade, might be involved in food deprivation induced hyperphagia in broiler chicks.     

Manipulation of opiate activity in the amygdala alters memory processes.

The opiate agonist, levorphanol, injected into the amygdala complex of rats following passive avoidance conditioning produced time-dependent and dose-dependent decreases in retention. This effect obtained with levorphanol was observed to be stereospecific. In addition, post-training administration of the opiate antagonist, naloxone, into the amygdala significantly increased retention of passive avoidance conditioning in a time-dependent and dose-dependent manner. Finally, these opposing effects of opiate agonist and antagonist administration were blocked by combined administration of levorphanol and naloxone. These data support a possible role for amygdala opioid peptides in time-dependent memory processes.     

An investigation of the role of kappa opiate receptor agonists in the initiation of feeding

A large body of evidence has suggested a role for the endogenous opiates and their receptors in the regulation of appetite. In this study we have examined the relative effects of ketocyclazocine (KC), cyclazocine and ethylketocyclazocine, all putative kappa opiate receptor agonists, and morphine, a putative mu receptor agonist, on food consumption. All the kappa agonists induced feeding when administered at 8 AM as did morphine. KC failed to induce feeding during the nocturnal feeding period (2000 and 0200 hours) and morphine suppressed feeding at these times. KC and morphine suppressed starvation induced feeding when food was made available immediately after injection and had no effect when food was presented 2 and 4 hours after injection. High doses of naloxone (5 mg/kg) suppressed KC induced feeding while actually enhancing high dose morphine (25 mg/kg) induced feeding. Repeated injections of KC or morphine for 5 days resulted in enhancement of the feeding response with initiation of feeding occuring earlier. Taken together with the studies showing that the endogenous kappa ligand, dynorphin, enhabces feeding the most parsimonious interpretation of these studies is that kappa agonists are endogenous initiators of feeding and that kappa receptors are maximally saturated at times of food deprivation and during spontaneous feeding. The mu (or one of the other) opiate receptors inhibit feeding due to their sedative effect and antagonism of this effect leads to enhancement of the feeding response. It is postulated that kappa opiate receptors represent an important component of the natural feeding drive.     

Prolyl-leucyl-glycinamide (PLG): inhibition of offensive aggression in mice

The effects on offensive aggression of the endogenous peptide-leucyl-glycinamide (PLG, MIF-1) and the exogenous opiate antagonist, naloxone, were examined in male mice. PLG (0.01-10 mg/Kg) reduced, in a dose-dependent manner, the incidence and intensity of offensive aggression in dominant resident mice. PLG was more potent than naloxone (1.0 mg/Kg). In a number of cases, PLG completely eliminated the display of offensive aggression towards intruder mice. These results raise the possibility that PLG may function as an "anti-aggressive" peptide whose actions may include antagonistic and/or modulatory influences on both opioid and non-opioid systems.     

Opiate modulation of monoamines in the chick forebrain: Possible role in emotional regulation?

Numerous studies have shown that the opiate system is crucially involved in emotionally guided behavior. In the present study, we focussed on the medio‐rostral neostriatum/hyperstriatum ventrale (MNH) of the chick forebrain. This avian prefrontal cortex analogue is critically involved in auditory filial imprinting, a well‐characterized juvenile emotional learning event. The high density of μ‐opiate receptors expressed in the MNH led to the hypothesis that μ‐opiate receptor‐mediated processes may modulate the glutamatergic, dopaminergic, and/or serotonergic neurotransmission within the MNH and thereby have a critical impact on filial imprinting. Using microdialysis and pharmaco‐behavioral approaches in young chicks, we demonstrated that: the systemic application of the μ‐opiate receptor antagonist naloxone (5, 50 mg/kg) significantly increased extracellular levels of 5‐HIAA and HVA; the systemic application of the specific μ‐opiate receptor agonist DAGO (5 mg/kg) increased the levels of HVA and taurine, an effect that was antagonized by simultaneously applied naloxone (5 mg/kg); the local application of DAGO (1 mM) had no effects on 5‐HIAA, HVA, glutamate, and taurine, however, the effects of systemically injected naloxone (5 mg/kg) were abolished by simultaneously applied DAGO (1 mM); the systemic application of naloxone (5 mg/kg) increased distress behavior (measured as the duration of distress vocalization during separation from the peer group). These results are in line with our hypothesis that the μ‐opiate receptor‐mediated modulation of serotonergic and dopaminergic neurotransmission alters the emotional and motivational status of the animal and thereby may play a modulatory role during filial imprinting in the newborn animal. © 2004 Wiley Periodicals, Inc. J Neurobiol, 2005     

Differentiating opioids by their pupillary effects in the rat

Pupillary effects of several opioids were examined as part of a broader in vivo study of multiple opioid receptors in the rat. Agonist activity, stereospecificity, and naloxone sensitivity were determined by methadone (Me), ethylketocyclazocine (EK), and N-allylnormetazocine (SKF 10,047), selected for their purportedly predominant actions at mu, kappa, and sigma receptors, respectively. After an acute, subcutaneous injection of each drug, pupil area and fluctuations in pupil size were measured by means of an infrared video pupillometer on line with a microcomputer data processing and storage system. Despite differences in the magnitude of the response, each opioid tested produced an increase in pupil size which was stereospecific, independent of behavioral responses to the drugs and, for 1-Me and 1-SKF 10,047, dose-related. Other differences among the opioids were found in their ability to induce fluctuations (1-Me and 1-EK) and a pendular nystagmus (1-SKF 10,047 only), and in their sensitivity to naloxone. Although 1.0 mg/kg naloxone completely reversed 1-Me-induced mydriasis, 10 mg/kg was needed to reverse 1-EK, and this dose only partially antagonized 1-SKF 10,047. These characteristic patterns of pupillary responses to opioids in terms of agonist activities and naloxone sensitivities indicate that the different opioid receptor types subserve different functions with respect to pupillary control.     

Enhancement of opiate-induced depressions in serum luteinizing hormone levels by the prior administration of naloxone in the male rat

The effects of naloxone pretreatment on opiate agonist-induced depressions in serum luteinizing hormone (LH) levels were examined in male rats. Our results demonstrated a pronounced enhancement of morphine's actions 6 hours after the administration of naloxone (0.5 mg/kg). This effect was characterized by a 10 fold reduction in the ED50 (1.26 mg/kg versus 0.13 mg/kg in saline- and naloxone-pretreated rats, respectively) and much greater depressions in serum LH levels at each dose of morphine. The actions of naloxone were not confined to morphine, since similar increased potencies were found for opioid agonists with selectivity for a variety of opioid receptor subtypes. Because naloxone did not alter the uptake of subsequently administered morphine into brain, our results cannot be explained on the basis of an increased availability of the agonist. Rather, it appears that naloxone pretreatment induces a change in the sensitivity of those receptors involved in the effects of opioid agonists on LH.     

Failure of naloxone to stimulate luteinizing hormone secretion during pregnancy and steroid treatment of ovariectomized beef cows

The response of serum luteinizing hormone (LH) to naloxone, an opiate antagonist, and gonadotropin-releasing hormone (GnRH) was measured in cows in late pregnancy to assess opioid inhibition of LH. Blood samples were collected at 15-min intervals for 7 h. In a Latin Square arrangement, each cow (n = 6) received naloxone (0, 0.5, and 1.0 mg/kg BW, i.v.; 2 cows each) at Hour 2 on 3 consecutive days (9 +/- 2 days prepartum). GnRH (7 ng/kg body weight, i.v.) was administered at Hour 5 to all cows on each day. Mean serum LH concentrations (x +/- SE) before naloxone injection were similar (0.4 +/- 0.1 ng/ml), with no serum LH pulses observed during the experiment. Mean serum LH concentrations post-naloxone were similar (0.4 +/- 0.1 ng/ml) to concentrations pre-naloxone. Mean serum LH concentrations increased (p less than 0.05) following GnRH administration (7 ng/kg) and did not differ among cows receiving different dosages of naloxone (0 mg/kg, 1.44 +/- 0.20; 0.5 mg/kg, 1.0 +/- 0.1; 1.0 mg/kg, 0.9 +/- 0.1 ng/ml). In Experiment 2, LH response to naloxone and GnRH was measured in 12 ovariectomized cows on Day 19 of estrogen and progesterone treatment (5 micrograms/kg BW estrogen: 0.2 mg/kg BW progesterone) and on Days 7 and 14 after steroid treatment. On Day 19, naloxone failed to increase serum LH concentrations (Pre: 0.4 +/- 0.1; Post: 0.4 +/- 0.1 ng/ml) after 0, 0.5, or 1.0 mg/kg BW.(ABSTRACT TRUNCATED AT 250 WORDS)     

Repeated administration of naltrexone and diprenorphine decreases food intake and body weight in squirrel monkeys

Although chronic administration of naloxone has been reported to reduce food intake and body weight in rats, there have been no comparable investigations using a nonhuman primate. We examined the effects of repeated injections of two long acting opiate antagonists - naltrexone and diprenorphine - on the ad libitum intake of a nutritional complete liquid diet and on body weight in squirrel monkeys. Naltrexone binds with highest affinity to the mu opioid receptor whereas diprenorphine binds with equally high affinity to several subtypes of opioid receptor. Diprenorphine (ED50 = 0.01 mg/kg) was 22 times more potent than naltrexone (ED50 = 0.22 mg/kg) in decreasing 2 h food intake, suggesting that more than one opioid receptor subtype may be involved in the anorectic effects of opiate antagonists. A 1.0 mg/kg dose of drug reduced 24 h food intake by 50% and was associated with a weekly reduction in body weight of 4 and 5% for naltrexone and diprenorphine, respectively. Thus, in contrast with shorter time intervals, 24 h food intakes were similar for the two drugs, and this was associated with comparable body weight profiles. The decreases in food intake and body weight remained constant over the period of drug administration. Some monkeys showed profuse salivation and "wet dog shakes" after 4 days of treatment with the 1.0 mg/kg dose but not after 1 day. Therefore, opiate antagonists given chronically to monkeys reduced food intake and body weight in a dose-dependent manner with no evidence of tolerance to these effects.     

Naloxone blockade of growth hormone-releasing factor-induced feeding

The opiate antagonist naloxone was used to examine the possibility that endogenous opioid function is involved in the expression of the increased feeding observed following intracerebroventricular (i.c.v.) administration of rat hypothalamic growth hormone-releasing factor (GRF). It was found that systemically administered naloxone (0.125, 0.25 and 0.50 mg/kg) significantly suppressed the increased food intake observed following i.c.v. GRF (4.0 pmol) treatment. Though potent enough to eliminate ingestive effects of GRF, baseline food intake was unaffected by 0.125 mg/kg naloxone. Examination of 0.4, 4.0 and 40.0 pmol i.c.v. administered GRF-(3-40), a structurally related but physiologically inactive peptide, revealed no effect on food intake. The present results suggest involvement of endogenous opioid function in GRF-stimulated feeding.     

Drinking,but not feeding,is opiate-sensitive in hamsters

The long-lasting opiate antagonist, naltrexone (NTX), was examined for its effects on various types of consummatory behavior in male golden hamsters and rats. Rat, but not hamster, 24 hr food and water intakes were significantly decreased by four daily NTX (10.0 mg/kg) injections. Hamsters displayed a minimal night to day feeding ratio compared to rats. hamsters increased food intake following insulin (50 U/kg) administration, but not after 24 hr food deprivation (FD) or 2-deoxy-D-glucose (2-DG; 800 mg/kg) injections. NTX (1.0 and 10 mg/kg) had no effect on feeding, but markedly attenuated hamster drinking induced by 48 hr water deprivation or hypertonic saline injection. Dexamethasone (DEX), a glucocorticoid which depletes pituitary β-endorphin and produces anorexia in rats, had no effect on daily hamster intake. Since the normal feeding profile of the hamster is similar to that of naloxone and DEX-treated rats, hamsters appear to lack an opiate-sensitive feeding system. In contrast, stimulated drinking behavior of hamsters operates through an opiate-sensitive mechanism. Thus, there are marked species differences concerning the involvement of endogenous opioids is consummatory behavior.     

A study of the actions of naloxone and morphine on gastric acid secretion and gastric mucosal damage in the rat

There exists a considerable controversy in the literature with regard to the effect of either opiate receptor blockade or that of morphine in different gastric and intestinal ulcer models in the rat. We performed experiments to evaluate the effects of naloxone and morphine on gastric acid secretion and gastric mucosal damage in different experimental models of gastric mucosal injury, namely in indomethacin-, HCl (0.6N)- and ethanol (96%)-models. We found that: 1) 10 mg/kg naloxone ip given twice, effectively protected gastric mucosa against indomethacin (30 mg/kg ip) and against the acid-dependent injury caused by 0.6 N HCl (1 mL ig), but not against the non acid-dependent injury caused by 96% ethanol (1 mL ig); 2) morphine (10 + 10 mg/kg ip) increased ulcers in the HCl-model, but had no effect in the two other models; 3) this ulcer-aggravating effect of morphine in the HCl-model was blocked by pretreatment of 2 mg/kg ip naloxone; and 4) both naloxone (5 + 5 and 10 + 10 mg/kg ip) significantly decreased gastric acid secretion in 1-h pylorus ligated rats. We conclude that: 1) naloxone dose-dependently protects against the indomethacin- and HCl-, but not against the ethanol-induced gastric mucosal damage; 2) morphine aggravates the HCl-induced ulcerogenesis; and 3) both opiod receptor agonist and antagonist decrease gastric acid secretion.