Gonadal hormone modulation of ∆9-tetrahydrocannabinol-induced antinociception and metabolism in female versus male rats.

The gonadal hormones testosterone (T) in adult males and estradiol (E2) in adult females have been reported to modulate behavioral effects of ∆9-tetrahydrocannabinol (THC). This study determined whether activational effects of T and E2 are sex-specific, and whether hormones modulate production of the active metabolite 11-hydroxy-THC (11-OH-THC) and the inactive metabolite 11-nor-9-carboxy-THC (THC-COOH). Adult male and female rats were gonadectomized (GDX) and treated with nothing (0), T (10-mm Silastic capsule/100g body weight), or E2 (1-mm Silastic capsule/rat). Three weeks later, saline or the cytochrome P450 inhibitor proadifen (25mg/kg; to block THC metabolism and boost THC's effects) was injected i.p.; 1h later, vehicle or THC (3mg/kg females, 5mg/kg males) was injected i.p., and rats were tested for antinociceptive and motoric effects 15-240min post-injection. T did not consistently alter THC-induced antinociception in males, but decreased it in females (tail withdrawal test). Conversely, T decreased THC-induced catalepsy in males, but had no effect in females. E2 did not alter THC-induced antinociception in females, but enhanced it in males. The discrepant effects of T and E2 on males' and females' behavioral responses to THC suggests that sexual differentiation of THC sensitivity is not simply due to activational effects of hormones, but also occurs via organizational hormone or sex chromosome effects. Analysis of serum showed that proadifen increased THC levels, E2 increased 11-OH-THC in GDX males, and T decreased 11-OH-THC (and to a lesser extent, THC) in GDX females. Thus, hormone modulation of THC's behavioral effects is caused in part by hormone modulation of THC oxidation to its active metabolite. However, the fact that hormone modulation of metabolism did not alter THC sensitivity similarly on all behavioral measures within each sex suggests that other mechanisms also play a role in gonadal hormone modulation of THC sensitivity in adult rats.

Long-lasting desensitization of bladder afferents following intravesical resiniferatoxin and capsaicin in the rat.

The present study was conducted to determine whether long-lasting desensitization of bladder afferents could be achieved using a single local application of the capsaicin (CAP)-like irritant resiniferatoxin (RTX), and to compare the effects of RTX and CAP on behavioral and histological endpoints. While rats were anesthetized, vehicle (VEH), RTX (10-100 nmol) or CAP (10-100 mumol) was instilled in the bladder (intravesical, i.ves.) via a cannula surgically implanted into the bladder dome. Beginning 1 week after treatment, once per week for 4 weeks, rats were tested behaviorally for desensitization to i.ves. RTX (10 nmol) using the abdominal lick test. Rats pretreated with low doses of RTX and CAP were partially desensitized at week 1; desensitization diminished over weeks 2-3. In contrast, rats pretreated with high doses of RTX or CAP were more completely desensitized at week 1, and desensitization did not diminish by week 4. Separate groups of rats tested 8 weeks after treatment showed substantial recovery. Rats pretreated with RTX but tested only with VEH for the first 3 weeks showed desensitization at week 4 approximately equivalent to that of RTX-treated rats tested with RTX every week. Sensitivity of corneal afferents to RTX (1.0 microgram/ml) at week 4 was not different between VEH- and RTX- or CAP-treated rats. Gross and histological examination of bladder tissue indicated that both RTX and CAP produced inflammation, which diminished in a dose- and time-dependent manner (1-8 weeks post-treatment).(ABSTRACT TRUNCATED AT 250 WORDS)

Oestradiol dampens reflex-related activity of on- and off-cells in the rostral ventromedial medulla of female rats.

The present study was conducted to determine whether the ovarian steroid oestradiol alters the activity of nociceptive modulatory neurons in the rostral ventromedial medulla (RVM). Adult female rats were ovariectomized and implanted s.c. with an oestradiol-filled or placebo capsule. Sixteen to 37 days later, rats were anaesthetised for single unit recording from RVM neurons. On-cells were characterised by a burst of activity, and off-cells by a pause in activity immediately preceding reflexive withdrawal of the tail from 51 and 54 degrees C water. Although on- and off-cells were evident in both oestradiol- and placebo-treated rats, the reflex-related on-cell burst and off-cell pause were dampened in oestradiol-treated rats. On-cells from oestradiol-treated rats had a mean activity burst of 9.1+/-2.2 Hz in the 2 s preceding the tail withdrawal reflex to 51 degrees C water, compared with 17.9+/-4.3 Hz for on-cells in placebo controls. Off-cell activity during the 2 s preceding tail withdrawal was 4.8+/-2.2 vs. 0.1+/-0.1 Hz in oestradiol vs. placebo-treated females, respectively. Similar changes in on- and off-cell activity occurred when the tail was placed in 54 degrees C water. The present data demonstrate that oestradiol constrains the magnitude of the shift in RVM on- and off-cell activity associated with nociceptive reflexes.

Lotrafiban: an oral platelet glycoprotein IIb/IIIa blocker.

Platelets play a major role in thrombus formation, as well as in the pathogenesis of atherothrombosis. Inhibition of platelet function is now emphasised more than ever for prevention and treatment of almost all vascular diseases, since thrombosis is established as the key pathogenic event causing acute ischaemic coronary and cerebrovascular syndromes. Although acetylsalicylic acid (aspirin) has been shown to reduce the incidence of myocardial infarction and stroke, its effect is weak and more effective antithrombotic agents are required to manage patients at high-risk for recurrent vascular events. Platelet glycoprotein IIb/IIIa receptor (GPIIb/IIIa) blockade represents a significant advance in interventional cardiology and treatment of acute ischaemic syndromes. The past several years have seen the introduction of many platelet GPIIb/IIIa blockers into the clinical arena targeting the unique platelet GPIIb/IIIa receptor for the adhesive proteins, fibrinogen and von Willebrand Factor. Platelet GPIIb/IIIa blockers administered intravenously have proven efficacious in mitigating arterial thrombosis in acute coronary syndromes (unstable angina and non-ST-elevation myocardial infarction) and percutaneous coronary interventions (PCI) such as balloon dilatation and stent implantation. Currently, orally-active platelet GPIIb/IIIa blockers are being developed to provide additional benefits for primary and secondary prevention of thrombosis as chronic treatment, especially in high-risk patients. Lotrafiban (SmithKline Beecham) is a member of the latest generation of orally-active platelet GPIIb/IIIa blockers undergoing Phase III clinical trials to test the relative effectiveness versus other oral platelet inhibitors for ischaemic conditions including unstable angina, restenosis after PCI and stroke. Lotrafiban is converted from an esterified prodrug by plasma and liver esterases to a peptidomimetic of the arginine-glycine-aspartic acid amino acid sequence. This sequence itself mimics the binding site of fibrinogen and von Willebrand Factor to the platelet GPIIb/IIIa receptor. Preliminary results of the clinical trial APLAUD (antiplatelet useful dose) show that lotrafiban is clinically safe and well-tolerated in patients with recent myocardial infarction, unstable angina, transient ischaemic attack (TIA), or stroke when added to aspirin therapy. With lotrafiban, a worldwide large-scale Phase III clinical trial BRAVO (blockage of the GPIIb/IIIa receptor to avoid vascular occlusion) is currently underway. In general, GPIIb/IIIa blockade seems clinically very promising. A number of unresolved issues, however, remain to be elucidated.

Cue properties of oral and transdermal nicotine in the rat.

In a standard two-lever drug discrimination paradigm, rats were trained to discriminate nicotine 0.5 mg/kg PO from saline. Injections occurred 15 min before the session. Subjects reached the training criterion in a mean of 38 sessions. Nicotine PO, SC, and IP generated similar dose-effect curves (ED50 = 0.073 mg/kg PO, 0.076 mg/kg SC, 0.090 mg/kg IP); the dose-effect curve for transdermal (TD) administration fell approximately 1 log unit to the right (ED50 = 1.34 mg/kg). The percentage of rats choosing the nicotine-appropriate lever peaked at 15 min and gradually decreased to 50% or less by 180 min for nicotine PO and TD, a time-decay function similar to that previously shown for SC administration. The nicotinic cholinergic agonist cytisine (0.5-8.0 mg/kg) PO and TD produced up to 56% nicotine-appropriate responding, while the muscarinic cholinergic agonist arecoline (1.0-4.0 mg/kg) PO and TD produced only saline-appropriate responding. The nicotine cue did not generalize to the cholinergic antagonist mecamylamine (0.125-0.5 mg/kg) PO or TD; mecamylamine 0.5 mg/kg PO but not TD completely blocked the PO and TD nicotine cues. These results show that an approximately equal cue occurs with PO, IP, and SC administration, and that the TD cue is considerably weaker. The significance of the procedure as an animal analog of human transdermal nicotine intake is discussed.

Importance of sex and relative efficacy at the mu opioid receptor in the development of tolerance and cross-tolerance to the antinociceptive effects of opioids.

RATIONALE: Recent studies indicate that mu opioids are generally more potent and effective as antinociceptive agents in male than female rodents. OBJECTIVES: To evaluate the influence of sex on the development of tolerance to the antinociceptive effects of morphine and cross-tolerance to the lower efficacy mu opioids buprenorphine and dezocine in F344 and Lewis rats. METHODS: Using a warm-water tail-withdrawal procedure, the antinociceptive effects of morphine, buprenorphine and dezocine were determined before and during chronic morphine (5, 10 and 20 mg/kg, b.i.d., for 7 and 14 days) administration. RESULTS: Under acute conditions, morphine was more potent in males and during chronic morphine administration tolerance development was generally greater in males. As males were more sensitive to the acute effects of morphine, the functional chronic morphine dose (i.e., chronic morphine dose/acute morphine ED50) administered to males was larger than in females. Analyses of the relationship between the functional chronic morphine dose and tolerance indicated that morphine tolerance development was comparable in males and females. Under acute conditions, buprenorphine and dezocine were more potent and effective in males. During chronic morphine administration, cross-tolerance was conferred to these opioids as evidenced by rightward, and in some cases downward, shifts in their dose-effect curves. Decreases in the maximal effects produced by buprenorphine and dezocine were more frequently observed in females. CONCLUSIONS: That comparable levels of morphine tolerance were obtained in males and females when the functional chronic morphine dose was taken into consideration suggests that the mechanism underlying tolerance is not sex-dependent. Sex differences in the effectiveness of buprenorphine and dezocine when administered acutely and during chronic morphine administration further suggest that these opioids have lower efficacy at the mu opioid receptor in females.

Sex differences in development of morphine tolerance and dependence in the rat.

RATIONALE: Several investigators have shown that male rodents are more sensitive than females to morphine's antinociceptive effects. OBJECTIVE: The present study was conducted to determine whether this sex difference is stable after chronic morphine treatment. RESULTS: Acutely administered morphine produced significantly greater hotplate and tail withdrawal antinociception in males than in females. In contrast, there were no sex differences in morphine's hotplate or tail withdrawal effects under repeated (1-week interval) dosing conditions. In a separate group of rats, after 2 weeks of twice-daily morphine treatment (10-20 mg/kg per injection), the ED50 for morphine's antinociceptive effects increased approximately 6.9-fold in males versus only 3.7-fold in females; chronic morphine treatment also disrupted the estrous cycle of females. In a separate group of rats treated with 10 mg/kg morphine twice daily for 5 days, treatment with naloxone (1.0 mg/kg) on day 6 produced greater withdrawal scores in males than in females. CONCLUSIONS: These experiments demonstrate sex differences in development of tolerance to and dependence on morphine in the rat.

Sex differences in cocaine- and nicotine-induced antinociception in the rat.

Several recent reports describe sex differences in opioid antinociception. The present study examined sex differences in stimulant-induced antinociception. On the 50 degreesC hotplate test, cocaine (0.1-1.0 microgram i.c.v.) produced dose- and time-dependent increases in response latency in male but not female Sprague-Dawley rats. In contrast, nicotine (3-30 microgram i.c.v.) produced increases in hotplate latency in both sexes, but produced greater effects in females; nicotine also decreased spontaneous locomotor activity significantly more in females than in males. These sex differences probably are not due to differential pharmacokinetics, and underscore the importance of including female subjects in experimental drug research.

Microinjection of morphine into the rostral ventromedial medulla produces greater antinociception in male compared to female rats.

The antinociceptive and locomotor effects of microinjecting morphine into the rostral ventromedial medulla (RVM) of male and female rats was assessed. Male rats showed greater antinociception than female rats at all doses and times following morphine administration. Male, but not female rats, also showed a dose dependent decrease in locomotion. These data demonstrate that sex differences in antinociception are mediated at least in part by the RVM.

Sex differences in antinociceptive and motoric effects of cannabinoids.

Cannabinoids are currently used for the treatment of excessive weight loss and nausea; however, there are very few studies that have examined cannabinoid effects in females of any species. A previous study has shown that there are sex differences in cannabinoid pharmacokinetics in rats, suggesting that there could be sex differences in cannabinoid-induced behaviors. To address this issue, Delta9-tetrahydrocannabinol, 11-hydroxy-Delta9-tetrahydrocannabinol (natural cannabinoids) or (-)-cis-3-[2-hydroxy-4-(1,1-dimethylheptyl)-phenyl]-trans-4-(3-hydroxypropyl)cyclohexanol) (CP55940, a synthetic cannabinoid) was administered i.p. to male and female Sprague-Dawley rats, who were tested on the 50 degrees C warm water tail withdrawal, paw pressure, catalepsy bar and spontaneous locomotor activity tests at various times post-injection. At the doses tested, all three cannabinoid agonists produced greater effects in females than males in two or more behavioral tests. This study demonstrates that there are sex differences in the behavioral effects of cannabinoids in the rat.

Morphine antagonizes U50,488's effects in a squirrel monkey shock titration procedure.

To determine whether a mu opioid agonist modulates the effects of a kappa opioid agonist in squirrel monkeys responding under a shock titration procedure, morphine was administered in combination with an ED75 dose of U50,488. Morphine (0.03-0.3 mg/kg) did not alter U50,488's early peak effects (15-25 min post-injection), but dose dependently antagonized U50,488's later effects (40-100 min post-injection); these doses of morphine shifted the U50,488 dose-effect curve < 1/4 log unit to the right. After 6-8 weeks of daily morphine administration, higher doses of morphine (0.3-3.0 mg/kg) shifted the U50,488 dose-effect curve > 1/2 log unit to the right. Morphine still did not antagonize early peak effects of the ED75 dose of U50,488, but antagonized early and late effects of a lower dose. Thus, morphine is a weak kappa antagonist in the shock titration procedure. In addition to its low affinity for kappa receptors, morphine's kappa antagonist activity is limited by its mu agonist effects, particularly in the non-morphine-tolerant monkey.

Intracranial self-stimulation in female and male rats: no sex differences using a rate-independent procedure.

Given gender differences in human drug use and dependence, this study examined sex differences in reinforcement processes that may underlie such behavior. A psychophysical determination of reinforcement threshold was made using an intracranial self-stimulation (ICSS) paradigm, electrically activating the medial forebrain bundle (MFB) as it passes through the lateral hypothalamus (LH). Using this response rate-independent procedure, basal reinforcement thresholds were not significantly different in male vs. female rats (119.4 +/- 3.3 microA vs. 110.8 +/- 4.0 microA, respectively; N = 8/sex). Further, baseline reinforcement threshold did not fluctuate systematically across stages of the estrous cycle in female rats. The psychostimulants D-amphetamine (0.056-0.56 mg/kg s.c.) and cocaine (1.8-18.0 mg/kg i.p.) dose-dependently lowered reinforcement threshold, with no significant sex difference. The opioid morphine (0.56-5.6 mg/kg s.c.) did not significantly lower reinforcement threshold in either sex. These results contrast those of some previous studies that have used response rate-dependent measures of reinforcement threshold; procedures which are less rate-dependent may be more appropriate when examining subject variables such as sex and stage of estrous.

Discriminative stimulus effects of cocaine in female versus male rats.

Eight female and 8 male rats were trained to discriminate 5.6 mg/kg i.p. cocaine from saline on 2-lever, food-reinforced drug discrimination procedure. Female rats acquired the cocaine discrimination in approximately the same number of sessions that males did (43 +/- 7 vs. 51 +/- 9 sessions, respectively), and the ED50 for cocaine discrimination was nearly equivalent in female and male rats (2.46 +/- 0.41 vs. 2.32 +/- 0.49 mg/kg, respectively). The time course for cocaine discrimination was similar in female and male rats, except the offset of cocaine's effects occurred significantly earlier in females than in males. D-Amphetamine dose-dependently substituted for cocaine in all 7 males and 6 of 7 females tested, with no significant sex difference in the ED50 values for D-amphetamine substitution. None of the three opioid agonists tested, morphine (mu), U69,593 (kappa) or BW373U86 (delta), fully substituted for cocaine in rats of either sex. The dopamine antagonist fluphenazine blocked the discriminative stimulus effects of cocaine to approximately the same extent in both sexes. Further drug discrimination training with a higher dose of cocaine, 10 mg/kg, did not significantly alter the ED50 for cocaine discrimination, and there was still no significant sex difference in ED50 values (3.50 +/- 0.39 vs. 2.36 +/- 0.41 mg/kg in females vs. males, respectively). In these same rats, however, cocaine (1-10 mg/kg) produced significantly greater locomotor activation in females than in males on a test of spontaneous locomotor activity. Thus, these results suggest that there are few sex differences in discriminative stimulus effects of cocaine, even at doses that produce significantly different locomotor responses in female versus male rats.

Sex differences in opioid antinociception: kappa and 'mixed action' agonists.

A number of investigators have shown that male animals are more sensitive than females to the antinociceptive effects of mu-opioid agonists. The present study was conducted to examine sex differences in opioid antinociception in the rat using agonists known to differ in selectivity for and efficacy at kappa- versus mu-receptors. Dose- and time-effect curves were obtained for s.c. U69593, U50488, ethylketazocine, (-)-bremazocine, (-)-pentazocine, butorphanol and nalbuphine on the 50 or 54 degrees C hotplate and warm water tail withdrawal assays; spontaneous locomotor activity was measured 32-52 min post-injection in the same rats. On the hotplate assay, only butorphanol (54 degrees C) and nalbuphine (50 degrees C) were significantly more potent in males than females. On the tail withdrawal assay, all agonists were significantly more potent or efficacious in males than females at one or both temperatures. In contrast, no agonist was consistently more potent in one sex or the other in decreasing locomotor activity. Estrous stage in female rats only slightly influenced opioid effects, accounting for an average of 2.6% of the variance in females' antinociceptive and locomotor responses to drug (50 degrees C experiment). These results suggest that (1) sex differences in antinociceptive effects of opioids are not mu-receptor-dependent, as they may occur with opioids known to have significant kappa-receptor-mediated activity; (2) the mechanisms underlying sex differences in kappa-opioid antinociception may be primarily spinal rather than supraspinal; (3) sex differences in antinociceptive effects of opioid agonists are not secondary to sex differences in their sedative effects.

Effect of gonadectomy on discriminative stimulus effects of morphine in female versus male rats.

In a previous study, we found sex differences in the potency of morphine as a discriminative stimulus; the present study was designed to determine whether sex differences in gonadal hormones contribute to sex differences in morphine's discriminative effects. Adult female and male rats were gonadectomized (GNDZ) or sham-gonadectomized (SHAM), and then trained to discriminate 3.0 mg/kg morphine from saline. The ED50 for morphine discrimination was significantly lower in females than in males (0.66 +/- 0.12 vs. 1.25 +/- 0.16 mg/kg, respectively); ED50 values in GNDZ rats were slightly higher than in SHAM rats. The time course of morphine discrimination was not significantly different in females and males, whether GNDZ or not. The micro agonist fentanyl completely substituted for morphine in all rats, with no group differences in ED50 value. The micro agonists buprenorphine and nalbuphine substituted for morphine in nearly all females and in all SHAM males, but in only four of seven GNDZ males. The kappa agonist U69,593 did not substitute for morphine in rats of any group. Most opioid agonists were significantly more potent in decreasing response rate in males than females, and in GNDZ than SHAM rats; morphine and nalbuphine also increased response rate above control in some females. A pA2 analysis of naltrexone in combination with morphine suggested that there were no significant differences among groups in receptors at which morphine produced its discriminative stimulus effects. Although hormone replacement in GNDZ female rats at the end of the study reinstated estrous cycling, it did not substantially alter the ED50 for morphine discrimination. Thus, sex differences in potency of morphine as a discriminative stimulus may not be due to sex differences in gonadal hormone milieu. The possibility that sex differences in reinforcement frequency on morphine versus saline levers caused the sex differences in morphine discrimination is discussed.

Sex differences in discriminative stimulus effects of morphine in the rat.

Nine female and ten male rats were trained to discriminate 3.0mg/kg s.c. morphine from saline. The six female rats that acquired and maintained the morphine discrimination did so in significantly fewer sessions than the eight males did (28 +/- 5 vs 51 +/- 9 sessions, respectively), and the ED(50) for morphine substitution was significantly lower in females (0.69 +/- 0.15 vs 1.28 +/- 0.20mg/kg). The time course of morphine substitution was approximately equivalent in females and males. The µ agonist fentanyl completely substituted for morphine in both sexes, with no sex difference in potency to substitute for morphine. The µ agonist buprenorphine partially or completely substituted for morphine in all females and five of six males, but at a lower dose in females (ED(50) 0.009 +/- 0.002 vs 0.019 +/- 0.006mg/kg). The delta agonist BW373U86 partially substituted for morphine in both sexes, with no potency differences; the kappa agonist U69,593 and the non-opioid cocaine did not substitute for morphine in either sex. On a test of spontaneous locomotor activity, morphine increased locomotion to a slightly but not significantly greater extent in males than in females. Morphine also produced significantly greater hotplate antinociception in males than in females. Further drug discrimination training with a lower dose of morphine, 1.0mg/kg, decreased the ED(50) for morphine substitution in females and males to 0.26 +/- 0.06 vs 0.45 +/- 0.11mg/kg, respectively (not significant). In a separate group of age-matched rats, there was no sex difference in brain or plasma levels of morphine measured via HPLC 20min post-injection, the pretreatment time used to examine behavioral effects of morphine. The HPLC results, plus the fact that sex differences were not the same for all behavioral effects of morphine, suggest that sex differences in discriminative stimulus effects of morphine are not due to differential pharmacokinetics. The possibility that sex differences in morphine discrimination reflect sex differences in opioid receptor pharmacology, or differential reinforcement between morphine and saline levers for males but not females, is discussed.

Treatment parameters of desensitization to capsaicin.

Desensitization of sensory afferents with topical capsaicin has been employed to treat a variety of neuropathic disorders in humans, however, few studies have been undertaken to systematically evaluate treatment parameters to determine the optimal dose and frequency of treatment needed to achieve and maintain desensitization. The effects of several treatment parameters, including dose, number of exposures, interval between exposures and duration of exposure, on the development, magnitude and duration of desensitization following local treatment with capsaicin and related compounds are described.

Temporal parameters of desensitization to intravesical resiniferatoxin in the rat.

Temporal factors affecting desensitization of bladder sensory afferents to the capsaicin-like irritant resiniferatoxin (RTX) were studied, to determine optimal treatment parameters for clinical application of such substances. Four days after implantation of a chronic cannula into the bladder dome, vehicle or RTX (0.1-10 nmol) was injected into the bladders of awake, freely moving rats four times at 60-min intervals for exposure durations of 5, 15, or 45 min, or at intervals of 15, 60, or 120 min (duration 5 min). The first RTX injection dose-dependently increased time spent engaged in abdominal licking. Regardless of exposure interval and duration, time spent licking increased to a lesser extent with each subsequent injection, indicating desensitization of sensory afferents. Magnitude and duration of desensitization were dose dependent for all exposure regimens, and there were few differences between groups. Desensitization at 24 h was also greater in rats exposed four times compared to rats exposed once. Following four exposures to RTX, nearly complete recovery occurred within 7-14 days, in a dose-dependent manner. Thus, magnitude and duration of desensitization to locally administered RTX depend primarily on dose and number of exposures to RTX; duration of exposure and interval between exposures within the ranges studied were less important determinants.

Agonist/antagonist properties of nalbuphine, butorphanol and (-)-pentazocine in male vs. female rats.

To determine whether sex differences in the effects of mixed-action opioids could be due to differential activity at mu or kappa receptors, agonist/antagonist properties of nalbuphine, butorphanol and (-)-pentazocine were compared in male vs. female rats using a diuresis test. In water-loaded rats (2-h test), nalbuphine and (-)-pentazocine dose-dependently increased urination similarly in both sexes, whereas butorphanol increased urination more in females than in males on a ml/kg basis. The diuretic effects of all three opioids were at least partially blocked by the kappa receptor-selective antagonist nor-binaltorphimine (nor-BNI, 5 mg/kg) in both sexes. Kappa receptor-mediated antagonism of diuresis induced by U69,593 (0.56 mg/kg) was only observed with butorphanol in males. In water-loaded rats (1-h test), nalbuphine did not suppress, and butorphanol and (-)-pentazocine significantly suppressed urination in males only; all three mixed-action opioids dose-dependently blocked the antidiuretic effect of the selective mu agonist fentanyl (0.056 mg/kg) in both sexes. The ability of nalbuphine and (-)-pentazocine to block fentanyl-induced antidiuresis was not affected by pretreatment with nor-BNI in either sex. In contrast, the ability of butorphanol to block fentanyl-induced antidiuresis was attenuated by pretreatment with nor-BNI in males but not in females. These results suggest that sex differences in the effects of these mixed-action opioids are primarily due to their greater relative efficacy at the mu receptor in male than in female rats; butorphanol also may have greater efficacy at kappa receptors in females than in males.

Conditioned defensive burying as a model for identifying anxiolytics.

Rats exposed to a presumably aversive stimulus such as electric shock respond by heaping litter on the source, a behavior known as conditioned defensive burying (CDB). Because some anxiolytics suppress this behavior, CDB has been proposed as a screening method for anxiolytics. We tested the effects of the conventional anxiolytics chlordiazepoxide (4-32 mg/kg) and meprobamate (75-125 mg/kg), the novel anxiolytic buspirone (8-64 mg/kg), the antidepressant imipramine (4-16 mg/kg), the opiate analgesic morphine (2-8 mg/kg), and the antipsychotic chlorpromazine (1-16 mg/kg) on CDB. Chlordiazepoxide, meprobamate, imipramine, and morphine significantly suppressed CDB, but chlordiazepoxide did so only at a dose that reduced general activity. Buspirone and chlorpromazine did not suppress CDB at doses that reduced activity. There were some methodological differences from previous studies. We conclude that the test as constituted in this study lacks drug-class specificity. The necessity of distinguishing between specific reduction of burying and general reduction of activity is emphasized.