Delayed emergence of methamphetamine's enhanced cardiovascular effects in nonhuman primates during protracted methamphetamine abstinence

BACKGROUND

Methamphetamine abuse is linked with brain abnormalities, but its peripheral effects constitute an integral aspect of long-term methamphetamine use.

METHODS

Eight male rhesus monkeys with long histories of intravenous methamphetamine self-administration were evaluated 1 day, and 1, 4, 12, 26, and 52 weeks after their last methamphetamine self-administration session. On test days, isoflurane-anesthetized animals received a 0.35 mg/kg IV methamphetamine challenge. A control group consisted of 10 age and gender matched drug naïve monkeys. Cardiovascular responses to methamphetamine were followed for 2.5h. Echocardiograms were acquired at 3 and 12 months of abstinence and in the control animals.

RESULTS

No pre-methamphetamine baseline differences existed among 7 physiological measures across all conditions and controls. As expected, methamphetamine increased heart rate and blood pressure in controls. However, immediately following the self-administration period, the blood pressure response to methamphetamine challenge was reduced when compared to control monkeys. The peak and 150-min average heart rate increases, as well as peak blood pressure increases following methamphetamine were significantly elevated between weeks 12 to 26 of abstinence. These data indicate the development of tolerance followed by sensitization to methamphetamine cardiovascular effects. Echocardiography demonstrated decreased left ventricular ejection fraction and cardiac output at 3 months of abstinence. Importantly, both cardiovascular sensitization and cardiotoxicity appeared to be reversible as they returned toward control group levels after 1 year of abstinence.

CONCLUSIONS

Enhanced cardiovascular effects may occur after prolonged abstinence in addicts relapsing to methamphetamine and may underlie clinically reported acute cardiotoxic events.

A novel method to induce nicotine dependence by intermittent drug delivery using osmotic minipumps

Although osmotic minipumps are a reliable method for inducing nicotine dependence in rodents, continuous nicotine administration does not accurately model the intermittent pattern of nicotine intake in cigarette smokers. Our objectives, therefore, were to investigate whether intermittent nicotine delivery via osmotic minipumps could induce dependence in rats, and to compare the magnitude and duration of withdrawal following forced abstinence from intermittent nicotine to that induced by continuous nicotine administration. In order to administer nicotine intermittently, rats were surgically implanted with saline-filled osmotic minipumps attached to polyethylene tubing that contained hourly unit doses of nicotine alternating with mineral oil to mimic "injections". Three doses of nicotine (1.2, 2.4, and 4.8mg/kg/day) and saline were administered for 14days using this method. In order to compare our intermittent delivery method with the more traditional continuous nicotine delivery, a second group of rats was implanted with minipumps attached to tubing that delivered continuous nicotine for 14days. Rats were administered a 1.5mg/kg subcutaneous (SC) mecamylamine challenge and observed for somatic signs of withdrawal on days 7, 14, 21, and 28 following minipump implantation. Fifteen somatic withdrawal signs were summed within a 50-minute observation period to obtain a composite Dependence Score. A generalized linear mixed-effects model revealed a significant Day×Dose×Method interaction. Amongst continuously-treated rats, only 4.8mg/kg/d nicotine resulted in dependence scores significantly greater than those of controls at 14days of exposure. In contrast, all intermittent nicotine groups showed significantly higher scores beginning at 7days of exposure and persisting beyond 7days of abstinence. In general, intermittent delivery produced a more robust withdrawal syndrome than continuous delivery, and did so at a lower dose threshold and with greater persistence after forced abstinence.

Abstinence from cocaine and sucrose self-administration reveals altered mesocorticolimbic circuit connectivity by resting state MRI

Previous preclinical studies have emphasized that drugs of abuse, through actions within and between mesocorticolimbic (MCL) regions, usurp learning and memory processes normally involved in the pursuit of natural rewards. To distinguish MCL circuit pathobiological neuroadaptations that accompany addiction from general learning processes associated with natural reward, we trained two groups of rats to self-administer either cocaine (IV) or sucrose (orally) followed by an identically enforced 30 day abstinence period. These procedures are known to induce behavioral changes and neuroadaptations. A third group of sedentary animals served as a negative control group for general handling effects. We examined low-frequency spontaneous fluctuations in the functional magnetic resonance imaging (fMRI) signal, known as resting-state functional connectivity (rsFC), as a measure of intrinsic neurobiological interactions between brain regions. Decreased rsFC was seen in the cocaine-SA compared with both sucrose-SA and housing control groups between prelimbic (PrL) cortex and entopeduncular nucleus and between nucleus accumbens core (AcbC) and dorsomedial prefrontal cortex (dmPFC). Moreover, individual differences in cocaine SA escalation predicted connectivity strength only in the Acb-dmPFC circuit. These data provide evidence of fronto-striatal plasticity across the addiction trajectory, which are consistent with Acb-PFC hypoactivity seen in abstinent human drug addicts, indicating potential circuit level biomarkers that may inform therapeutic interventions. They further suggest that available data from cross-sectional human studies may reflect the consequence of rather a predispositional predecessor to their dependence.

Withdrawal from long-term methamphetamine self-administration 'normalizes' neurometabolites in rhesus monkeys: a (1) H MR spectroscopy study

(1) H magnetic resonance spectroscopy has demonstrated alterations in several neurometabolites in methamphetamine (METH)-dependent individuals in brain regions implicated in addiction. Yet, it is unclear whether these neurochemicals return to homeostatic levels after an individual abstains from drug use, a difficult question to address due to high recidivism and poor study retention in human subjects. We thus utilized a non-human primate model of addiction to explore the effects of long-term drug exposure and withdrawal on brain neurochemistry. Ten rhesus macaque monkeys on an active METH self-administration protocol (average use 4.6 ± 0.8 years, average daily intake between 0.4 and 1.2 mg/kg) and 10 age- and sex-matched drug-naive controls (CONT) served as subjects. Concentrations of several neurochemicals were evaluated at several timepoints following withdrawal from drug availability (10 monkeys at 1 week and 1 and 3 months, and 6 monkeys at 6 and 12 months; CONT examined at one timepoint). At 1 week following METH withdrawal, we found increases in myo-inositol in anterior cingulate cortex in the METH group relative to CONT. These alterations showed a linear pattern of decreased levels ('normalization') by 1 year of abstinence. We also found decreases in glutamine and Glx (composed mainly of glutamate and glutamine) in the caudate-putamen of the same animals at early withdrawal that showed a similar linear pattern of increasing concentration by 1 year. These results demonstrate that despite protracted, long-term use, neurochemical changes seen following long-term drug administration do not persist following prolonged abstinence, suggesting therapeutic effects of long-term withdrawal from drug use.

fMRI response in the medial prefrontal cortex predicts cocaine but not sucrose self-administration history

Repeated cocaine exposure induces long-lasting neuroadaptations that alter subsequent responsiveness to the drug. However, systems-level investigation of these neuroplastic consequences is limited. We employed a rodent model of drug addiction to investigate neuroadaptations associated with prolonged forced abstinence after long-term cocaine self-administration (SA). Since natural rewards also activate the mesolimbic reward system in a partially overlapping fashion as cocaine, our design also included a sucrose SA group. Rats were trained to self-administer cocaine or sucrose using a fixed-ratio one, long-access schedule (6 h/day for 20 days). A third group of naïve, sedentary rats served as a negative control. After 30 days of abstinence, the reactivity of the reward system was assessed with functional magnetic resonance imaging (fMRI) following an intravenous cocaine injection challenge. A strong positive fMRI response, as measured by fractional cerebral blood volume changes relative to baseline (CBV%), was seen in the sedentary control group in such cortico-limbic regions as medial prefrontal cortex and anterior cingulate cortex. In contrast, both the cocaine and sucrose SA groups demonstrated a very similar initial negative fMRI response followed by an attenuated positive response. The magnitude of the mPFC response was significantly correlated with the total amount of reinforcer intake during the training sessions for the cocaine SA but not for the sucrose SA group. Given that the two SA groups had identical histories of operant training and handling, this region-specific group difference revealed by regression analysis may reflect the development of neuroadaptive mechanisms specifically related to the emergence of addiction-like behavior that occurs only in cocaine SA animals.

Acute nicotine-induced tachyphylaxis is differentially manifest in the limbic system

Rapid tolerance develops to many of nicotine's behavioral and autonomic effects. A better understanding of the spatiotemporal patterns in neuronal activity as a consequence of acute nicotine tolerance (tachyphylaxis) may help explain its commonly found inverted 'U'-shaped biphasic dose-effect relationship on various behaviors. To this end, we employed high-resolution functional magnetic resonance imaging and relative cerebral blood volume (rCBV) as a marker of neuronal activity, to characterize the regional development of acute tolerance as a function of nicotine dose in naïve, anesthetized rats. A single intravenous nicotine injection at 0.1 and 0.3, but not 0.03 mg/kg, significantly increased neuronal activity in many neocortical areas. In contrast, dose-dependent increases in rCBV were most pronounced in limbic regions, such that responses seen at 0.1 mg/kg nicotine in accumbens, hippocampus, amygdala, and several other limbic areas were not seen following 0.3 mg/kg nicotine. Finally, whereas profound tolerance was observed in many cortical regions after the second of two paired nicotine injections at either 0.1 or 0.3 mg/kg, subcortical limbic structures showed only a weak trend for tolerance. Lack of rCBV changes in animals receiving nicotine methiodide, a quaternary nicotine analog that does not cross the blood-brain barrier, supports a direct neuronal effect of nicotine rather than an action on the vasculature. These data provide pharmacodynamic insight into the regional heterogeneity of nicotine tachyphylaxis development, which may be relevant to behavioral and neurobiological mechanisms associated with repeated tobacco consumption.

Temporary disruption of the rat blood-brain barrier with a monoclonal antibody: a novel method for dynamic manganese-enhanced MRI

Manganese (Mn(2+)) has limited permeability through the blood-brain barrier (BBB). Opening the BBB such that a sufficient amount of Mn(2+) enters the extracellular space is a critical step for dynamic manganese-enhanced magnetic resonance imaging (ME-MRI) experiments. The traditional BBB opening method uses intracarotid hyperosmolar stress which results in suboptimal BBB opening, and practically is limited to nonsurvival experiments due to substantial surgical trauma. In the present ME-MRI study, we investigate the feasibility of opening the BBB with an antibody that targets the endothelial barrier antigen (EBA) specifically expressed by rat endothelial cells. Results demonstrate that intravenous infusion of the anti-EBA agent SMI-71 leads to BBB disruption of the whole brain as detected by ME-MRI and confirmed by Evans blue dye staining. Physiologically, injection of SMI-71 leads to a hypertensive response followed by a sustained hypotensive response in animals anesthetized with urethane alone. Incorporating isoflurane partially mitigated both pressor responses. In general, BBB disruption via intravenous infusion of SMI-71 is straightforward and obviates technical difficulties associated with intracarotid hyperosmolar stress, opening new possibilities for in vivo neuroimaging with ME-MRI. The data also suggest that ME-MRI may be used as an imaging method to assess BBB integrity complementary to the Evans blue dye method, a classical but highly invasive technique, permitting longitudinal assessment of the integrity of the BBB on the same animal.

When the endogenous hallucinogenic trace amine N,N-dimethyltryptamine meets the sigma-1 receptor

N,N-dimethyltryptamine (DMT) is a hallucinogen found endogenously in human brain that is commonly recognized to target the 5-hydroxytryptamine 2A receptor or the trace amine-associated receptor to exert its psychedelic effect. DMT has been recently shown to bind sigma-1 receptors, which are ligand-regulated molecular chaperones whose function includes inhibiting various voltage-sensitive ion channels. Thus, it is possible that the psychedelic action of DMT might be mediated in part through sigma-1 receptors. Here, we present a hypothetical signaling scheme that might be triggered by the binding of DMT to sigma-1 receptors.

Greater nicotinic acetylcholine receptor density in smokers than in nonsmokers: a PET study with 2-18F-FA-85380

Assays of human postmortem brain tissue have revealed that smokers have greater densities of high-affinity nicotinic acetylcholine receptors (nAChRs) in several brain regions than do nonsmokers or exsmokers. Quantitative PET imaging of nAChRs in humans has recently been reported using the alpha4beta2* subtype-specific radioligand 2-(18)F-FA-85380 (2FA).

METHODS

We used PET and 2FA to measure total volumes of distribution corrected for the free fraction of 2FA in plasma (V(T)/f(P)) in 10 nonsmokers and 6 heavy smokers (>14 cigarettes/d; abstinent for >36 h). Dynamic PET scans were performed over 8 h, commencing immediately after a bolus injection of 2FA. Anatomic sampling was performed on PET images that were coregistered to MR images acquired from each volunteer. Data were analyzed by Logan plots and by 1- and 2-tissue-compartment models using unbound, unmetabolized arterial 2FA concentration as the input function.

RESULTS

All modeling methods yielded similar results. V(T)/f(P) was significantly higher in smokers than in nonsmokers in all brain regions tested, except the thalamus. We used measures of V(T)/f(P) and estimates of nondisplaceable volume of distribution and found 25%-200% higher values in smokers than in nonsmokers for the volume of distribution for the specific binding compartment in the frontal cortex, midbrain, putamen, pons, cerebellum, and corpus callosum. These findings were consistent with voxel-based analysis using statistical parametric mapping.

CONCLUSION

Our findings suggest that PET with 2FA can be used to study the role of nicotine-induced upregulation of nAChRs in active smokers and during smoking cessation.

NIDA522131, a new radioligand for imaging extrathalamic nicotinic acetylcholine receptors: in vitro and in vivo evaluation

A novel radioligand, 6-chloro-3-((2-(S)-azetidinyl)methoxy)-5-(2-fluoropyridin-4-yl)pyridine (NIDA522131), for imaging extrathalamic nicotinic acetylcholine receptors (nAChRs) was characterized in vitro and in vivo using positron emission tomography. The K(d) and T(1/2) of dissociation of NIDA522131 binding measured at 37 degrees C in vitro were 4.9 +/- 0.4 pmol/L and 81 +/- 5 min, respectively. The patterns of radioactivity distribution in monkey brain in vivo was similar to that of 2-[(18)F]fluoro-3-(2(S)-azetidinylmethoxy)pyridine (2FA), a radioligand that has been successfully used in humans, and matched the alpha(4)beta(2)* nAChRs distribution. Comparison between [(18)F]NIDA522131 and 2FA demonstrated better in vivo binding properties of the new radioligand and substantially greater radioactivity accumulation in brain. Consistent with [(18)F]NIDA522131 elevated affinity for nAChRs and its increased lipophilicity, both, the total and non-displaceable distribution volumes were substantially higher than those of 2FA. Estimated binding potential values in different brain regions, characterizing the specificity of receptor binding, were 3-4 fold higher for [(18)F]NIDA522131 than those of 2FA. Pharmacological evaluation in mice demonstrated a toxicity that was comparable to 2FA and is in agreement with a 2300 fold higher affinity at alpha(4)beta(2)* versus alpha(3)beta(4)* nAChRs. These results suggest that [(18)F]NIDA522131 is a promising positron emission tomography radioligand for studying extrathalamic nAChR in humans.

Quantification of nicotinic acetylcholine receptors in the human brain with PET: bolus plus infusion administration of 2-[18F]F-A85380

Quantitative analysis of most positron emission tomography (PET) data requires arterial blood sampling and dynamic scanning when the radioligand is administered as a bolus injection. Less invasive studies can be accomplished if the radioligand is administered as a bolus plus constant infusion (B/I). The purpose of the current study was to evaluate a B/I paradigm for quantifying high affinity nicotinic acetylcholine receptors (nAChRs) with PET and 2-[(18)F]F-A85380 (2FA). Seven volunteers underwent a study in which 2FA was administered as a bolus injection and another study in which the 2FA was administered by B/I (Kbolus=500 min). We evaluated the feasibility of using scans of a 2 h duration starting 6 h after the start of the 2FA administration and data from venous blood. Radioactivity in the brain and in arterial and venous plasma reached steady state by 6 h. Volumes of distribution (V(T)) calculated from the ratio of radioactivity in the brain areas of interest to the radioactivity corresponding to unbound, unmetabolized 2FA in venous plasma at steady state in the B/I studies were very similar to those calculated from time activity curves of unbound, unmetabolized 2FA in arterial plasma and regional brain radioactivity from 8-h dynamic scans after bolus administration of 2FA. The results of repeated PET studies with 2FA showed a high reproducibility of V(T) measurements. We conclude that B/I methodology will be useful for clinical and research studies of brain nAChRs.

Quantification of alpha4beta2* nicotinic receptors in the rat brain with microPET and 2-[18F]F-A-85380

The radioligand 2-[(18)F]F-A-85380 has been used for PET studies of the alpha4beta2* subtype of nicotinic acetylcholine receptors (nAChRs) in the living brain of humans and nonhuman primates. In order to extend the capacity of microPET to quantify neuroreceptors in rat brain, we carried out studies of 2-[(18)F]F-A-85380 to measure the apparent binding potential BP* in individual rats, which were studied repeatedly over several months. Using a bolus-plus-infusion paradigm, 2-[(18)F]F-A-85380 (specific activity 20-1300 GBq/micromol) was administered intravenously over 8 to 9 h with K(bol) values of 350 to 440 min and a mean infusion rate of 0.03+/-0.01 nmol/kg/h. Studies included a 2-h nicotine infusion initiated 2 h before the end of scanning to displace specifically bound radioactivity. Steady state binding in brain was obtained within 5 h as defined by the occurrence of constant radioactivity concentrations in brain regions and constant, free arterial plasma levels of nonmetabolized radioligand. BP* averages (+/-SEM) for thalamus, forebrain, and cerebellum were 5.9+/-0.7, 2.6+/-0.4, and 1.0+/-0.1, respectively, which are consistent with the alpha4beta2* nAChR distribution in rat brain measured in vitro. Studies of receptor occupancy determined the ED(50) to be 0.29 nmol/kg/h. The demonstration that alpha4beta2* nAChRs are quantifiable in the rat brain using PET measurements, coupled with the ability to conduct longitudinal studies over several months in the same rats, suggests potential applications to studies of chronic nicotine use, its treatment, and abnormal functioning of alpha4beta2* receptors in a rat model.

Synthesis and Structure−Activity Relationship of a Novel Series of Aminoalkylindoles with Potential for Imaging the Neuronal Cannabinoid Receptor by Positron Emission Tomography

A new series of CB(1) ligands with high binding affinity (K(i) = 0.7-100 nM) and moderate lipophilicity (cLogD(7.4)) in the range of 2.1-4.5 has been synthesized. A structure-activity relationship study demonstrated that for the studied set of aminoalkylindoles, the molecular dipole of the ground state conformation within the series was inversely related to the affinity. The racemic ligand with highest affinity (0.7 nM), 3-(4-fluoronaphthoyl)-1-(N-methylpiperidin-2-ylmethyl)indole, was radiolabeled with (18)F. This radioligand specifically labeled CB(1) receptors in mouse brain and accumulated in regions of high versus low CB(1) receptor density in a ratio of 1.6. The displaceable radioactivity of one enantiomer in the brains of mice determined in a pretreatment study using the CB(1) antagonist N-(piperidinyl)-5-(4-chlorophenyl)-1-(2,4-dichlorophenyl)-4-methyl-1H-pyrazole-3-carboxamide (SR141716) was nearly double that of the racemate for the same determination; therefore, the active enantiomer is a candidate for PET studies in animals. A pretreatement study for the other enantiomer found no displaceable radioactivity in the same group of mice; this result suggested the enantiomer was inactive.

Evaluation of 5-(2-(4-pyridinyl)vinyl)-6-chloro-3-(1-methyl-2-(S)-pyrrolidinylmethoxy)pyridine and its analogues as PET radioligands for imaging nicotinic acetylcholine receptors

A novel series of compounds derived from the high-affinity nicotinic acetylcholine receptor (nAChR) ligand, 5-(2-(4-pyridinyl)vinyl)-6-chloro-3-((1-methyl-2-(S)-pyrrolidinyl)methoxy)pyridine (Me-p-PVC), originally developed by Abbott Laboratories, was characterized in vitro in nAChR binding assays at 37 degrees C to show K(i) values in the range of 9-611 pm. Several compounds of this series were radiolabeled with (11)C and evaluated in vivo in mice and monkeys as potential candidates for PET imaging of nAChRs. [(11)C]Me-p-PVC (K(i) =56 pm at 37 degrees C; logD = 1.6) was identified as a radioligand suitable for the in vivo imaging of the alpha 4 beta 2* nAChR subtype. Compared with 2-[(18)F]FA, a PET radioligand that has been successfully used in humans and is characterized by a slow kinetic of brain distribution, [(11)C]Me-p-PVC is more lipophilic. As a result, [(11)C]Me-p-PVC accumulated in the brain more rapidly than 2-[(18)F]FA. Pharmacological evaluation of Me-p-PVC in mice demonstrated that the toxicity of this compound was comparable with or lower than that of 2-FA. Taken together, these results suggest that [(11)C]Me-p-PVC is a promising PET radioligand for studying nAChR occupancy by endogenous and exogenous ligands in the brain in vivo.

Pharmacological and toxicological evaluation of 2-fluoro-3-(2(S)-azetidinylmethoxy)pyridine (2-F-A-85380), a ligand for imaging cerebral nicotinic acetylcholine receptors with positron emission tomography

2-[(18)F]fluoro-3-(2(S)-azetidinylmethoxy)pyridine (2-[(18)F]F-A-85380), a positron emission tomography (PET) radioligand for neuronal alpha4beta2(*) nicotinic acetylcholine receptors, was evaluated for its pharmacology and safety. In the Ames test for mutagenicity, 2-F-A-85380 was without effect in five bacterial strains. No evidence of gross pathology or histopathological changes occurred in either 2-day acute (0.4-4000 nmol/kg i.v.) or 14-day expanded acute (40-4000 nmol/kg i.v.) toxicity studies in mice. Similarly, hematology and serum chemistry values in rhesus monkeys administered 60 nmol/kg i.v. were not affected over 14 days. Like nicotine, 2-F-A-85380 produced convulsions in mice at very high doses. The ED(50) value of 2-F-A-85380 for eliciting tonic-clonic convulsions (5.0 micromol/kg i.v.) was nearly 4 times greater than that of nicotine (ED(50) = 1.4 micromol/kg i.v.). Lower doses of 2-F-A-85380 (30-300 nmol/kg i.v.) and nicotine (20-400 nmol/kg i.v.) increased systolic and diastolic blood pressure, heart rate, and cardiac contractility in rats. Notably, the PR, QRS, or QTc intervals of the rat electrocardiogram were unaffected by either drug. Dosimetry studies indicated that the urinary bladder wall was the critical organ and total radiation exposure was within acceptable limits. Estimated doses of 2-F-A-85380 required to elevate blood pressure and heart rate by 10% ranged from 40 to 58 nmol/kg i.v. Nevertheless, the estimated radiopharmaceutically relevant dose of [(18)F]2-F-A-8380 required for initial PET imaging studies, 10 pmol/kg, is less than 1/4000th of the doses calculated (40-58 nmol/kg i.v.) to elevate blood pressure and heart rate by 10% in humans and should elicit no clinically significant effects and have acceptable dosimetry.

Quantification of nicotinic acetylcholine receptors in human brain using [123I]5-I-A-85380 SPET

The purpose of this study was to assess the utility of a new single-photon emission tomography ligand, [123I]5-iodo-3-[2(S)-2-azetidinylmethoxy]pyridine (5-I-A-85380), to measure regional nAChR binding in human brain. Six healthy nonsmoker subjects (two men and four women, age 33 +/- 15 years) participated in both a bolus (dose: 317 +/- 42 MBq) and a bolus plus constant infusion (dose of bolus: 98 +/- 32 MBq, B/I=6.7 +/- 2.6 h, total dose: 331 +/- 55 MBq) study. The study duration was 5-8 h and 14 h in the former and the latter, respectively. Nonlinear least-squares compartmental analysis was applied to bolus studies to calculate total (VT') and specific (VS') distribution volumes. A two-tissue compartment model was applied to identify VS'. VT' was also calculated in B/I studies. In bolus studies, VT' was well identified by both one- and two-tissue compartment models, with a coefficient of variation of less than 5% in most regions. The two-compartment model gave VT' values of 51, 22, 27, 32, 20, 19, 20, and 17 ml cm(-3) in thalamus, cerebellum, putamen, pons, and frontal, parietal, temporal, and occipital cortices, respectively. The two-compartment model did not identify VS' well. B/I studies provided poor accuracy of VT' measurement, possibly due to deviations from equilibrium conditions. These results demonstrate the feasibility of quantifying high-affinity type nAChRs using [123I]5-I-A-85380 in humans and support the use of VT' measured by bolus studies.

2-[18F]F-A-85380: PET imaging of brain nicotinic acetylcholine receptors and whole body distribution in humans

Noninvasive imaging of nicotinic acetylcholine receptors (nAChRs) in the human brain in vivo is critical for elucidating the role of these receptors in normal brain function and in the pathogenesis of brain disorders. Here we report the first in vivo visualization of human brain areas containing nAChRs by using PET and 2-[18F]fluoro-3-(2(S)azetidinylmethoxy)pyridine (2-[18F]FA). We acquired scans from six healthy non-smoking volunteers after i.v. bolus administration of 2-[18F]FA (1.6 MBq/kg or 0.043 +/- 0.002 mCi/kg). This dose was sufficient for visualizing nAChRs in the thalamus up to 5 h after injection. There were no adverse effects associated with administration of no-carrier-added 2-[18F]FA (1.3-10 pmol/kg). Consistent with the distribution of nAChRs in human brain, accumulated radioactivity was greatest in thalamus, intermediate in the midbrain, pons, cerebellum, and cortex; and least in white matter. As approximately 90% of the injected radioactivity was eliminated via the urine (biological half-life ca. 4 h), the urinary bladder wall received the highest radiation dose. The estimate of radiation dose equivalent to the urinary bladder wall (ca. 180 +/- 30 mSv/MBq or 0.7 rem/mCi with a 2.4 h void interval) suggests that multiple studies could be performed in a single subject. The results predict that quantitative PET imaging of nAChRs in human brain with 2-[18F]FA is feasible.

Whole-body biodistribution, radiation absorbed dose, and brain SPET imaging with [123i]5-i-A-85380 in healthy human subjects

The biodistribution of radioactivity after the administration of a new tracer for alpha4beta2 nicotinic acetylcholine receptors (nAChRs), [123I]5-iodo-3-[2(S)-2-azetidinylmethoxy]pyridine (5-I-A-85380), was studied in ten healthy human subjects. Following administration of 98+/-6 MBq [123I]5-I-A-85380, serial whole-body images were acquired over 24 h and corrected for attenuation. One to four brain single-photon emission tomography (SPET) images were also acquired between 2.5 and 24 h. Estimates of radiation absorbed dose were calculated using MIRDOSE 3.1 with a dynamic bladder model and a dynamic gastrointestinal tract model. The estimates of the highest absorbed dose (microGy/MBq) were for the urinary bladder wall (71 and 140), lower large intestine wall (70 and 72), and upper large intestine wall (63 and 64), with 2.4-h and 4.8-h urine voiding intervals, respectively. The whole brain activity at the time of the initial whole-body imaging at 14 min was 5.0% of the injected dose. Consistent with the known distribution of alpha4beta2 nAChRs, SPET images showed the highest activity in the thalamus. These results suggest that [123I]5-I-A-85380 is a promising SPET agent to image alpha4beta2 nAChRs in humans, with acceptable dosimetry and high brain uptake.

5-Iodo-A-85380, an alpha4beta2 subtype-selective ligand for nicotinic acetylcholine receptors

In an effort to develop selective radioligands for in vivo imaging of neuronal nicotinic acetylcholine receptors (nAChRs), we synthesized 5-iodo-3-(2(S)-azetidinylmethoxy)pyridine (5-iodo-A-85380) and labeled it with (125)I and (123)I. Here we present the results of experiments characterizing this radioiodinated ligand in vitro. The affinity of 5-[(125)I]iodo-A-85380 for alpha4beta2 nAChRs in rat and human brain is defined by K(d) values of 10 and 12 pM, respectively, similar to that of epibatidine (8 pM). In contrast to epibatidine, however, 5-iodo-A-85380 is more selective in binding to the alpha4beta2 subtype than to other nAChR subtypes. In rat adrenal glands, 5-iodo-A-85380 binds to nAChRs containing alpha3 and beta4 subunits with 1/1000th the affinity of epibatidine, and exhibits 1/60th and 1/190th the affinity of epibatidine at alpha7 and muscle-type nAChRs, respectively. Moreover, unlike epibatidine and cytisine, 5-[(125)I]iodo-A-85380 shows no binding in any brain regions in mice homozygous for a mutation in the beta2 subunit of nAChRs. Binding of 5-[(125)I]iodo-A-85380 in rat brain is reversible, and is characterized by high specificity and a slow rate of dissociation of the receptor-ligand complex (t(1/2) for dissociation approximately 2 h). These properties, along with other features observed previously in in vivo experiments (low toxicity, rapid penetration of the blood-brain barrier, and a high ratio of specific to nonspecific binding), suggest that this compound, labeled with (125)I or (123)I, is superior to other radioligands available for in vitro and in vivo studies of alpha4beta2 nAChRs, respectively.

Radiosynthesis and preliminary evaluation of 5-[123/125I]iodo-3-(2(S)-azetidinylmethoxy)pyridine: a radioligand for nicotinic acetylcholine receptors

The radiochemical syntheses of 5-[125I]iodo-3-(2(S)-azetidinylmethoxy)pyridine (5-[125I]-iodo-A-85380, [125I]1) and 5-[123I]-iodo-A-85380, [123I]1, were accomplished by radioiodination of 5-trimethylstannyl-3-((1-tert-butoxycarbonyl-2(S)-azetidinyl)metho xy)pyridine, 2, followed by acidic deprotection. Average radiochemical yields of [125I]1 and [123I]1 were 40-55%; and the average specific radioactivities were 1,700 and 7,000 mCi/mumol, respectively. Binding affinities of [125I]1 and [123I]1 in vitro (rat brain membranes) were each characterized by a Kd value of 11 pM. Preliminary in vivo assay and ex vivo autoradiography of mouse brain indicated that [125I]1 selectively labels nicotinic acetylcholine receptors (nAChRs) with very high affinity and specificity. These studies suggest that [123I]1 may be useful as a radioligand for single photon emission computed tomography (SPECT) imaging of nAChRs.

In vivo studies with [125I]5-I-A-85380, a nicotinic acetylcholine receptor radioligand

5-[125I]iodo-3-(2(S)-azetidinylmethoxy)pyridine ([125I]5-I-A-85380) was evaluated in the mouse as a potential in vivo imaging ligand for central nicotinic acetylcholine receptors (nAChRs). After i.v. administration of [125I]5-I-A-85380, peak brain levels of radioactivity were measured within 1 h and declined slowly over 4 h. [125I]5-I-A-85380 binding was saturable, and both its pharmacology, based upon inhibition studies, and its pattern of accumulation in brain regions having high nAChR densities were consistent with an interaction at alpha4beta2 nAChR agonist binding sites. The thalamus:cerebellum radioactivity ratio, a measure of specific labeling, reached 37. Therefore, radiolabeled 5-I-A-85380 has excellent potential as an imaging radiotracer for nAChRs, particularly with single photon emission computed tomography, when 123I is incorporated into the molecule.

Effect of cocaine-related environmental stimuli on the spontaneous electroencephalogram in polydrug abusers

Relationships between the spontaneous electroencephalogram (EEG), self-reports of cocaine craving, and cerebral glucose metabolism, determined using 2-[18F]fluoro-2-deoxy-D-glucose and positron emission tomography, were assessed during the presentation of either neutral or cocaine-related environmental stimuli. In cocaine users but not non-drug-abusing controls, EEG power in the alpha1 and alpha2 frequency bands was significantly lowered during presentation of the drug-related stimuli when compared with the neutral test session. Decreases in alpha1 power were negatively correlated with increases in global glucose metabolism but were not correlated with either the time course or the magnitude of craving throughout the 30-min test session. Although EEG desynchronization is related to global brain metabolism, the difference in the time courses between EEG power and craving suggests that self-reports of cue-elicited cocaine craving do not simply reflect increases in the state of cortical arousal.

l-alpha-Acetylmethadol, l-alpha-acetyl-N-normethadol and l-alpha-acetyl-N,N-dinormethadol: comparisons with morphine and methadone in suppression of the opioid withdrawal syndrome in the dog

l-alpha-Acetyl-N-normethadol (nor-LAAM) and l-alpha-acetyl-N, N-dinormethadol (dinor-LAAM) are active metabolites of the opiate l-alpha-acetylmethadol (LAAM), and they contribute to the prolonged actions of the parent compound. Single doses of nor-LAAM, dinor-LAAM, LAAM, methadone and morphine were given intravenously to the chronic spinal dog to determine acute, single-dose effects and their ability to suppress withdrawal in morphine-dependent dogs. These opioids produced dose-dependent antinociception, decreases in body temperature and pupillary constriction. For these measures, dinor-LAAM was 1.5 to 3 times and nor-LAAM 6 to 12 times as potent as LAAM. Five hours after the acute administration of LAAM or either of the metabolites, a 1-mg/kg dose of naltrexone given intravenously produced withdrawal, indicating the presence of acute physical dependence. In dogs physically dependent on a daily dose of 125 mg of morphine, nor-LAAM was 9 times as potent as either LAAM or dinor-LAAM in suppressing spontaneous withdrawal 40 hr after the last dose of morphine. The efficacies of LAAM and its demethylated metabolites in the dog for producing acute opiate effects were comparable with those of morphine and methadone. There was a trend, however, for LAAM to suppress the expression of abstinence more fully than either metabolite. The usefulness of LAAM as a treatment for opiate addiction is likely due in part to the equivalent efficacies and higher potencies of its nor and dinor metabolites.

Further in vivo studies on attenuating morphine withdrawal: isoform-selective nitric oxide synthase inhibitors differ in efficacy

The N-methyl-D-aspartate (NMDA) receptor-nitric oxide (NO) pathway has been linked to opiate withdrawal. Pretreatments with four inhibitors of NO synthase, 7-nitro indazole, 3-bromo-7-nitro indazole, S-methyl-L-thiocitrulline and aminoguanidine, which exhibit different isoform selectivity in vitro, were evaluated for their ability to attenuate signs of naloxone-precipitated morphine withdrawal. In separate experiments, effects of NO synthase inhibitors on blood pressure were measured in naive and morphine-dependent rats. 7-Nitro indazole, 3-bromo-7-nitro indazole and S-methyl-L-thiocitrulline, which are specific inhibitors of the constitutive isoforms, produced dose-dependent reductions of several signs of withdrawal. Blood pressure was unaffected by the indazoles, whereas S-methyl-L-thiocitrulline produced a strong vasoconstrictor response. Aminoguanidine, which selectively inhibits inducible NO synthase, reduced fewer signs of opioid withdrawal, had a lower relative potency and exhibited no vasopressor activity. These data suggest that constitutive isoforms, but not the inducible isoform of NO synthase, have a primary role in NO-mediated processes that modulate the opioid withdrawal syndrome in the rat.

Nitric oxide synthase inhibitors. Preclinical studies of potential use for treatment of opioid withdrawal

Four inhibitors of nitric oxide synthase (NOS), administered as acute pretreatments, attenuated several signs of naloxone-precipitated opioid withdrawal in morphine-dependent rats. Profiles of these drugs for inhibiting the expression of withdrawal were similar to that of clonidine, a drug used clinically to treat opioid withdrawal. The nonselective NOS inhibitors, NG-nitro-L-arginine and NG-nitro-L-arginine methyl ester, and N(5)-(1-iminoethyl)-L-ornithine, a selective inhibitor of endothelial NOS, Increased blood pressure in awake, morphine-naive and morphine-dependent rats not undergoing withdrawal. 7-Nitroindazole, a selective inhibitor of neuronal NOS, did not elevate blood pressure. Insofar as hypertension is a component of opioid withdrawal in humans, the ability of 7-nitroindazole to attenuate morphine withdrawal in rats without eliciting a vasopressor response suggests that 7-nitroindazole may have human therapeutic potential. Research directions for the continued development of 7-nitroindazole as a therapeutic modality are discussed with respect to issues of physical dependence, tolerance, and safety.

Comparison of 7-nitroindazole with other nitric oxide synthase inhibitors as attenuators of opioid withdrawal

Previously, we demonstrated that two nonselective inhibitors of nitric oxide synthase (NOS), L-NG-nitroarginine (L-NNA) and L-NG-nitroarginine methyl ester (L-NAME), reduced some signs of morphine withdrawal in rats. The present work extended these studies to include 7-nitroindazole (7-NI), an inhibitor specific for cerebral NOS, and N(5)-(1-iminoethyl)-L-ornithine (L-NIO), a potent inhibitor of endothelial NOS. Behavioral effects of these four NOS inhibitors and clonidine, an alpha 2-adrenoceptor, agonist, on morphine withdrawal in rats were assessed. Rats received one 75-mg morphine pellet subcutaneously (SC). Three days later, NOS inhibitors were administered IP 1 h before withdrawal was precipitated with naloxone (0.5 mg/kg, SC) and scored. 7-NI, L-NIO, L-NAME and L-NNA produced dose-related decreases in weight loss, diarrhea, wet dog shakes and grooming. 7-NI also reduced mastication, salivation and genital effects. Clonidine produced effects similar to 7-NI. In awake, morphine-naive and morphine-dependent rats not subjected to withdrawal, 7-NI was the only NOS inhibitor that did not increase blood pressure. Because 7-NI attenuated more signs of opioid withdrawal than L-NNA, L-NAME or L-NIO without causing hypertension, 7-NI appears to warrant further testing as a potential candidate for human use.

Effects of verapamil on morphine-induced euphoria, analgesia and respiratory depression in humans

Organic calcium (Ca++) channel antagonists enhance opiate-induced analgesia and antagonize respiratory depression produced by morphine in rodents. Our preliminary data indicated that verapamil reduces the subjective effects of morphine in humans. We therefore assessed morphine-verapamil interactions in 12 experienced, male polydrug users with histories of heroin abuse by using a double-blind, cross-over study design. Treatments consisted of two drug infusions. Either verapamil, 2.5 or 10 mg, or saline was infused, 30 ml i.v. over 2 min; half way through this infusion either 10 mg of morphine or saline was infused, 3 ml i.v. over 10 sec, via a second catheter. Autonomic parameters, responsiveness to pain and subjective self-reports of mood and feeling state were measured over 4 hr. Analgesia was measured using a finger pressure test and hand immersion in ice water. Respiration was measured by using respiratory inductive plethysmography and transcutaneous CO2 levels. The Addiction Research Center Inventory (ARCI) was used to measure the subjective effects. Morphine had a liminal effect on pain threshold, but verapamil potentiated this effect to elevate pain threshold significantly. Verapamil did not affect the ability of morphine to increase pain endurance or to produce respiratory depression. Morphine produced positive affective responses, as demonstrated by elevated scores on the Morphine-Benzedrine Group subscale of the ARCI. Verapamil alone produced no effects on any ARCI subscales; however, 10 mg of verapamil significantly reduced morphine-elevated MBG scores over a 3-hr period. The results suggest the euphorigenic and analgesic effects of opioids may be differentiated by using Ca++ channel blockers.

Attenuation of some signs of opioid withdrawal by inhibitors of nitric oxide synthase

Effects of nitric oxide synthase (NOS) inhibitors (L-NG-nitroarginine, L-NG-nitroarginine methyl ester) on precipitated opioid withdrawal were studied in morphine-dependent rats given naloxone, in order to assess the involvement of nitric oxide (NO) in opioid dependence. L-NG-Nitroarginine (7.5 mg/kg, IP, 1 h before naloxone or b.i.d. on days 4-7 of an 8-day morphine treatment) reduced wet dog shakes and weight loss; when given by osmotic pumps (15 mg/kg per day), the drug reduced wet dog shakes but not weight loss. L-NG-Nitroarginine methyl ester (60 mg/kg, 1 h before naloxone) also reduced wet dog shakes and weight loss. The results indicate that NOS inhibitors warrant further study as potential treatments of the opioid withdrawal syndrome.

Steroid control of uterine motility via gamma-aminobutyric acidA receptors in the rabbit: a novel mechanism?

gamma-Aminobutyric acid (GABA) is a regulator of uterine motility. Stimulation of GABAA receptors tonically inhibited contractions of rabbit uterine strips, while stimulation of GABAB receptors enhanced contractions. Steroids appeared to interact with GABAA receptors to modulate uterine contractility: tetrahydroprogesterone (THP) inhibited while pregnenolone sulphate (PS) increased contractions. THP rapidly antagonized the stimulatory effect of PS, but progesterone inhibited the contractions after a delay, suggesting that the known 'silencing' actions of progesterone on the uterus could be mediated via the metabolite THP, which potentiates the inhibitory function of GABAA receptors. This novel mechanisms may play a role in uterine function during pregnancy and parturition.

Pharmacodynamic and pharmacokinetic actions of ketocyclazocine enantiomers in the dog: absence of sigma- or phencyclidine-like activity

The effects of the optical isomers and the racemic form of ketocyclazocine (KC) were compared with morphine and U-50,488H in the chronic spinal dog. l-KC and dl-KC produced depression of nociceptive reflexes, miosis, relaxation of the nictitating membrane and sedation, whereas d-KC lacked pharmacological activity. Peak plasma levels and distribution phase half-lives for dl-, l- and d-KC were similar, indicating no major dispositional differences between the isomers of KC despite a trend for d-KC to have a longer elimination half-life, slower plasma clearance and a greater apparent volume of distribution than l-KC. Although a relatively low dose of naltrexone (0.01 mg/kg) was sufficient to shift morphine dose-effect curves to the right, this dose of naltrexone was not sufficient to shift the dose-effect curves of dl-KC to the right. A dose of 1 mg/kg of naltrexone was required, consistent with the view that the effects were mediated by kappa opioid receptors. The overall pharmacological profile of l-KC differed from that of the more selective kappa opioid agonist U-50,488H, which produced both stimulatory and sedative effects. Neither l-KC nor U-50,488H produced pharmacological profiles typical of the sigma agonist d-N-allylnormetazocine or phencyclidine. The data suggest that the pharmacological activity of KC resides in the l-enantiomer, that the effects are kappa opioid receptor-mediated and that the binding of d-KC to haloperidol-sensitive sigma receptors does not produce N-allylnormetazocine- or phencyclidine-like actions in the dog.

Kappa opioid partial agonist activity of the enkephalin-like pentapeptide BW942C based on urination and in vitro studies in humans and animals

A diuretic effect of the pentapeptide BW942C [Tyr-D-Met(O)-Gly-pNO2-Phe-Pro-NH2 HCl] was demonstrated in humans and rats; it was characterized pharmacologically using whole animal, isolated tissue and in vitro binding studies. A single 2-mg dose of BW942C increased urine output 5-fold over control values in humans. In Long-Evans rats, BW942C produced a biphasic dose-response curve for urine output with lower doses increasing and higher doses suppressing output. Low doses of naltrexone antagonized the antidiuresis, and high doses antagonized the diuresis produced by BW942C. BW942C was less efficacious in producing diuresis than the full kappa agonists bremazocine and U50,488H (trans-3,4-dichloro-N-methyl-N-[2-(1-pyrrolidinyl)-cyclohexyl]- benzeneacetamide methanesulfonate, hydrate). Furthermore, BW942C antagonized the diuretic effects of bremazocine and U50,488H. Rats tolerant to U50,488H-induced diuresis were cross-tolerant to BW942C. In Brattleboro rats, which are unable to synthesize vasopressin, BW942C failed to produce a diuretic effect, demonstrating the necessity of vasopressin for its diuretic response. In the kappa-selective rabbit vas deferens bioassay, BW942C was less efficacious than a full agonist, it was antagonized by naloxone and BW942C in nondepressant doses antagonized a full agonist. In binding studies, BW942C had the highest affinity for mu and delta opioid receptors and an intermediate affinity for kappa opioid receptors. The data suggest that BW942C has the property of a partial kappa opioid agonist in addition to being a mu agonist.

Tripelennamine interactions with the psychotomimetic sigma agonist N-allylnormetazocine

The pharmacological effects of individual and combined intravenous doses of the antihistamine tripelennamine and the psychotomimetic sigma benzomorphan opioid derivative, N-allylnormetazocine (NANM), on nociceptive reflexes, autonomic parameters and behavior were assessed in the chronic spinal dog. NANM (1.65 mg/kg, IV) produced antinociception, mydriasis, tachycardia, hyperthermia and behavioral signs of canine delirium. Tripelennamine (1.25 mg/kg, IV) produced antinociception, mydriasis and tachycardia without affecting behavior. The combined effects of the two drugs were additive except for heart rate. However, tripelennamine did not antagonize any of the physiological effects or the signs of canine delirium produced by NANM. The findings are inconsistent with the hypothesis that tripelennamine antagonizes the psychotomimetic NANM-like effects of pentazocine to make pentazocine-tripelennamine combinations (T's and Blues) more desirable as a heroin substitute.

Interactions between pentazocine and tripelennamine on autonomic and nociceptive measures in the dog

Pentazocine and tripelennamine, which have been abused in combination by humans, were evaluated for pharmacologic interactions on autonomic, behavioral, and antinociceptive measures in chronic spinal dogs. Pentazocine (0.31-5 mg/kg, IV) produced miosis, hypothermia and antinociception which was mediated by spinal and supraspinal reflexes; these effects were antagonized by naltrexone. Tripelennamine (0.63-2.5 mg/kg, IV) elicited mydriasis, hyperthermia and antinociception; these effects were not blocked by naltrexone. Tripelennamine produced antinociception only on the supraspinally-mediated skin twitch reflex. Interactions between pentazocine and tripelennamine varied depending on the response measured. Effects of both drugs on pupils were additive. Temperature effects were infra-additive, with the hyperthermic effects of tripelennamine predominating over the pentazocine hypothermia, resulting in a complete physiologic antagonism of pentazocine hypothermia. Antinociception, measured by flexor reflex depression, represented only the effect of pentazocine, whereas skin twitch reflex antinociception reflected either infra-additive or additive properties. The coadministration of nonconvulsive doses of pentazocine and tripelennamine produced seizures indicating a potentiated adverse interaction. In summary, the patterns of the pentazocine-triplennamine interactions were complex and the effects of tripelennamine could not be attributed to opioid activity.

Flupirtine antinociception in the dog is primarily mediated by nonopioid supraspinal mechanisms

Flupirtine is a novel analgesic recently introduced with therapy. The present study assessed the role of opioid mechanisms in flupirtine-induced antinociception, localized its site of action along the neuraxis and evaluated its relative potency. Analgesic and general behavioral effects of flupirtine (0.3-10 mg/kg i.v.) were compared to those of the opioid analgesic pentazocine (0.3-5 mg/kg i.v.) in chronic spinal dogs. Flupirtine was slightly less effective than pentazocine in depressing the supraspinally mediated skin twitch nociceptive reflex. But in contrast to pentazocine, flupirtine only weakly depressed the flexor reflex, a spinally mediated nociceptive reflex. Statistically reliable potency estimates for antinociception were not obtained. Both drugs constricted pupils and lowered body temperature. In drug interaction studies, a relatively high dose (1 mg/kg i.v.) of the opioid antagonist naltrexone antagonized the effects of pentazocine but not those of flupirtine. It is concluded that flupirtine-induced antinociception is not opiate-receptor mediated, that its antinociceptive actions occur primarily at supraspinal sites and that its potency is less than that of pentazocine in the dog.

Guinea-pig vas deferens preparation may contain both receptors and phencyclidine receptors

Electrically induced contractions of guinea-pig vas deferens were potentiated by sigma drugs such as d-pentazocine and d-SKF-10047 and also by phencyclidine-like drugs. Non-sigma drugs like morphine, buprenorphine, DADLE, U-50488 and l-ketocyclazocine did not potentiate contractions. The potentiations were antagonized by haloperidol and BW234U. Although the potentiation may not be definitively mediated by sigma receptors or phencyclidine receptors alone, the preparation may provide an interesting tool for studying endogenous ligands which might act like sigma or phencyclidine drugs.

Pharmacologic and reinforcing properties of phencyclidine and the enantiomers of N-allylnormetazocine in the dog

Experiments were conducted to evaluate the degree of phencyclidine (PCP)-like activity associated with the dextro and levo enantiomers of the sigma agonist N-allylnormetazocine (NANM). In chronic spinal dogs, d- and l-NANM generally produced similar physiologic and gross animal behavior effects which included miosis, tachycardia, hyperthermia, increased secretory activity (lacrimation, rhinorrhea and salivation), nystagmus and stereotyped head movements. For these effects, d- and l-NANM were generally equal in potency and both were about 1/10th as potent as PCP. However, the NANM enantiomers could be differentiated on the basis of their effects on nociceptive reflexes. Comparisons of dose-response curves and efficacies demonstrated that d-NANM was more similar to PCP in its effectiveness in depressing the flexor and skin twitch reflexes than was l-NANM. In addition, naltrexone selectively antagonized or reduced only the effects of l-NANM on reflex activity. In intact dogs, d-NANM and PCP, but not l-NANM maintained self-administration behavior under FR15 or FI900 (FR10:S) schedules of reinforcement. This represented the most stereospecific action of the NANM enantiomers. Additionally, l-NANM failed to maintain self-administration behavior, even following pretreatment with naltrexone, thus suggesting that the opiate activity of l-NANM was not responsible for its lack of reinforcing efficacy. Taken together, the data demonstrate that both d- and l-NANM have PCP-like properties, but d-NANM is pharmacologically more equivalent than l-NANM to PCP and l-NANM has additional activity which is not PCP-like.

Phencyclidine analogs and precursors: rotarod and lethal dose studies in the mouse

A series of phencyclidine (PCP) related analogs, carbonitrile synthetic precursors and two monohydroxylated metabolites were compared pharmacologically in mice for their ability to produce ataxia using the rotarod method and toxicologically for their acute 4-hr lethality. The slope of the PCP dose-ataxic response curve was steeper than those of diazepam, pentobarbital, morphine and ketocyclazocine but not the slope of the sigma agonist, N-allylnormetazocine curve. Responses for all analogs, metabolites and precursors produced curves parallel to that of PCP. Ataxia potencies of all PCP-related compounds ranged from 0.05 to 2.15 X PCP and durations of action ranged from 18 to 65 min. N-ethyl-1-phenylcyclohexylamine, 1-[1-(2-thienyl)-cyclohexyl]-piperidine and 1-[1-(2-thienyl)-cyclohexyl]-pyrrolidine were most potent and least potent were 1-(1-phenyl-cyclohexyl)-4-methylpiperidine, the phenyl and thienyl morpholines and 4-phenyl-4-piperidinocyclohexanol. Among the PCP analogs, modifying the piperidine or aromatic ring effected changes only in potency. Seizures and respiratory depression characterized the lethal effects of PCP, its analogs, metabolites and precursors. However, the precursors failed to elicit the stereotyped movements and hyperactivity that preceded seizures produced by the other compounds. Overall potencies for lethality relative to PCP covered a narrow range (0.16-1.83) with the carbonitrile precursors being most potent. Therapeutic indices indicated relatively large margins of safety for 1-[1-(2-thienyl)-cyclohexyl]-piperidine, 1-[1-(2-thienyl)-cyclohexyl]-piperidine, N-ethyl-1-phenylcyclohexylamine and ketamine and the smallest were for 1-(1-phenylcyclohexyl)-4-methylpiperidine, the metabolite 4-phenyl-4-piperidinocyclohexanol and the three precursors.(ABSTRACT TRUNCATED AT 250 WORDS)

Naltrexone fails to antagonize the sigma effects of PCP and SKF 10,047 in the dog

SKF 10,047, N-allylnormetazocine, a benzomorphan narcotic antagonist, and the arylcyclohexylamine anesthetic phencyclidine produced similar reflex, autonomic and behavioral effects in the chronic spinal dog which were not antagonized by naltrexone pretreatment. Naltrexone did effectively prevent the effects of morphine. These data provide further evidence that the acute effects of phencyclidine and SKF 10,047 are alike and that their principal mechanism of action does not involve opiate activity of the morphine type.

Effects of cycloalkyl ring analogs of phencyclidine on behavior in rodents

The purpose of the present experiments was to evaluate the effects of eliminating or varying the size of the cycloalkyl ring of phencyclidine (PCP) from 3 to 8 carbons while leaving the composition of the benzene and piperidine rings unaltered. Compounds were evaluated for their effectiveness in producing PCP-like discriminative stimuli and changes in pupil diameter in the rat and impaired motor performance on the Rotarod in the mouse. All modifications of the cycloalkyl ring of PCP significantly reduced the relative potencies of the cycloalkyl analogs, shortened their duration of action and also modified their spectra of action, including their effectiveness in producing PCP-like discriminative stimuli and miosis in the rat as well as ataxia in the mouse. The present results demonstrate that the cyclohexyl moiety of PCP is an absolute requirement for producing a full PCP-like spectrum of activity.

Anorexia and hyperphagia produced by five pharmacologic classes of hallucinogens

The acute actions of five prototype hallucinogens administered SC on food consumption in 23 hr food deprived dogs were compared with the anorexic effect of d-amphetamine and the hyperphagic effect of sodium pentobarbital. Comparisons were made on the basis of dose-response relationships. Among the hallucinogens decreasing food intake, both LSD and atropine produced substantial anorexia, but the slopes of their dose-response curves were clearly different from d-amphetamine. Phencyclidine and the opioid SKF 10,047 suppressed food intake also; their individual dose-effect curves were parallel to the amphetamine curve, although both were less potent. Of the hallucinogens tested, only delta-9-tetrahydrocannabinol (delta 9-THC) stimulated food consumption, and though it was less potent, it resembled pentobarbital both qualitatively and by having a parallel dose-response curve. The appetitive responses are discussed in relation to other pharmacologic actions of these hallucinogens in the dog, and consideration is given to the possible modes of action for phencyclidine- and SKF 10,047-induced anorexia.

Phencyclidine metabolism: resolution, structure, and biological activity of the isomers of the hydroxy metabolite, 4-phenyl-4-(1-piperidinyl)cyclohexanol

One of the major biotransformation pathways in the metabolism of phencyclidine is hydroxylation at C-4 of the cyclohexane ring to give 4-phenyl-4-(1-piperidinyl)cyclohexanol (1). Since the latter compound can exist as cis and trans isomers and the synthetic mixture has been reported to be biologically active, it was of interest to separate the isomers, test them for biological activity, and determine their ratio as metabolic products of phencyclidine. The synthetic mixture of 1 was separated by TLC and the individual isomers were characterized by 13C and 1H NMR and MS analyses. Preliminary testing of the isomers in the mouse rotarod assay indicates that the trans isomer (1b) is only slightly more active then the cis isomer (1a). Both isomers produced seizure activity and lethality at doses required to produce maximal ataxia.