Steven I. Dworkin

Differences in extracellular dopamine concentrations in the nucleus accumbens during response-dependent and response-independent cocaine administration in the rat.

Abstract Studies indicate that nucleus accumbens (NAcc) dopamine neurotransmission is involved in the reinforcing and direct effects of cocaine. The present study was initiated to explore further the relationship of NAcc extracellular dopamine concentrations ([DA]e) and cocaine self-administration using a yoked littermate design. In the first experiment, one rat from each litter was trained to self-administer cocaine IV (SA; 0.33 mg/inf) under a fixed ratio 2 schedule, while a second rat received simultaneous infusions of cocaine yoked to the infusions of the SA (YC). NAcc [DA]e and cocaine concentrations ([COC]) were assessed during the test sessions using in vivo microdialysis combined with microbore HPLC procedures. [DA]e and [COC] were significantly elevated in the SA and YC groups during the self-administration session; however, [DA]e were greater in the SA group compared to the YC group in the first hour of the session, even though [COC] were not significantly different. On the following day, the rats previously allowed to self-administer cocaine were administered response-independent cocaine infusions yoked to the infusion pattern from the previous day. [DA]e were significantly elevated above baseline levels during the session but were significantly less than concentrations obtained when cocaine was self-administered by these subjects. [COC] during the sessions were not significantly different between the two days. Baseline [DA]e were not significantly different between the SA and YC groups or between Day 1 and Day 2. Furthermore, there was no significant difference in the in vitro probe recovery between one and two days following probe implantation. These results suggest that the context in which cocaine was administered significantly altered the neurochemical response to equivalent brain concentrations of cocaine. NAcc [DA]e was significantly increased when the delivery of cocaine infusions was contingent on the behavior of the rat, indicative of a role in the neural processes underlying cocaine reinforcement.

Response-dependent versus response-independent presentation of cocaine: differences in the lethal effects of the drug.

The drug self-administration paradigm is routinely used to assess the abuse liability of psychoactive compounds. Investigations of the behavioral effects of drug use, however, often involve the response-independent (experimenter-delivered) administration of the compound. It is frequently assumed that response-independent presentation of a compound has the same effects as response dependent deliveries. The present study examined directly the effects of response-dependent (self-administered) versus response-independent (experimenter- delivered) administration of cocaine on food intake and lethality. Littermate triads were exposed to either cocaine (0.33 mg/infusion) or saline using a yoked-box procedure. One member of the triad self-administered the drug under a fixed-ratio 2 schedule. The other two rats received response-independent infusions of either cocaine or saline. Groups of triads were exposed to two different cocaine access conditions. Daily sessions were terminated after 6 h for one group and after the delivery of 80 infusions for the other. The mean number of infusions delivered each session was 47 (±12) and 70 (±11), respectively, for the 6-h and 80-infusion condition. Under the 80-infusion condition, response-independent infusions of cocaine resulted in a significantly higher rate of mortality compared to littermates self-administering identical amounts of the drug. A fewer number of deaths occurred under 6-h condition; however, only rats exposed to response-independent infusions died under both access conditions. These data indicate that the presence or absence of response dependency can profoundly alter the lethal effects of cocaine.

Neuropharmacological assessment of cocaine self-administration into the medial prefrontal cortex

Neuronal systems involved in the initiation of reinforcement following the response-contingent delivery of cocaine into the medial prefrontal cortex were investigated. Dose-effect analyses demonstrated that different concentrations of cocaine result in distinguishable patterns of self-administration which could be empirically determined by measuring the relative frequency distribution of the interinfusion intervals. The substitution of equimolar d-amphetamine or lidocaine resulted in rates and patterns of responding similar to vehicle or a low dose of cocaine, suggesting that reinforcement occurs from actions on specific receptors rather than through a local anesthetic neuronal blockade or through properties of a general psychomotor stimulant. The co-infusion of equimolar concentrations of sulpiride attenuated intake and produced patterns of responding similar to those seen after decreasing the cocaine dose consistent with an excitatory role for D2 dopaminergic receptors in these processes. Sulpiride and cocaine may act at separate sites since the decreased intake was not reversed by increasing the concentration of cocaine. D1 dopaminergic, muscarinic-cholinergic and beta-noradrenergic receptor antagonists either did not modulate drug-intake or had minimal effects. Cocaine reinforcement may result in part from an activation of D2 receptors initiating neuronal activity in pathways or circuits mediating reinforcement processes.

Chronic Cocaine Administration Increases CNS Tyrosine Hydroxylase Enzyme Activity and mRNA Levels and Tryptophan Hydroxylase Enzyme Activity Levels

Cocaine is an inhibitor of dopamine and serotonin reuptake by synaptic terminals and has potent reinforcing effects that lead to its abuse. Tyrosine hydroxylase (TH) and tryptophan hydroxylase (TPH) catalyze the rate‐limiting steps in dopamine and serotonin biosynthesis, respectively, and are the subject of dynamic regulatory mechanisms that could be sensitive to the actions of cocaine. This study assessed the effects of chronic cocaine on brain TH and TPH activities. Cocaine was administered (0.33 mg/infusion, i.v.) to rats for 7 days every 8 min for 6 h per day. This administration schedule is similar to patterns of self‐administration by rats when given ad libitum access to this dose. This chronic, response‐independent administration increased TH enzyme activity in the substantia nigra (30%) and ventral tegmental area (43%). Moreover, TH mRNA levels were also increased (45 and 50%, respectively). In contrast to the enzymatic and molecular biological changes in the cell bodies, TH activity was unchanged in the terminal fields (corpus striaturn and nucleus accumbens). Similarly, TPH activity was increased by 50% in the raphe nucleus (serotonergic cell bodies). In summary, the chronic response‐independent administration of cocaine produces increases in the expression of TH mRNA and activity in both the cell bodies of motor (nigrostriatal) and reinforcement (mesolimbic) dopamine pathways. These increases are not manifested in the terminal fields of these pathways.

Rat brain neurotransmitter turnover rates altered during withdrawal from chronic cocaine administration.

This experiment utilized neurotransmitter turnover rates to assess the effects of withdrawal from chronic cocaine on the brain. A triad-littermate design was used to evaluate the importance of response dependency on the effects of withdrawal from chronic cocaine administration upon brain biogenic monoamine and amino acid putative neurotransmitter turnover rates. Each member of a triad was exposed to one of three conditions. Cocaine infusions (0.33 mg/inf) were used to engender and maintain lever pressing by one rat under an FR 2 schedule, while the second and third rats received simultaneous infusions of either cocaine or saline, respectively. After a minimum of 15 days exposure to the three treatment conditions and 24 h after the start of the last drug session, the triads were pulse labeled with [14C]glucose, [3H]tyrosine and [3H]tryptophan and killed 60 or 90 min later by total immersion in liquid nitrogen, The frozen brains were removed and dissected at -20 degrees C into 22 areas. The content and specific radioactivities for dopamine (DA), noradrenaline (NA), serotonin (5-HT), aspartate (Asp), glutamate (Glu), glycine (Gly) and gamma-aminobutyric acid (GABA) were determined in each brain region using high pressure liquid chromatography with electrochemical (biogenic monoamines) or fluorescence (amino acids) detection followed by liquid scintillation spectrometry. Turnover rates (TOR) were calculated and compared across treatment conditions. The significant decreases in TOR resulting from chronic cocaine exposure included 5-HT in the frontal cortex, DA in the cingulate cortex, entorhinal-subicular and motor-somatosensory cortices and NA in the inferior colliculus. Significant increases in TOR were also observed which included 5-HT in the preoptic-diagonal band region, DA in the hippocampus and NA in the pyriform and temporal-auditory cortices, the dentate gyrus and brainstem. GABA TOR was also increased in the preoptic-diagonal band region, dentate gyrus and brainstem of both groups receiving cocaine as was Glu TOR in the pyriform cortex and cerebellum. In addition, changes were seen in the rats under the ratio schedule of cocaine self-administration that were not seen in rats receiving yoked-cocaine infusions that included increased TOR of 5-HT in the pyriform cortex, NA in the caudate-putamen and GABA in the pyriform and motor-somatosensory cortices. Decreased 5-HT TO was seen in the motor-somatosensory cortex and dentate gyrus in the rats that had self-administered cocaine compared to the yoked-cocaine infused group. Perhaps the most interesting changes were those seen in the yoked-cocaine group that were reversed in the rats whose responding was maintained by cocaine.(ABSTRACT TRUNCATED AT 400 WORDS)

Lack of an effect of 6-hydroxydopamine lesions of the nucleus accumbens on intravenous morphine self-administration

The neurotoxin, 6-hydroxydopamine (6-OHDA), has been used to selectively destroy dopamine containing neurons in discrete brain regions. Lesions of the nucleus accumbens with this neurotoxin decrease or eliminate cocaine and amphetamine self-administration and either increase or do not affect opiate self-administration in rats with unrestricted access to food and water. This study reports the effects of 6-OHDA lesions of the nucleus accumbens on responding maintained by food, water or morphine (3.3 mg/infusion). Six male rats with continuous access to three response levers were trained on a concurrent chained, fixed-ratio 1, fixed-ratio 9 schedule of reinforcer presentation. After stable patterns of responding were maintained by the three reinforcers, dose-effect curves for morphine were determined by substituting other doses of morphine or vehicle for 24-hour periods. Bilateral sham vehicle or 6-OHDA lesions of the nucleus accumbens were then completed and the effects of the lesion on food, water and morphine intake determined. Dose-effect evaluations were repeated after the lesion. The 6-OHDA lesions did not significantly affect responding maintained by food, water or morphine. The absence of an effect is most likely not the result of an insensitive baseline since other neurotoxin lesions produce long-term and selective decrements in morphine self-administration without affecting food and water responding. Like so many other manipulations, the magnitude of the effect that a neurotoxin lesion can exert on behavior may depend on the specific procedures that are used to maintain responding.

Kainic acid lesions of the nucleus accumbens selectively attenuate morphine self-administration

The influence of kainic acid lesions of intrinsic and efferent neurons of the central medial nucleus accumbens on responding simultaneously maintained by food, water and morphine self-administration was assessed. Rats were trained on a multioperant baseline to respond on three different levers that resulted in either a food pellet, the presentation of a water dipper or an infusion of morphine. While responding on the morphine lever was related to dose (0.83-13.2 mg/infusion), increasing concentrations of the drug had little or no effect on responding maintained by food and water before the lesion. Bilateral infusions of the neurotoxin into the nucleus accumbens decreased morphine self-administration but did not appreciably alter food or water intake. Food extinction probes before the lesion produced significant increases in drug intake and decreases in responding on the water lever, but the neurotoxin lesion attenuated the food extinction induced decrease in water intake. These data suggested that kainic acid lesions of the nucleus accumbens decrease the reinforcing efficacy of morphine but do not alter the reinforcing properties of food and water. The neuronal systems potentially involved in mediating the reinforcing effects of environmental events are discussed.

Radioenzymatic assay for tryptophan hydroxylase: [3H]H2O release assessed by charcoal adsorption.

The rate-limiting reaction in the biosynthesis of the neurotransmitter, serotonin, is catalyzed by the enzyme, tryptophan hydroxylase. Studies on the characteristics of this enzyme have been hampered by its relative instability and paucity in the brain. We have modified a charcoal adsorption radioenzymatic assay used for the measurement of tyrosine hydroxylase to assess rat brain tryptophan hydroxylase activity. This protocol is based on the principle that aromatic amino acid hydroxylases are mixed-function oxygenases and will utilize O2 and reduced pterin to convert tritiated amino acid substrate to product and tritiated H2O. All product and unreacted substrate are adsorbed by acidified charcoal. The [3H]H2O is analyzed by liquid scintillation spectrometry and is indicative (stoichiometrically) of the amount of product formed and, thus, the activity of the enzyme. This assay has a high signal-to-noise ratio and is sensitive enough to determine enzymatic activity in homogenates of individual raphe nuclei. In addition, its simplicity in design allows for the simultaneous testing of large numbers of samples. The enzyme activity and kinetic determinations derived from this protocol agree with those of other investigators using more lengthy, involved procedures.

Effects of ibogaine on responding maintained by food, cocaine and heroin reinforcement in rats

The effects of ibogaine (40 and 80 mg/kg, IP), an indole alkaloid proposed for the treatment of drug abuse, were determined in three different groups of rats responding under an FR10 schedule of food, cocaine or heroin reinforcement. Ibogaine (80 mg/kg, IP) given 60 min before the start of the session resulted in a 97% decrease in the number of ratios completed under the food reinforcement schedule and resulted in a decrease in responding the following day. Neither 40 mg/kg ibogaine given 60 min prior to the session nor 80 mg/kg given 24 h before the session suppressed responding maintained by cocaine infusions (0.33 mg/infusion). Pretreatment with 80 mg/kg ibogaine either 60 or 90 min prior to the session suppressed cocaine self-administration on the day it was administered and the longer pretreatment continued to suppress responding for 48 h. Responding maintained by heroin (18 µg/infusion) was the most sensitive to the effects of ibogaine. Both 40 and 80 mg/kg ibogaine resulted in an almost complete suppression of responding following a 60-min pretreatment period. Responding maintained by heroin returned to control levels the day following the administration of ibogaine.

Modifications of dopamine D1 receptor complex in rats self-administering cocaine

Cocaine is spontaneously and experimentally self-administered and, when given repeatedly, it induces a stable form of sensitization to a previously assessed minimum active dose. In the present study, triads of rats chronically implanted with a jugular catheter were treated as follows: one animal was trained to self-inject cocaine, while the other two passively received either cocaine or saline whenever the self-administering rat completed the response requirement. After 30 days of stable responding, the animals were sacrificed and dopamine D1 receptor density and adenylyl cyclase activity were measured in different brain areas. Animals receiving cocaine (both self-administering and yoked) showed a down-regulation of dopamine D1 receptor number and of dopamine stimulated adenylyl cyclase activity in the nucleus accumbens, as compared to saline rats. In the olfactory tubercle, dopamine stimulated adenylyl cyclase activity appeared selectively and significantly down-regulated in self-administering animals.