Successive rational mutations of human butyrylcholinesterase (BChE) followed by fusion to human serum albumin have yielded an efficient hydrolase that offers realistic options for therapy of cocaine overdose and abuse. This albumin-BChE prevented seizures in rats given a normally lethal cocaine injection (100 mg/kg, i.p.), lowered brain cocaine levels even when administered after the drug, and provided rescue after convulsions commenced. Moreover, it selectively blocked cocaine-induced reinstatement of drug seeking in rats that had previously self-administered cocaine. The enzyme treatment was well tolerated and may be worth exploring for clinical application in humans.
Impulsivity, as measured by the delay-discounting task, predicts the acquisition of cocaine selfadministration and reinstatement of cocaine seeking in rats. The purpose of this study was to extend these results to the escalation phase of drug self-administration. Female rats were initially screened for high (HiI) or low (LoI) impulsivity for food reinforcement using a delay-discounting procedure. They were then implanted with i.v. catheters and trained to lever press for cocaine infusions (0.8 mg/ kg). Once cocaine intake stabilized, rats were allowed to self-administer cocaine (0.4 mg/kg) under a fixed-ratio 1 (FR 1) schedule during 3, 2 hr short-access sessions. Subsequently, performance was briefly assessed under a progressive ratio (PR) schedule for 3 doses of cocaine (0.2, 0.8, and 3.2 mg/ kg). Following PR testing, the cocaine dose was then changed to 0.4 mg/kg. Session length was then extended to 6-hr for 21 days (extended access), and 0.4 mg/kg cocaine was available under a FR 1 schedule. After the 21-day extended access phase, responses and infusions under the short access and PR dose-response conditions were reassessed. The results indicated that HiI rats escalated cocaine-reinforced responding during the extended access condition, but LoI rats did not. HiI rats also earned significantly more infusions than LoI rats under the post-escalation short-access condition. However, HiI and LoI rats did not differ under the pre-and post-extended access PR conditions. This study suggests that individual differences in impulsivity predict escalation of cocaine self-administration in female rats, which may have implications in the prediction of binge-like patterns of cocaine intake in women.
Estrogen increases and progesterone decreases the acquisition and reinstatement of cocaine-seeking behavior in female rats. Here estrogen and progesterone were studied for their effects on the escalation of cocaine self-administration in female rats. The rats received ovariectomy (OVX) or sham (SH) surgery and were treated with estradiol benzoate (0.05 mg/kg sc) and/or progesterone (0.5 mg/kg) or vehicle (indicated by E, P, and V), resulting in 5 groups: SH+V, SH+P, OVX+V, OVX+E, OVX+E+P. Rats self-administered intravenous cocaine (0.4 mg/kg) under a fixed ratio 1 (FR 1) schedule during 2-hr sessions and were then given 6-hr sessions (long access; LgA) (FR 1) for 21 days. After LgA, self-administration was reassessed with 2-hr sessions under the FR 1 and a progressive ratio schedule with 4 cocaine doses. There were no differences among the 5 groups in cocaine self-administration during initial 2-hr sessions. During LgA, the SH+V, OVX+E, and OVX+V groups escalated their cocaine self-administration, whereas the OVX+E+P and SH+P groups did not. Estradiol increased escalation in the OVX+E group compared with the OVX+V group, and progesterone (SH+P) reduced escalation compared with the SH+V group. When estrogen and progesterone were both administered in OVX rats (OVX+E+P), escalation was significantly lower than in the OVX+E group. Cocaine infusions during the 2-hr sessions were significantly higher after escalation than before in all groups except the progesterone-treated groups (SH+P and OVX+E+P). Estrogen promoted and progesterone inhibited escalation of cocaine self-administration, illustrating the importance of female gonadal hormones in drug-seeking behavior.
Rationale and objectives Previous work has shown that wheel running reduced the maintenance of cocaine self-administration in rats. In the present study, the effect of wheel running on extinction and reinstatement of cocaine seeking was examined. Female rats were trained to run in a wheel during 6-h sessions, and they were then catheterized and placed in an operant conditioning chamber where they did not have access to the wheel but were allowed to self-administer iv cocaine. Subsequently, rats were divided into four groups and were tested on the extinction and reinstatement of cocaine seeking while they had varying access to a wheel in an adjoining compartment. The four groups were assigned to the following wheel access conditions: (1) wheel running during extinction and reinstatement (WER), (2) wheel running during extinction and a locked wheel during reinstatement (WE), (3) locked wheel during extinction and wheel running during reinstatement (WR), and (4) locked wheel during extinction and reinstatement (WL). WE and WR were retested later to examine the effect of one session of wheel access on cocaine-primed reinstatement. Results There were no group differences in wheel revolutions, in rate of acquisition of cocaine self-administration, or in responding during maintenance when there was no wheel access. However, during extinction, WE and WER responded less than WR and WL. WR and WER had lower cocaine-primed reinstatement than WE and WL. One session of wheel exposure in WE also suppressed cocaine-primed reinstatement. Conclusions Wheel running immediately and effectively reduced cocaine-seeking behavior, but concurrent access to running was necessary. Thus, exercise is a useful and self-sustaining intervention to reduce cocaine-seeking behavior.
Estradiol benzoate (EB) facilitates the acquisition and reinstatement of cocaine-seeking behavior when administered to ovariectomized (OVX) rats. In contrast, progesterone (P) decreases acquisition of cocaine self-administration, but the effects of P on the reinstatement of drug seeking are not known. The purpose of the present study was to compare the effects of EB and P on the reinstatement of cocaine-seeking behavior in female rats. Rats received either OVX or sham surgery (SH) and were trained to lever press for intravenous cocaine infusions (0.4 mg/kg) under a fixed ratio 1, 20-s time-out schedule during daily 2-hr sessions. After 14 days of stable responding, saline replaced cocaine, and a 21-day extinction period began. After extinction, rats were separated into 5 treatment groups (OVX+EB, OVX+EB+P, OVX+vehicle [VEH], SH+P, or SH+VEH), and VEH, EB, or EB+P was administered 30 min prior to each session for 5 days. After 3 days of hormone treatment, rats received a saline or cocaine (10 mg/kg) injection, and reinstatement of lever responding was assessed. Reinstatement responding in the OVX+EB group was greater relative to the OVX+EB+P, SH+P, and OVX+VEH groups, which had low levels of cocaine-primed responding. The SH+VEH and OVX+EB groups displayed similar high levels of cocaine-elicited reinstatement. The suppression of cocaine-induced reinstatement following P treatment suggests a role for P in the prevention of relapse to cocaine self-administration in female cocaine users.
The purpose of this study was to examine a form of impulsive behavior (impaired inhibition) using cocaine or food reward in addiction-prone and addiction-resistant rats that were bred for high saccharin (HiS) or low saccharin (LoS) intake, respectively. A Go/No-go procedure was used to examine cocaine and food reinforcement (Go component) and the inhibition of responding during a subsequent period of nonreward (No-go component). Rats were initially trained to self-administer intravenous cocaine (0.4 mg/kg) under an FR 1 schedule during daily Go/No-go sessions consisting of three components of cocaine reinforcement (Go) alternating with two nonreward components (No-go), each signaled by different stimuli. Responding and drug intake were compared under three FR values (FR 1, FR 3, and FR 5) and three cocaine doses (0.2, 0.4, and 0.8 mg/kg). A similar Go/No-go procedure was used with food reinforcement and the same three FR conditions. During the Go components for intravenous cocaine, female rats self-administered more infusions at the 0.2 and 0.4 mg/kg doses than males, indicating a sex difference in cocaine intake. During the No-go periods under the cocaine condition, HiS rats and females responded significantly more than LoS rats and males, indicating phenotype and sex differences in impaired inhibition. During the Go components with food reward, males responded more and earned more pellets than females, but there were no phenotype or sex differences in No-go responding (impulsivity). The results indicate that HiS rats and females are more prone than LoS rats and males to impulsive drug-seeking behavior.
Research with animals and humans suggests that impulsivity is both a determinant and a consequence of drug abuse. In the present study, rats screened for high (HiI) or low (LoI) impulsivity using a delay-discounting task were compared on a Go/No-go procedure for intravenous cocaine (0.4 mg/kg) or saccharin pellets (0.1%). An additional aim was to examine the effects of previous cocaine exposure on impulsive choice. Thus, following Go/No-go testing, HiI and LoI rats were reevaluated on delay discounting. The results indicated that HiI and LoI rats did not differ in Go (reinforced) responses or in the number of reinforcements earned under the cocaine or saccharin conditions. However, LoI rats made significantly more No-go (nonreinforced) responses under the cocaine versus the saccharin condition. After the Go/No-go procedure, cocaine-exposed LoI rats were more impulsive on the delay-discounting task for food, compared to LoI rats that were naive to cocaine; however, HiI rats did not differ on this measure. These results indicate that the effects of cocaine on measures of impulsivity may be determined by a preexisting level of impulsive behavior.
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