Although the process of extinction has been well documented for various forms of behavioral responses, the effects of extinction on the reinstatement of drug seeking behavior are relatively understudied. In this report, the effectiveness of an extinction training protocol to reduce primed reinstatement responses was compared with the effectiveness of an equivalent period of enforced abstinence. We found that extinction training performed in the drug taking environment significantly reduced reinstatement behavior subsequently primed by either contextual cues, conditioned cues, or cocaine infusion. The ability of extinction to reduce cocaine primed reinstatement was blocked by the systemic administration of the competitive NMDAR antagonist ((±)CPP, 5 mg/kg i.p.) administered prior to each extinction training session. Interestingly, this pharmacological intervention had no impact on the effectiveness of extinction to reduce drug-seeking behavior primed by either contextual cues or conditioned cues. These results suggest that an extinction training experience involves multiple mechanisms that can be dissociated into nonNMDAR and NMDAR dependent components with respect to the type of reinstatement (i.e. context-, CS-, or drug-induced) being assessed.
Male Sprague Dawley rats were allowed to self-administer cocaine (0.5mg/kg) during 90 minute sessions for a period of 15 days. On day 16, rats were either held abstinent in their home cage environment or experienced an extinction session in which the active lever had no programmed consequences. Facilitating N-methyl-d-aspartate (NMDA) receptor activity with the coagonist Dserine (100 mg/kg i.p.) before or following the extinction session significantly reduced the subsequent cocaine-primed reinstatement of drug-seeking behavior tested on day 17. D-serine significantly reduced drug-primed reinstatement only when combined with extinction, and its effectiveness when administered following the training session suggested that an enhancement of consolidation of extinction learning had occurred. In contrast, D-serine treatment did not reduce sucrose-primed reinstatement, indicating that the beneficial effects of this adjunct pharmacotherapy with extinction training were specific to an addictive substance (cocaine) and did not generalize to a natural reward (sucrose).
Although previous studies have identified several strategies to stimulate regeneration of CNS axons, extensive regeneration and functional recovery have remained a major challenge, particularly for large diameter myelinated axons. Within the CNS, myelin is thought to inhibit axon regeneration, while modulating activity of the mTOR pathway promotes regeneration of injured axons. In this study, we examined NT-3 mediated regeneration of sensory axons through the dorsal root entry zone in a triple knockout of myelin inhibitory proteins or after activation of mTOR using a constitutively active (ca) Rheb in DRG neurons to determine the influence of environmental inhibitory or activation of intrinsic growth pathways could enhance NT-3-mediate regeneration. Loss of myelin inhibitory proteins showed modest enhancement of sensory axon regeneration. In mTOR studies, we found a dramatic age related decrease in the mTOR activation as determined by phosphorylation of the downstream marker S6 ribosomal subunit. Expression of caRheb within adult DRG neurons in vitro increased S6 phosphorylation and doubled the overall length of neurite outgrowth, which was reversed in the presence of rapamycin. In adult female rats, combined expression of caRheb in DRG neurons and NT-3 within the spinal cord increased regeneration of sensory axons almost 3 fold when compared to NT-3 alone. Proprioceptive assessment using a grid runway indicates functionally significant regeneration of large-diameter myelinated sensory afferents. Our results indicate that caRheb-induced increase in mTOR activation enhances neurotrophin-3 induced regeneration of large-diameter myelinated axons.
The most intractable feature of drug addiction is the high rate of relapse, even following extended periods of abstinence from drug-taking. Evidence suggests that allowing rats extended access to cocaine self-administration leads to behavioral characteristics in these animals that are consistent with the development of addiction in humans. In the current study, rats were allowed to selfadminister cocaine over a total of 22 daily sessions, the final 7 of which were long-access (LgA) sessions of 6 hours duration. Assessments of reinstatement of drug-seeking behavior were made following reintroduction to the drug-taking environment and noncontingent priming with either CS or cocaine in both extinguished and abstinent subject groups. Three separate groups of rats were treated with either saline or D-serine (100mg/kg i.p.) administered 2 hrs prior to, or immediately following, each extinction training session. Saline-treated LgA rats were resistant to the effects of extinction training to reduce noncontingent priming of reinstatement of drug-seeking behavior with either CS or cocaine. In contrast, treatment with D-serine either before or immediately following the sessions resulted in a significant enhancement in the ability of extinction training to reduce cocaine-primed reinstatement of drug-seeking behavior. These results suggest that D-serine can act to enhance the consolidation of extinction learning in LgA rats, and is therefore a promising adjunctive agent along with behavioral therapy for the treatment of cocaine addiction.The development of an effective treatment regimen for the state of addiction to psychostimulants such as cocaine and amphetamines has proved to be problematic, and currently there is no FDA approved treatment for this condition. A prominent feature of addiction is the propensity for relapse, and craving is thought to be a contributing factor for this component of the disease (Jaffe et al., 1989;Ehrman et al., 1992). One therapeutic approach showing efficacy involves behavioral therapy, including the attempt to restructure past experiences and learn new behaviors that would decrease the frequency and/or severity of relapse in individuals attempting to remain abstinent (Dutra et al., 2008;Waldron and Turner, 2008). Enhancing the effectiveness of such psychosocial treatments through the use of adjunctive pharmacotherapy such as cognitive enhancement is therefore a reasonable
Neurotrophins represent some of the best candidates to enhance regeneration. In the current study, we investigated the effects of artemin, a member of the glial derived neurotrophic factor (GDNF) family, on sensory axon regeneration following a lumbar dorsal root injury and compared these effects with that observed after either NGF or GDNF expression in the rat spinal cord. Unlike previously published data, artemin failed to induce regeneration of large-diameter myelinated sensory afferents when expressed within either the spinal cord or DRG. However, artemin or NGF induced regeneration of calcitonin gene related peptide positive (CGRP+) axons only when expressed within the spinal cord. Accordingly, artemin or NGF enhanced recovery of only nociceptive behavior and showed a cFos distribution similar to the topography of regenerating axons. Artemin and GDNF signaling requires binding to different co-receptors (GFRα3 or GFRα1, respectively) prior to binding to the signaling receptor, cRet. Approximately 70% of DRG neurons express cRet, but only 35% express either co-receptor. To enhance artemin-induced regeneration, we co-expressed artemin with either GFRα3 or GDNF. Co-expression of artemin and GFRα3 only slightly enhanced regeneration of IB4+ non-peptidergic nociceptive axons, but not myelinated axons. Interestingly, this co-expression also disrupted the ability of artemin to produce topographic targeting and lead to significant increases in cFos immunoreactivity within the deep dorsal laminae. This study failed to demonstrate artemin-induced regeneration of myelinated axons, even with co-expression of GFR-α3, which only promoted mistargeted regeneration.
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