Operant self-administration of pregabalin in a mouse model of neuropathic pain.

BACKGROUND: Pregabalin is a first-line agent for neuropathic pain treatment whose abuse liability remains controversial. Surprisingly, studies exploring the reinforcing properties of pregabalin in operant mouse models are missing. METHODS: We evaluated the acquisition of operant pregabalin self-administration in mice exposed to a partial sciatic nerve ligation (PSNL) or a sham operation. After surgery, mice were trained in operant boxes to intravenously self-administer pregabalin at 1.5 or 3 mg/kg/inf or saline during 10 days. Thermal and mechanical sensitivity were assessed before and after self-medication, and depressive-like behaviour was evaluated after discontinuation of the treatment. RESULTS: Partial sciatic nerve ligation and sham-operated mice exposed to pregabalin at 3 mg/kg/inf showed higher active responding compared to mice exposed to saline. The differences in active responding were more robust in nerve-injured than in sham-operated mice. Self-medication at either dose of pregabalin partially inhibited thermal hypersensitivity, whereas only self-medication at 3 mg/kg/inf reduced mechanical sensitivity. Finally, a depressive-like behaviour was revealed after saline treatment in nerve-injured mice, and this emotional manifestation was abolished after pregabalin treatment at the high dose. CONCLUSIONS: Pregabalin showed reinforcing effects both in PSNL and sham-operated mice and attenuated the nociceptive and emotional manifestations of neuropathic pain in mice self-administering this drug. Therefore, pregabalin self-administration was related to neuropathic pain relief, but also to reinforcing properties related to psychotropic drug effects. This study reveals the improvement in nociceptive and emotional manifestations of neuropathic pain after operant pregabalin self-medication in mice and suggests the reinforcing effects of this drug in an operant paradigm. SIGNIFICANCE: This study shows that mice with a nerve injury self-administer pregabalin at doses effective reducing nociceptive hypersensitivity and depressive-like behaviour associated with the neuropathic pain model. Interestingly, mice without neuropathy also develop operant self-administration behaviour, suggesting potential abuse liability of this first-line drug for neuropathic pain treatment.

Beware of your Cre-Ation: lacZ expression impairs neuronal integrity and hippocampus-dependent memory.

Expression of the lacZ-sequence is a widely used reporter-tool to assess the transgenic and/or transfection efficacy of a target gene in mice. Once activated, lacZ is permanently expressed. However, protein accumulation is one of the hallmarks of neurodegenerative diseases. Furthermore, the protein product of the bacterial lacZ gene is ß-galactosidase, an analog to the mammalian senescence-associated ß-galactosidase, a molecular marker for aging. Therefore we studied the behavioral, structural and molecular consequences of lacZ expression in distinct neuronal sub-populations. lacZ expression in cortical glutamatergic neurons resulted in severe impairments in hippocampus-dependent memory accompanied by marked structural alterations throughout the CNS. In contrast, GFP expression or the expression of the ChR2/YFP fusion product in the same cell populations did not result in either cognitive or structural deficits. GABAergic lacZ expression caused significantly decreased hyper-arousal and mild cognitive deficits. Attenuated structural and behavioral consequences of lacZ expression could also be induced in adulthood, and lacZ transfection in neuronal cell cultures significantly decreased their viability. Our findings provide a strong caveat against the use of lacZ reporter mice for phenotyping studies and point to a particular sensitivity of the hippocampus formation to detrimental consequences of lacZ expression. © 2016 Wiley Periodicals, Inc.

Paclitaxel-induced neuropathic pain is age dependent and devolves on glial response.

BACKGROUND: Paclitaxel is an antimitotic antitumour drug highly effective against a broad range of cancers considered refractory to conventional chemotherapy. One of the main serious side effects of paclitaxel treatment is the induction of peripheral neuropathic pain that often diminishes the patient's quality of life. In this study, we evaluated the severity of the neuropathy induced by paclitaxel and the inflammatory reaction in the dorsal horn of the spinal cord in young, adult and aged male CD1 mice. METHOD: Hyperalgesia to noxious thermal stimulus and allodynia to non-noxious mechanical stimulus were evaluated using the plantar test and the von Frey filament model, respectively. Spinal cord microglia and astrocytes expression was assessed using Iba1 and glial fibrillary acidic protein immunofluorescence staining, respectively. RESULTS: All groups of mice showed a higher nociceptive reaction to thermal noxious (hyperalgesia) and mechanical non-noxious (allodynia) stimuli after paclitaxel treatment. However, these signs of neuropathy were enhanced in young mice followed by aged animals. Additionally, paclitaxel evoked a marked microglial and astrocytic response in the spinal cord of young and aged mice, whereas this enhanced reactivity was less important in adult mice. Indeed, the most severe glial activation observed in juvenile animals correlated well with major signs of neuropathy in this group of age. CONCLUSION: Our results demonstrate that paclitaxel-induced neuropathy in mice is an age-dependent phenomenon whose severity devolves on glial response.

Genetic and pharmacological approaches to evaluate the interaction between the cannabinoid and cholinergic systems in cognitive processes.

BACKGROUND AND PURPOSE: The objective of this study was to investigate the possible interactions between the cannabinoid and cholinergic systems in memory and learning processes by using genetic and pharmacological approaches in two different behavioural models, the active avoidance and the object recognition test. EXPERIMENTAL APPROACH: The effects induced by nicotine, physostigmine and scopolamine were studied in CB(1) receptor knockout and wild-type mice in the active avoidance paradigm. In addition, the effects of pretreatment with the CB(1) receptor antagonist rimonabant were evaluated on the responses induced by nicotine in the active avoidance and the object recognition tasks in wild-type mice. KEY RESULTS: Nicotine (0.5 mg kg(-1) s.c.) did not modify the performance of CB(1) knockout and wild-type mice in this model, whereas scopolamine (0.5 mgkg(-1) i.p.) impaired the performance in both genotypes. Physostigmine (0.1 mg kg(-1) i.p.) increased the active avoidance performance in wild-type but not in CB(1) knockout mice. Rimonabant (0.3, 1, 3, and 10 mg kg(-1)) did not modify the performance in the active avoidance test, given alone or co-administered with nicotine. In contrast, nicotine enhanced the performance in the object recognition task but this response was attenuated by rimonabant co-administration. CONCLUSIONS AND IMPLICATIONS: The present findings revealed that the cognitive effects of nicotine and physostigmine were attenuated in the absence of CB(1) receptor activity. Scopolamine effects were independent from CB(1) receptors.