MK-7128, a novel CB1 receptor inverse agonist, improves scopolamine-induced learning and memory deficits in mice.

Cannabinoid receptors (CBRs) play an important role in a variety of physiological functions and have been considered drug targets for obesity and psychiatric disorders. In particular, the CB1R is highly expressed in brain regions crucial to learning and memory processes, and several lines of evidence indicate that pharmacological blockade of this receptor could have therapeutic applications in the treatment of cognitive disorders. In this study, we investigated whether MK-7128 (0.1, 0.3, and 1 mg/kg, orally), a novel and selective CB1R inverse agonist, could improve learning and memory deficits induced by scopolamine (1 mg/kg, subcutaneously) in mice. The investigators also assessed CB1R occupancy in the brain to ensure target engagement of MK-7128, and showed that MK-7128 significantly improved both Y-maze spontaneous alternation and object habituation performance in scopolamine-treated mice and inhibits the binding of radioiodinated AM251 in murine cortex and hippocampus. These data indicate that MK-7128 improves cognitive performance in a model of cholinergic hypofunction and suggest that efficacy is achieved at relatively low levels of CB1R occupancy in the brain. Our results extend earlier findings suggesting a role of CB1Rs in the modulation of memory processes and a potential therapeutic application for CB1R inverse agonists in cognitive disorders.

Prefrontal cortex lesions and scopolamine impair attention performance of C57BL/6 mice in a novel 2-choice visual discrimination task.

Sustained attention is defined as the ability or capacity to remain focused on the occurrence of rare events over long periods of time. We describe here the development of a novel, operant-based attention task that can be learned by mice in 8-10 days. Mice were trained on a 2-choice visual discrimination task in an operant chamber, wherein the correct response on any given trial was a lever-press cued by a stimulus light. Upon reaching a criterion of greater than 80% correct responses, all subjects were tested in a mixed-trial attention paradigm combining four different stimulus durations within a single session (0.5, 1, 2, or 10 s). During attention testing, the percentage of correct responses decreased as a function of stimulus duration, indicating a performance decrement which parallels increasing attentional demand within the task. Pretreatment with the muscarinic-receptor antagonist scopolamine yielded a reliable, dose-dependent performance deficit whereas nicotine treatment improved the percentage of correct responses during trials with the greatest attentional demand. Moreover, medial prefrontal cortex lesions impaired attention performance without affecting acquisition or retention of the discrimination rule. These results underscore the utility of this task as a novel means of assessing attentional processes in mice in a relatively high-throughput manner.