Abnormal wiring of CCK+ basket cells disrupts spatial information coding

The function of cortical GABAergic interneurons is largely determined by their integration into specific neural circuits, but the mechanisms controlling the wiring of these cells remain largely unknown. This is particularly true for a major population of basket cells that express the neuropeptide cholecystokinin (CCK). Here we found that the tyrosine kinase receptor ErbB4 was required for the normal integration into cortical circuits of basket cells expressing CCK and vesicular glutamate transporter 3 (VGlut3). The number of inhibitory synapses made by CCK+VGlut3+ basket cells and the inhibitory drive they exerted on pyramidal cells were reduced in conditional mice lacking ErbB4. Developmental disruption of the connectivity of these cells diminished the power of theta oscillations during exploratory behavior, disrupted spatial coding by place cells, and caused selective alterations in spatial learning and memory in adult mice. These results suggest that normal integration of CCK+ basket cells in cortical networks is key to support spatial coding in the hippocampus

Feeding mice with diets containing mercury-contaminated fish flesh from French Guiana: a model for the mercurial intoxication of the Wayana Amerindians

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Advancing schizophrenia drug discovery : optimizing rodent models to bridge the translational gap

Although our knowledge of the pathophysiology of schizophrenia has increased, treatments for this devastating illness remain inadequate. Here, we critically assess rodent models and behavioural end points used in schizophrenia drug discovery and discuss why these have not led to improved treatments. We provide a perspective on how new models, based on recent advances in the understanding of the genetics and neural circuitry underlying schizophrenia, can bridge the translational gap and lead to the development of more effective drugs. We conclude that previous serendipitous approaches should be replaced with rational strategies for drug discovery in integrated preclinical and clinical programmes. Validation of drug targets in disease-based models that are integrated with translationally relevant end point assessments will reduce the current attrition rate in schizophrenia drug discovery and ultimately lead to therapies that tackle the disease process

The effects of cytotoxic entorhinal lesions and electrolytic medial septal lesions on the acquisition and retention of a spatial working memory task.

Rats with lesions either of medial septal nucleus (MSN) or the entorhinal cortex (ECx) were compared postoperatively with unoperated controls in a discrete-trial, delayed matching-to-position (DMTP) task, conducted on an elevated T-maze. A DMTP trial consisted of two consecutive visits to the maze: an information run and a choice run. The animals were first forced to visit a randomly selected choice arm in the information run. In the choice run, the correct response was to match the choice arm that had been visited on the information run, regardless of whether the information run itself had been rewarded or not. MSN animals failed to succeed in this task, performing at close to chance level throughout training. On the other hand, ECx rats consistently perform at a level comparable with that of unoperated controls; both groups attained more than 90% correct after 192 trials. Long-term retention testing was carried out after an intermission of 4 weeks, when the same task was re-administered to the ECx and unoperated control animals. ECx animals showed significantly less saving than controls in the retention test. In contrast, when the retention interval within a DMTP trial was increased by the imposition of a 20-s delay between the information and choice runs, the ECx group was not selectively affected by this manipulation

Cytosolic hippocampal PKC and aging: Correlation with discrimination performance

Adult and aged mice were submitted to a discrimination task in a radial maze (regular trials), and then to probe trials requiring them to form relational representations. Three weeks later, animals were again tested for regular and probe trials. Following another interval of 3 weeks, individual hippocampal cytosolic calcium-dependent and -independent PKC activities were measured. Performance of aged animals was impaired on probe but not regular trials and aged mice had lower hippocampal cytosolic calcium-dependent and - independent PKC activities than adults. Performance on probe trials was specifically correlated with calcium-dependent PKC activity. This suggests a specific relationship between the ability to form relational representations and hippocampal cytosolic calcium-dependent PKC activity

Knowing which and knowing what: a potential mouse model for age-related human declarative memory decline.

The present study was built on the original report of Eichenbaum et al. [Eichenbaum, H., Fagan, A., Mathews, P. and Cohen, N.J. (1988), Behav. Neurosci., 102, 3531-3542] on the contrasting effects of fornix lesion in different versions of an odour-guided discrimination task in rats, and attempted to extend this into a mouse model for the preferential loss of declarative memory seen in human senescence. Each of the two experiments reported here consisted of a two-stage paradigm, with an initial learning phase followed by a test phase. The information acquired in the first stage was identical in both experiments, i.e. the valence or reward contingency associated with six (three positive and three negative) arms of a radial maze. The only parameter which was varied between Experiment A and B, and also between the two successive stages within each experiment, was the way of presenting the arms to the mice, i.e. either in pairs (simultaneous discriminations) or one at a time (successive go : no-go discrimination). Performance in the first stage demonstrated that our aged mice were impaired in learning concurrent simultaneous discriminations but not successive go/no-go discrimination, thereby resembling that reported in rats with hippocampal damage. Most importantly, our present set of data supports the conclusion that two forms of memory expression for the same piece of acquired experience can be assessed in the same subjects by manipulating the way of presenting two arms that were previously experienced separately. These two forms of memory expressions are differentially affected in aged mice, thereby demonstrating the highly selective and specific deleterious effect of ageing

Cytosolic hippocampal PKC and aging: Correlation with discrimination performance

Adult and aged mice were submitted to a discrimination task in a radial maze (regular trials), and then to probe trials requiring them to form relational representations. Three weeks later, animals were again tested for regular and probe trials. Following another interval of 3 weeks, individual hippocampal cytosolic calcium-dependent and -independent PKC activities were measured. Performance of aged animals was impaired on probe but not regular trials and aged mice had lower hippocampal cytosolic calcium-dependent and - independent PKC activities than adults. Performance on probe trials was specifically correlated with calcium-dependent PKC activity. This suggests a specific relationship between the ability to form relational representations and hippocampal cytosolic calcium-dependent PKC activity

Glucocorticoids can induce PTSD-like memory impairments in mice

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