Ventral subiculum involvement in latent inhibition context specificity.

The subiculum is the main structure linking the hippocampus with several cortical and subcortical areas. In particular, ventral subiculum might act as an interface between the hippocampus, a contextual information processor, and cortical and subcortical processing systems related to motivation, such as the ventral striatum. Electrophysiological studies have shown a relationship between ventral subiculum and ventral striatum, namely a strong influence on mesolimbic system and the activity of dopaminergic neurons in the ventral tegmental area. Dopamine activity in this system has received special attention for its role in the latent inhibition phenomenon. However, the functional relationship between mesolimbic system and this behavioral process remains unclear. Two experiments were performed to analyze the role of ventral subiculum on latent inhibition. The results showed that ventral subiculum is involved in contextual processing that modulates the expression of latent inhibition. These findings are consistent with electrophysiological studies revealing the ventral subiculum as a structure modulating the mesolimbic DA system and DA release in the nucleus accumbens.

Latent inhibition as a function of schizotypality and gender: implications for schizophrenia.

In three within-subject experiments, we demonstrated that preexposure to an irrelevant stimulus interfered with performance when that stimulus subsequently predicted the correct location of a target stimulus. This latent inhibition-like effect (LI) was manifest in response time measures, but not errors. As with other related paradigms, LI was a function of an interaction between schizotypy-level and gender. Low schizotypal females and high schizotypal males exhibited significant LI, while high schizotypal females and low schizotypal males failed to produce LI effects. The results, similar to findings with schizophrenic patients, suggest a sexual dimorphism of cognitive dysfunction in schizophrenia, particularly in regard to the processing of irrelevant stimuli.