LTP in cingulate cortex of freely moving rats: duration and mGluR independence

The organization of specific cortical connections can be altered by sensory and motor experience. These changes are believed to result from activity-dependent changes in synaptic connectivity, similar to those induced in the hippocampus by high-frequency stimulation in long-term potentiation (LTP) e

## Abstract Performance in hippocampus‐dependent and other tasks can be improved by exposure to an enriched environment (EE), but the physiological changes in neural function that may mediate these effects are poorly understood. To date, there have been conflicting reports regarding potential mecha

## Abstract Because long‐term potentiation (LTP) and long‐term depression (LTD) are thought to be involved in learning and memory, it is important to delineate factors that modulate their induction and persistence, especially as studied in freely moving animals. Here, we investigated the effects of

## Abstract We have characterized the various phosphodiesterases (PDE) that degrade cyclic GMP in the prefrontal cortex, hippocampus, and cerebellum using the microdialysis technique to measure in vivo extracellular cyclic GMP in awake rats. The following PDE blockers were used (100 and 1,000 μM):

## Abstract We used intracerebral microdialysis coupled with electrophysiologic recordings to determine relative changes in the concentrations of several neurotransmitters in the medial prefrontal cortex and nucleus accumbens of freely moving rats during waking, slow‐wave sleep, and rapid eye movem