Wilson, Donald A.,Best, Aaron Robert.2013-08-162013-08-162004http://hdl.handle.net/11244/779The onset, time course, and extent of LOT synaptic depression during both in vitro electrical and in vivo odorant stimulation methods were similar. Similar to the odor specificity of cortical odor adaptation in vivo, there was no evidence of heterosynaptic depression between independent inputs in vitro. In vitro evidence suggests at least two mechanisms contribute to this activity-dependent synaptic depression: a rapidly recovering presynaptic depression during the initial 10--20 sec of the post-train recovery period and a longer lasting (120 sec) depression that can be blocked by the metabotropic glutamate receptor (mGluR) II/III antagonist (RS)-alpha-cyclopropyl-4-phosphonophenylglycine (CPPG) and by the beta-adrenergic receptor agonist isoproterenol. Importantly, in line with the in vitro findings, both adaptation of odor responses in the 15--35 Hz spectral range and the associated synaptic depression can also be blocked by intracortical infusion of CPPG in vivo. Additionally, blockade of group II/III mGluR activation in aPCX prevents habituation of the odor-evoked heart rate orienting response behavior in awake behaving rats.Short-term behavioral habituation is the response decrement observed in many behaviors that occurs during repeated presentation of non-reinforced stimuli. Within a number of invertebrate models of short-term behavioral habituation, depression of a defined synapse has been implicated as the mechanism. However, the synaptic mechanisms of short-term behavioral habituation have not been identified within mammals.Anterior piriform cortex (aPCX) neurons rapidly filter repetitive odor stimuli despite relatively maintained input from mitral/tufted cells. This cortical adaptation is correlated with short-term depression of afferent synapses, in vivo. The purpose of this study was to elucidate mechanisms underlying this non-associative neural plasticity using in vivo and in vitro preparations, determine its role in cortical odor adaptation and ultimately look at its relation to behavioral odor habituation. Lateral olfactory tract (LOT)-evoked responses were recorded in rat aPCX coronal slices. Extracellular and intracellular potentials were recorded before and after simulated odor stimulation of the LOT. Results were compared with in vivo intracellular recordings from aPCX layer II/III neurons and field recordings in urethane-anesthetized rats stimulated with odorants.v, 132 leaves :Habituation (Neuropsychology)Synapses.Long-term synaptic depression.Smell.Biology, Neuroscience.Synaptic depression and its relation to behavioral habituation within anterior piriform cortex.Thesis