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Project 2: Physiological Actions of Novel Antidepressants/Anxiolytics in the Basa

$184,460U19FY2009MHNIH

Emory University, Atlanta GA

Investigators

Linked publications & trials

Abstract

Activation of the basolateral amygdala (BLA) plays a critical role in the normal adaptive response to negative emotional stimuli. Abnormal activity of BLA output neurons has been implicated in the etiology of several mood disorders. For example, depressed and anxious individuals show exaggerated amygdala activation in response to negative emotional stimuli, which is now recognized as a trait marker for mood disorders. Hyperactivation is also a predictor of positive treatment outcome as it normalizes with the onset of therapeutic action of drug treatment, suggesting that the amygdala is a key component of a mood-regulatory system that is dysregulated in anxiety and depression. Selective serotonin reuptake inhibitors (SSRIs) are a first-line treatment for many mood disorders, and the amygdala has a high density of SSRI binding sites. Significantly, negative emotional stimuli trigger serotonin (5HT) release into the BLA where it acts to decrease the excitability of BLA output neurons. Moreover, 5HT levels in the BLA are finely regulated by the activity of 5HT transporter proteins, suggesting that SSRIs may exert their therapeutic effects by raising BLA 5HT levels and thus normalizing the activity of its output neurons. However, the slow onset of action of SSRIs and their unwanted side effects are driving the search for faster acting, and more targeted treatments for anxiety and depression. Recently, a novel antidepressant agent has been identified, GSK-1, which is a mixed SHTwiB/iD receptor antagonist that has a rapid onset of action. Multiple serotonin receptor subtypes are expressed in the BLA. Hence, drugs acting at one or more 5HT receptors could have a profound impact on the excitability of BLA output neurons, and hence mood disorders. However, little is known about how individual serotonin receptor activation may modulate the activity of BLA output neurons, let alone how mixed 5HT receptor antagonists may affect these neurons. In this study, we will use patch clamp recording in an in vitro slice preparation to compare the response of BLA neurons to administration of a classic SSRI, citalopram, with that of GSK-1 before, during, and after a challenge with exogenous 5HT. The hypothesis to be tested is that: acute administration of GSK-1 will mimic the net effect of chronic administration of SSRIs on the activity of BLA output neurons. Three specific aims will test this hypothesis: Aim 1: Compare and contrast the effects of acute in vitro administration of GSK-1 on serotonin receptor-mediated activity in BLA projection neurons and interneurons. Aim 2: Compare and contrast the effects of in vivo administration of GSK-1 on serotonin receptor-mediated activity in BLA projection neurons and interneurons. Aim 3: Compare and contrast the effects of GSK-1 and citalopram on serotonin receptor-mediated activity in BLA projection neurons and interneurons following sustained fear conditioning.

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