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Prefrontal Cortical Circuit for Depression- and Anxiety-Related Behaviors Mediated by Cholecystokinin: Role of ΔFosB

Vialou, Vincent ; Bagot, Rosemary C. ; Cahill, Michael E. ; [et al.]

Society for Neuroscience ; 2014

In: The Journal of Neuroscience Vol. 34, No. 11 ( 2014-03-12), p. 3878-3887

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In: The Journal of Neuroscience, Society for Neuroscience, Vol. 34, No. 11 ( 2014-03-12), p. 3878-3887

Abstract: Decreased medial prefrontal cortex (mPFC) neuronal activity is associated with social defeat-induced depression- and anxiety-like behaviors in mice. However, the molecular mechanisms underlying the decreased mPFC activity and its prodepressant role remain unknown. We show here that induction of the transcription factor ΔFosB in mPFC, specifically in the prelimbic (PrL) area, mediates susceptibility to stress. ΔFosB induction in PrL occurred selectively in susceptible mice after chronic social defeat stress, and overexpression of ΔFosB in this region, but not in the nearby infralimbic (IL) area, enhanced stress susceptibility. ΔFosB produced these effects partly through induction of the cholecystokinin (CCK)-B receptor: CCKB blockade in mPFC induces a resilient phenotype, whereas CCK administration into mPFC mimics the anxiogenic- and depressant-like effects of social stress. We previously found that optogenetic stimulation of mPFC neurons in susceptible mice reverses several behavioral abnormalities seen after chronic social defeat stress. Therefore, we hypothesized that optogenetic stimulation of cortical projections would rescue the pathological effects of CCK in mPFC. After CCK infusion in mPFC, we optogenetically stimulated mPFC projections to basolateral amygdala or nucleus accumbens, two subcortical structures involved in mood regulation. Stimulation of corticoamygdala projections blocked the anxiogenic effect of CCK, although no effect was observed on other symptoms of social defeat. Conversely, stimulation of corticoaccumbens projections reversed CCK-induced social avoidance and sucrose preference deficits but not anxiogenic-like effects. Together, these results indicate that social stress-induced behavioral deficits are mediated partly by molecular adaptations in mPFC involving ΔFosB and CCK through cortical projections to distinct subcortical targets.

Type of Medium: Online Resource

ISSN: 0270-6474 , 1529-2401

URL: Article

DOI: 10.1523/JNEUROSCI.1787-13.2014

Language: English

Publisher: Society for Neuroscience

Publication Date: 2014

detail.hit.zdb_id: 1475274-8

SSG: 12

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IκB Kinase Regulates Social Defeat Stress-Induced Synaptic and Behavioral Plasticity

Christoffel, Daniel J. ; Golden, Sam A. ; Dumitriu, Dani ; [et al.]

Society for Neuroscience ; 2011

In: The Journal of Neuroscience Vol. 31, No. 1 ( 2011-01-05), p. 314-321

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In: The Journal of Neuroscience, Society for Neuroscience, Vol. 31, No. 1 ( 2011-01-05), p. 314-321

Abstract: The neurobiological underpinnings of mood and anxiety disorders have been linked to the nucleus accumbens (NAc), a region important in processing the rewarding and emotional salience of stimuli. Using chronic social defeat stress, an animal model of mood and anxiety disorders, we investigated whether alterations in synaptic plasticity are responsible for the long-lasting behavioral symptoms induced by this form of stress. We hypothesized that chronic social defeat stress alters synaptic strength or connectivity of medium spiny neurons (MSNs) in the NAc to induce social avoidance. To test this, we analyzed the synaptic profile of MSNs via confocal imaging of Lucifer-yellow-filled cells, ultrastructural analysis of the postsynaptic density, and electrophysiological recordings of miniature EPSCs (mEPSCs) in mice after social defeat. We found that NAc MSNs have more stubby spine structures with smaller postsynaptic densities and an increase in the frequency of mEPSCs after social defeat. In parallel to these structural changes, we observed significant increases in IκB kinase (IKK) in the NAc after social defeat, a molecular pathway that has been shown to regulate neuronal morphology. Indeed, we find using viral-mediated gene transfer of dominant-negative and constitutively active IKK mutants that activation of IKK signaling pathways during social defeat is both necessary and sufficient to induce synaptic alterations and behavioral effects of the stress. These studies establish a causal role for IKK in regulating stress-induced adaptive plasticity and may present a novel target for drug development in the treatment of mood and anxiety disorders in humans.

Type of Medium: Online Resource

ISSN: 0270-6474 , 1529-2401

URL: Article

DOI: 10.1523/JNEUROSCI.4763-10.2011

Language: English

Publisher: Society for Neuroscience

Publication Date: 2011

detail.hit.zdb_id: 1475274-8

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Attention Deficit/Hyperactivity Disorder-Derived Coding Variation in the Dopamine Transporter Disrupts Microdomain Targeting and Trafficking Regulation

Sakrikar, Dhananjay ; Mazei-Robison, Michelle S. ; Mergy, Marc A. ; [et al.]

Society for Neuroscience ; 2012

In: The Journal of Neuroscience Vol. 32, No. 16 ( 2012-04-18), p. 5385-5397

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In: The Journal of Neuroscience, Society for Neuroscience, Vol. 32, No. 16 ( 2012-04-18), p. 5385-5397

Abstract: Attention deficit/hyperactivity disorder (ADHD) is the most commonly diagnosed disorder of school-age children. Although genetic and brain-imaging studies suggest a contribution of altered dopamine (DA) signaling in ADHD, evidence of signaling perturbations contributing to risk is largely circumstantial. The presynaptic, cocaine- and amphetamine (AMPH)-sensitive DA transporter (DAT) constrains DA availability at presynaptic and postsynaptic receptors following vesicular release and is targeted by the most commonly prescribed ADHD therapeutics. Using polymorphism discovery approaches with an ADHD cohort, we identified a hDAT (human DAT) coding variant, R615C, located in the distal C terminus of the transporter, a region previously implicated in constitutive and regulated transporter trafficking. Here, we demonstrate that, whereas wild-type DAT proteins traffic in a highly regulated manner, DAT 615C proteins recycle constitutively and demonstrate insensitivity to the endocytic effects of AMPH and PKC (protein kinase C) activation. The disrupted regulation of DAT 615C parallels a redistribution of the transporter variant away from GM1 ganglioside- and flotillin1-enriched membranes, and is accompanied by altered CaMKII (calcium/calmodulin-dependent protein kinase II) and flotillin-1 interactions. Using C-terminal peptides derived from wild-type DAT and the R615C variant, we establish that the DAT 615C C terminus can act dominantly to preclude AMPH regulation of wild-type DAT. Mutagenesis of DAT C-terminal sequences suggests that phosphorylation of T613 may be important in sorting DAT between constitutive and regulated pathways. Together, our studies support a coupling of DAT microdomain localization with transporter regulation and provide evidence of perturbed DAT activity and DA signaling as a risk determinant for ADHD.

Type of Medium: Online Resource

ISSN: 0270-6474 , 1529-2401

URL: Article

DOI: 10.1523/JNEUROSCI.6033-11.2012

Language: English

Publisher: Society for Neuroscience

Publication Date: 2012

detail.hit.zdb_id: 1475274-8

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