Sangyu Xu scite author profile

The basolateral amygdala (BLA) is a site of convergence of negative and positive stimuli, and is critical for emotional behaviors and associations. However, the neural substrate for negative and positive behaviors and relationship between negative and positive representations in the basolateral amygdala is unknown. Here, we identified two genetically distinct, spatially segregated populations of excitatory neurons in the basolateral amygdala (BLA) that participate in valence-specific behaviors and are connected through mutual inhibition. These results identify a genetically-defined neural circuit for the antagonistic control of emotional behaviors and memories.

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Differential attentional control mechanisms by two distinct noradrenergic coeruleo-frontal cortical pathways

Bari

Pignatelli

et al. 2020

Proc. Natl. Acad. Sci. U.S.A.

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The attentional control of behavior is a higher-order cognitive function that operates through attention and response inhibition. The locus coeruleus (LC), the main source of norepinephrine in the brain, is considered to be involved in attentional control by modulating the neuronal activity of the prefrontal cortex (PFC). However, evidence for the causal role of LC activity in attentional control remains elusive. Here, by using behavioral and optogenetic techniques, we investigate the effect of LC neuron activation or inhibition in operant tests measuring attention and response inhibition (i.e., a measure of impulsive behavior). We show that LC neuron stimulation increases goal-directed attention and decreases impulsivity, while its suppression exacerbates distractibility and increases impulsive responding. Remarkably, we found that attention and response inhibition are under the control of two divergent projections emanating from the LC: one to the dorso-medial PFC and the other to the ventro-lateral orbitofrontal cortex, respectively. These findings are especially relevant for those pathological conditions characterized by attention deficits and elevated impulsivity.

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Dorsal Raphe Serotonergic Neurons Control Intertemporal Choice under Trade-off

Das

Hueske

et al. 2017

Current Biology

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Appropriate choice about delayed reward is fundamental to the survival of animals. Although animals tend to prefer immediate reward, delaying gratification is often advantageous. The dorsal raphe (DR) serotonergic neurons have long been implicated in the processing of delayed reward, but it has been unclear whether or when their activity causally directs choice. Here, we transiently augmented or reduced the activity of DR serotonergic neurons, while mice decided between differently delayed rewards as they performed a novel odor-guided intertemporal choice task. We found that these manipulations, precisely targeted at the decision point, were sufficient to bidirectionally influence impulsive choice. The manipulation specifically affected choices with more difficult trade-off. Similar effects were observed when we manipulated the serotonergic projections to the nucleus accumbens (NAc). We propose that DR serotonergic neurons preempt reward delays at the decision point and play a critical role in suppressing impulsive choice by regulating decision trade-off.

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Sangyu Xu

Antagonistic negative and positive neurons of the basolateral amygdala

Differential attentional control mechanisms by two distinct noradrenergic coeruleo-frontal cortical pathways

Dorsal Raphe Serotonergic Neurons Control Intertemporal Choice under Trade-off

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