Abstract
Neuropeptides within the central nucleus of the amygdala (CeA) potently modulate neuronal excitability and have been shown to regulate conditioned threat discrimination and anxiety. Here, we investigated the role of κ opioid receptor (KOR) and its endogenous ligand dynorphin in the CeA for regulation of conditioned threat discrimination and anxiety-like behavior in mice. We demonstrate that reduced KOR expression through genetic inactivation of the KOR encoding gene, Oprk1, in the CeA results in increased anxiety-like behavior and impaired conditioned threat discrimination. In contrast, reduction of dynorphin through genetic inactivation of the dynorphin encoding gene, Pdyn, in the CeA has no effect on anxiety or conditioned threat discrimination. However, inactivation of Pdyn from multiple sources, intrinsic and extrinsic to the CeA phenocopies Oprk1 inactivation. These findings suggest that dynorphin inputs to the CeA signal through KOR to promote threat discrimination and dampen anxiety.
Highlights
Anxiety-related disorders, including phobias, obsessive compulsive disorders, generalized anxiety, and posttraumatic stress disorder (PTSD) display heterogeneous symptoms
To determine whether k opioid receptor (KOR) signaling in the central nucleus of the amygdala (CeA) regulates anxiety-like behavior and conditioned threat discrimination, we inactivated Oprk1 by injecting Oprk1lox/lox mice with AAV1-Cre-EGFP bilaterally into the CeA (Fig. 1D)
This resulted in a significant reduction in Oprk1 mRNA levels across the entire rostral to caudal CeA (Fig. 1E,F), the effect was modest given the stringent criterion for inclusion
Summary
Anxiety-related disorders, including phobias, obsessive compulsive disorders, generalized anxiety, and posttraumatic stress disorder (PTSD) display heterogeneous symptoms Many of these disorders are based in aberrant information processing of fear-inducing stimuli, resulting in inappropriate responses to perceived threats as well as the sustained state of apprehension known as anxiety (Davis et al, 2010). January/February 2021, 8(1) ENEURO.0370-20.2020 1–11 generalized threat responding is often maladaptive and is a hallmark of many fear-related disorders (Dunsmoor and Paz, 2015). In experimental systems, such as rodents, conditioned threat discrimination is assessed by pairing an unconditioned stimulus (US) with a conditioned stimulus (CS1). Comparing conditioned responses evoked by the CS1 with responses evoked by an unpaired stimulus (CS–) provides a metric of threat discrimination (Zweifel, 2019)
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