Abstract
Social anxiety disorder (SAD) is a common and serious psychiatric condition that typically emerges during adolescence and persists into adulthood if left untreated. Prevailing interventions focus on modulating threat and arousal systems but produce only modest rates of remission. This gap in efficacy suggests that most mainstream treatment concepts do not sufficiently target core processes involved in the onset and maintenance of SAD. This idea has further driven the development of new theoretical models that target dopamine (DA)-driven reward circuitry and motivational deficits that appear to be systematically altered in SAD. Most of the available data linking systemic alterations in DA neurobiology to SAD in humans, although abundant, remains at the level of correlational evidence. Accordingly, the purpose of this brief review is to critically evaluate the relevance of experimental work in rodent models that link details of DA function to symptoms of social anxiety. We conclude that, despite certain systematic limitations inherent in animal models, these approaches provide useful insights into human biomarkers of social anxiety including that (1) adolescence may serve as a critical period for the convergence of neurobiological and environmental factors that modify future expectations about social reward through experience dependent changes in DA-ergic circuitry, (2) females may show unique susceptibility to social anxiety symptoms when encountering relational instability that influences DA-related neural processes, and (3) separate from fear and arousal systems, the functional neurobiology of central DA systems contribute uniquely to susceptibility and maintenance of anhedonic factors relevant to human models of SAD.
Highlights
Social anxiety disorder (SAD) is a common and debilitating psychiatric disorder predominantly characterized by persistent fear of one or more social or performance situations (American Psychiatric Association, 2013)
Susceptible animals show reduced neuronal firing from vmPFC, and given that vmPFC-ventral tegmental area (VTA) projections are important in the fine tuning of DA activity coming from VTA to nucleus accumbens (NAc), this suggests an important role in this circuit for maintaining goal-directed behavior, rather than promoting habitual responses that are driven by other limbic regions (Patton et al, 2013; Abe et al, 2019)
This review draws three broad human-relevant conclusions from experimental manipulations of the social environment in mice: (1) adolescence is likely a critical period for the convergence of neurobiological sensitivity with environmental factors to entrench future expectations about social reward through experience dependent modification of DA-ergic circuitry, (2) females may show unique susceptibility to social anxiety symptoms when encountering instability of relational social hierarchies mediated by DA-related neural processes, and (3) separate from fear and arousal systems, the functional neurobiology of central DA systems contribute uniquely to susceptibility and maintenance of anhedonic factors relevant to providing clues for human models of SAD, warranting the investigation of new treatment avenues related to the modification of these systems
Summary
Social anxiety disorder (SAD) is a common and debilitating psychiatric disorder predominantly characterized by persistent fear of one or more social or performance situations (American Psychiatric Association, 2013). Cuijpers et al, 2016), with a considerable proportion of individuals (perhaps as high as 60%; Springer et al, 2018) still reporting clinically significant symptoms after completing treatment (Heimberg et al, 1998; Otto et al, 2000) This gap in efficacy has motivated new research aimed at identifying alternative intervention approaches that may enhance clinical outcomes. The purposes of this brief review are to (1) describe recent contributions from three commonly used animal models of social stress that induce behavioral phenotypes of anxiety, reduced social interaction, and generalized anhedonia, (2) highlight ways in which social stress alters DA circuitry to drive deficits in motivation for social approach behavior, and (3) critically evaluate their relevance to human models of SAD. Approach and avoidance motivation in the context of social stressors have been considered in murine models of neurodevelopmental disorders such as autism (Moy et al, 2004, 2008), this remains a relatively new area of inquiry and additional work will be required to identify characteristic response patterns in murine models of autism versus anxiety
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