Abstract
Adolescent behavior is typified by increased risk-taking, reward- and novelty-seeking, as well as an augmented need for social and environmental stimulation. This behavioral phenotype may result from alterations in outcome valuation or reward learning. In the present set of experiments, we directly compared adult and adolescent animals on tasks measuring both of these processes. Additionally, we examined developmental differences in dopamine D1-like receptor (D1R), dopamine D2-like receptor (D2R), and polysialylated neural cell adhesion molecule (PSA-NCAM) expression in animals that were trained on an effortful reward valuation task, given that these proteins play an important role in the functional development of the amygdala-prefrontocortical (PFC) circuit and mesocorticolimbic dopamine system. We found that adolescent animals were not different from adults in appetitive associative learning, but exhibited distinct pattern of responses to differences in outcome values, which was paralleled by an enhanced motivation to invest effort to obtain larger rewards. There were no differences in D2 receptor expression, but D1 receptor expression was significantly reduced in the striatum of animals that had experiences with reward learning during adolescence compared to animals that went through the same experiences in adulthood. We observed increased levels of PSA-NCAM expression in both PFC and amygdala of late adolescents compared to adults that were previously trained on an effortful reward valuation task. PSA-NCAM levels in PFC were strongly and positively associated with high effort/reward (HER) choices in adolescents, but not in adult animals. Increased levels of PSA-NCAM expression in adolescents may index increased structural plasticity and represent a neural correlate of a reward sensitive endophenotype.
Highlights
Adolescence is a critical period during which animals learn to predict future states of their habitat depending on current experiences and acquire life strategies that are likely to promote survival and reproductive success later in life
In Experiment 3, we examined developmental differences in dopamine D1-like receptor (D1R) and D2-like receptor (D2R) expression in striatum and prefrontal cortex (PFC) as well as PSA-neural cell adhesion molecule (NCAM) expression in PFC and amygdala in adolescent and adult animals trained on an effortful reward valuation task (Stolyarova et al, 2015)
There was an initial weight loss in the adult group, both age groups showed an increase in weight by the end of the study (Figure 1A; main effect of time: F(18,396) = 30.843, p < 0.001), which likely resulted from the supplemental nutrition obtained from the rewards earned during testing
Summary
Adolescence is a critical period during which animals learn to predict future states of their habitat depending on current experiences and acquire life strategies that are likely to promote survival and reproductive success later in life. Previous research has shown that polysialylated NCAM (PSANCAM) is critical in synaptic remodeling and plasticity (Muller et al, 1996; Durbec and Cremer, 2001) and modulates cortical neuron sensitivity to neurotrophins (Vutskits et al, 2001) It is expressed in brain regions undergoing structural reorganization during development and in adulthood, including hippocampus, amygdala, and PFC (Nacher et al, 2002a,b; Seki, 2002; Varea et al, 2005). Most of the work to date has focused on its role in aversive learning and fear memory, and largely centered on hippocampal function (Senkov et al, 2006; Lopez-Fernandez et al, 2007; Kochlamazashvili et al, 2010) It is not known if PSA-NCAM contributes to appetitive responses and if the regional specificity of its expression is developmentally specific. In Experiment 3, we examined developmental differences in dopamine D1R and D2R expression in striatum and PFC as well as PSA-NCAM expression in PFC and amygdala in adolescent and adult animals trained on an effortful reward valuation task (Stolyarova et al, 2015)
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