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Can Affective Resilience be Enhanced? A Developmental and Epigenetic Approach

$543,249R01FY2016MHNIH

University Of Michigan At Ann Arbor, Ann Arbor MI

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Abstract

DESCRIPTION (provided by applicant): We propose to study the neurobiological mechanisms of affective resilience to anxiety and stress, and to identify strategies for enhancing resilience specifically in highly vulnerable individuals. Our general hypothesis is that epigenetic mechanisms are critical predisposing factors that shape responsiveness to negative valence and impact vulnerability to chronic anxiety disorders. More specifically, we focus on the Fibroblast Growth Factor 2 (FGF2) which serves as a master molecular organizer that is critical during development and continues to be active in shaping affective responsiveness throughout life. This proposal tests the hypothesis that FGF2 is an endogenous resilience molecule that is not only a target of epigenetic mechanisms but is itself a modifier of these mechanisms that, in turn, fine-tune affective responsiveness. The proposed series of studies relies on two lines of rats that we have genetically selected based on their propensity to explore a mildly stressful novel environment. Our breeding strategy over 40 generations has resulted in contrasting behavioral phenotypes that capture a stable bias towards negative valence responsiveness versus positive valence responsiveness. In particular, bred Low-Responder rats (bLRs) exhibit greater basal anxiety and depression behaviors, greater fear conditioning, greater responsiveness to chronic and social defeat stress, lower levels of hippocampal FGF2 and a distinct epigenetic profile when compared to bred High Responders (bHRs) that are significantly more resilient. Thus bLRs are a model of vulnerability to negative affective disorders and a target for resilience enhancement. Aim 1 uses direct administration of FGF2 to promote resilience during early life and in adolescence. It also investigates environmental complexity (EC) as a strategy for promoting resilience during adolescence. It studies the impact of these interventions on two molecular master organizer genes in hippocampus- FGF2 itself, which reduces anxiety and the glucocorticoid receptor GR, which enhances anxiety behavior. Aim 2 characterizes the basal epigenetic profiles associated with the bHR/bLR phenotypes and the impact of resilience induction on these profiles both at the global level and in association with FGF2 and GR promoters. These studies will be extended to anatomical analyses using a range of tools including Clarity. Aim 3 addresses at a mechanistic level the functional bidirectional relationship between FGF2 and epigenetic mechanisms and their impact on resilience--- be it basal resilience (in bHRs) or induced (in bLRs). It uses virally-mediated, targeted RNA intervention strategies to knockdown either FGF2 or histone modifying enzymes in the hippocampus and determine whether they play an essential role in the induction of resilience. Together, these studies will provide a highly targeted approach to understanding and harnessing epigenetics as key factors in affect regulation.

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