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CRH in stress-induced hippocampal neuroplasticity

$314,854R01FY2013NSNIH

University Of California-Irvine, Irvine CA

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Abstract

Chronic stress early in life (ES), including neglect, abuse, loss of parent and severe poverty, affects the majority of the world's children (UNESCO report, 2004). This is of major clinical importance because chronic childhood stress is associated with cognitive (and psychiatric) disorders later in life. Because elimination of global ES is not feasible, effective therapies that can be given post hoc to prevent the effects of ES on mid- life cognitive decline are necessary. Having defined a rodent model of ES which results in enduring deficits of hippocampus-dependent cognitive function and LTP, together with dendritic atrophy, we found that post hoc blocking of the receptor (CRFR1) of the stress-activated neuropeptide, corticotropin releasing hormone (CRH) immediately after the ES period, abrogated these deficits. Whereas these data are encouraging, major gaps in our knowledge require study in order to translate these experimental findings into therapies for children. In this revised continuation proposal, we propose (1) to test if pathological activation of central or of peripheral CRFR1 is responsible for ES-provoked learning and memory defects and dendritic atrophy; (2) to distinguish between the hypothesis that ES leads to enduring changes in hippocampal structure and function that are irreversible after a critical period of development, and the possibility that ES initiates hippocampal derangements that progress throughout life. In the latter case, therapeutic interventions in young adult ES graduates will still prevent the cognitive and structural deficits; (3) Because the structural changes provoked by ES-dendritic atrophy and synapse / spine loss--underlie the cognitive deficits, the mechanisms of dendritic atrophy will be studied, focusing ontheroleof hippocampal CRH-CRFR1 signaling; (4)Becausedendriticatrophyderivesfromchroniclossofdendriticspines,themechanismsbywhichstress, via CRFR1 activation, provokes dendritic spine collapse will be examined. The proposed studies, spanning in vivo and in vitro systems, will provide insight into the mechanisms by whichESimpactsneuronalintegrity,synapticplasticityandcognitivefunctionlong-term.BecauseESaffects the majority of the world's children, these studies address a problem of paramount importance, which is strikingly understudied. The proposed studies will identify a novel mechanism, CRH-CRFR1 signaling, as pivotal in the disturbances provoked by ES. Because the proposed studies will demonstrate the potential for post hoc intervention, and because compounds targeting CRFR1 are under clinical development, the results of these studies have tremendous translational potential.

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CRH in stress-induced hippocampal neuroplasticity · GrantIndex