Literature DB >> 24793238

Young blood reverses age-related impairments in cognitive function and synaptic plasticity in mice.

Saul A Villeda1, Kristopher E Plambeck2, Jinte Middeldorp3, Joseph M Castellano3, Kira I Mosher4, Jian Luo5, Lucas K Smith6, Gregor Bieri7, Karin Lin8, Daniela Berdnik5, Rafael Wabl5, Joe Udeochu9, Elizabeth G Wheatley10, Bende Zou11, Danielle A Simmons5, Xinmin S Xie11, Frank M Longo5, Tony Wyss-Coray12.   

Abstract

As human lifespan increases, a greater fraction of the population is suffering from age-related cognitive impairments, making it important to elucidate a means to combat the effects of aging. Here we report that exposure of an aged animal to young blood can counteract and reverse pre-existing effects of brain aging at the molecular, structural, functional and cognitive level. Genome-wide microarray analysis of heterochronic parabionts--in which circulatory systems of young and aged animals are connected--identified synaptic plasticity-related transcriptional changes in the hippocampus of aged mice. Dendritic spine density of mature neurons increased and synaptic plasticity improved in the hippocampus of aged heterochronic parabionts. At the cognitive level, systemic administration of young blood plasma into aged mice improved age-related cognitive impairments in both contextual fear conditioning and spatial learning and memory. Structural and cognitive enhancements elicited by exposure to young blood are mediated, in part, by activation of the cyclic AMP response element binding protein (Creb) in the aged hippocampus. Our data indicate that exposure of aged mice to young blood late in life is capable of rejuvenating synaptic plasticity and improving cognitive function.

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Year:  2014        PMID: 24793238      PMCID: PMC4224436          DOI: 10.1038/nm.3569

Source DB:  PubMed          Journal:  Nat Med        ISSN: 1078-8956            Impact factor:   53.440


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