Bennett Kelley-Bell scite author profile

Mounting evidence linking epigenetic regulation to memory-related synaptic plasticity raises the possibility that altered chromatin modification dynamics might contribute to age-dependent cognitive decline. Here we show that the coordinated orchestration of both baseline and experience-dependent epigenetic regulation seen in the young adult hippocampus is lost in association with cognitive aging. Using a well-characterized rat model that reliably distinguishes aged individuals with significant memory impairment from others with normal memory, no single epigenetic mark or experience-dependent modification in the hippocampus uniquely predicted differences in the cognitive outcome of aging. The results instead point to a multivariate pattern in which modification-specific, bidirectional chromatin regulation is dependent on recent behavioral experience, chronological age, cognitive status, and hippocampal region. Whereas many epigenetic signatures were coupled with memory capacity among young adults and aged rats with preserved cognitive function, such associations were absent among aged rats with deficits in hippocampal memory. By comparison with the emphasis in current preclinical translational research on promoting chromatin modifications permissive for gene expression, our findings suggest that optimally successful hippocampal aging may hinge instead on enabling coordinated control across the epigenetic landscape.

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The effects of age and lipopolysaccharide (LPS)-mediated peripheral inflammation on numbers of central catecholaminergic neurons

Mouton

Kelley-Bell

Tweedie

et al. 2012

Neurobiology of Aging

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Parkinson’s disease (PD), an age-related movement disorder, is characterized by severe catecholaminergic neuron loss in the substantia nigra pars compacta-ventral tegmental area (SNPC-VTA) and locus coeruleus (LC). To assess the stability of these central catecholaminergic neurons following an acute episode of severe inflammation, 6 to 22 month-old C57/Bl6 mice received a maximally tolerated dose of LPS followed by euthanasia two hours later to assay peak levels of peripheral and central cytokines; and, 14 weeks later for computerized stereology of tyrosine hydroxylase-immunopositive (TH+) neurons in the SNPC-VTA and LC. Two hours after LPS, cytokine levels varied in an age-related manner, with the greatest peripheral and central elevations in old and young mice, respectively. Severe inflammation failed to cause loss of TH+ neurons in SNPC-VTA or LC; however, there was an age-related decline in these TH+ neurons in LPS-treated and control groups. Thus, unknown mechanisms in the B6 mouse brain appear to protect against catecholaminergic neuron loss during an acute episode of severe inflammation, while catecholaminergic neuron loss occurs during normal aging.

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Reassessing the effects of histone deacetylase inhibitors on hippocampal memory and cognitive aging

Castellano

Fletcher

Patzke³

et al. 2014

Hippocampus

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Converging results link histone acetylation dynamics to hippocampus-dependent memory, including evidence that histone deacetylase inhibitor (HDACi) administration enhances long-term memory. Previously we demonstrated that aging disrupts the coordinated epigenetic response to recent experience observed in the young adult hippocampus. Here we extended that work to test the cognitive effects of a novel, brain-penetrant HDACi (EVX001688; EVX) that we confirmed yields robust, relatively long lasting dose-dependent increases in histone acetylation in the hippocampus. In young rats, acute systemic EVX administration, scheduled to yield elevated histone acetylation levels during training in a contextual fear conditioning (CFC) task, had no effect on memory retention at 24 hours at any dose examined (10, 30, or 60 mg/kg). Pretraining injection of another HDACi, sodium butyrate, also failed to affect fear memory, and CFC training itself had no influence on hippocampal histone acetylation at 1 hour in mice or two strains of rats. EVX administration before water maze training in young rats yielded a modest effect such that the middle dose produced marginally better 24-hour retention than either the low or high dose, but only a small numerical benefit relative to vehicle. Guided by those findings, a final experiment tested the influence of pretraining EVX treatment on age-related spatial memory impairment. The results, revealing no effect on performance, are consistent with the idea that effective procognitive HDACi treatments in aging may require intervention aimed at restoring coordinated epigenetic regulation rather than bulk increases in hippocampal histone acetylation.

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Phosphodiesterase inhibition facilitates cognitive restoration in rodent models of age-related memory decline

Devan

Pistell

Duffy

et al. 2014

NRE

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BACKGROUND: Previous studies have shown that cyclic nucleotide phosphodiesterase type 5 (PDE5) inhibition with the drugs sildenafil and vardenafil can enhance spatial performance and object recognition in rodent models of learning and memory. OBJECTIVE: We review recent studies on PDE5 inhibition and report novel data that specifically tests the systemic effects of both pharmacological agents in aged rats using two different spatial learning/memory paradigms. METHODS: The 14-unit T-maze was used as a test of egocentric spatial processing that requires rats to learn a series of left/right turns to avoid mild footshock. The Morris water maze is a test of allocentric spatial learning that requires the acquisition of place information to localize a hidden platform relative to distal room cues. RESULTS: In both cases, acquisition (i.e., learning performance) was not improved, however after a one week drug washout period, aged animals demonstrated improved spatial memory retention compared to aged controls, ruling out simple performance effects. CONCLUSIONS: These findings are discussed in relation to recent reports on the use of PDE inhibitors to treat Alzheimer's disease (AD) dementia and age-related memory impairments. While some report promising pre-clinical results, others note that PDE5 may not be an appropriate target in AD due to a lack of localization within critical brain structures where therapeutic activity is needed. Despite these limitations, PDE5 inhibition may produce beneficial effects via several mechanisms that target predisposing risk factors leading to increased incidence of memory impairment in aged individuals and influence memory consolidation mechanisms that preserve long-term retention of cognitive information.

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