Yan Zeng scite author profile

Aging-related cognitive declines are well documented in humans and animal models. Yet the synaptic and molecular mechanisms responsible for cognitive aging are not well understood. Here we demonstrated age-dependent deficits in long-term synaptic plasticity and loss of dendritic spines in the hippocampus of aged Fisher 344 rats, which were closely associated with reduced histone acetylation, upregulation of histone deacetylase 2 (HDAC2), and decreased expression of a histone acetyltransferase. Further analysis showed that one of the key genes affected by such changes was the brain-derived neurotrophic factor (Bdnf) gene. Age-dependent reductions in H3 and H4 acetylation were detected within multiple promoter regions of the Bdnf gene, leading to a significant decrease in BDNF expression and impairment of downstream signaling in the aged hippocampus. These synaptic and signaling deficits could be rescued by enhancing BDNF and trkB expression via HDAC inhibition or by directly activating trkB receptors with 7, 8-dihydroxyflavone, a newly identified, selective agonist for trkB. Taken together, our findings suggest that age-dependent declines in chromatin histone acetylation and the resulting changes in BDNF expression and signaling are key mechanisms underlying the deterioration of synaptic function and structure in the aging brain. Furthermore, epigenetic or pharmacological enhancement of BDNF-trkB signaling could be a promising strategy for reversing cognitive aging.

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7,8‐dihydroxyflavone rescues spatial memory and synaptic plasticity in cognitively impaired aged rats

Zeng

et al. 2012

Journal of Neurochemistry

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J. Neurochem. (2012) 122, 800–811. Abstract 7,8‐dihydroxyflavone (7,8‐DHF) has recently been identified as a potential TrkB agonist that crosses the blood–brain barrier after i.p. administration. We previously demonstrated that 7,8‐DHF in vitro rescues long‐term synaptic plasticity in the hippocampus of aged rats. This study assessed the rescue effect of 7,8‐DHF in vivo on aging‐related cognitive impairment in rats, and further determined whether the effect of 7,8‐DHF is age dependent. Aged rats at 22 and 30 months of age were pretested for spatial memory in Morris water maze. The aged‐impaired rats were retested twice during 7,8‐DHF or vehicle treatment, which started 3 weeks after the completion of the pretest. In the 22‐month‐old rats, daily i.p. administration of 7,8‐DHF for 2 weeks improved spatial memory. The improvement in behavioral tests was associated with increases in synapse formation and facilitation of synaptic plasticity in the hippocampus, as well as the activation of several proteins crucial to synaptic plasticity and memory. A more extended treatment paradigm with 7,8‐DHF was required to achieve a significant memory improvement in the severely impaired 30‐month‐old rats. Moreover, 7,8‐DHF moderately facilitated the synaptic plasticity, modified the density but not number of spines in the hippocampus of the oldest rats. Taken together, our results suggest that 7,8‐DHF can act in vivo to counteract aging‐induced declines in spatial memory and synaptic plasticity and morphological changes of hippocampal neurons. The effect of 7,8‐DHF is more pronounced in relatively younger impaired rats than in those of more advanced age. These findings demonstrate the reversal of age‐dependent memory impairment by in vivo 7,8‐DHF application and support the benefit of early treatment for cognitive aging.

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TrkB activation by 7, 8‐dihydroxyflavone increases synapse AMPA subunits and ameliorates spatial memory deficits in a mouse model of Alzheimer's disease

Gao

Tian

Zhao

et al. 2015

Journal of Neurochemistry

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We recently demonstrated that activation of tyrosine receptor kinase B (TrkB) by 7, 8-dihydroxyflavone (7,, the selective TrkB agonist, increased surface alpha-amino-3-hydroxy-5-methyl-4-isoxazole-propionic acid (AMPA) receptors (AMPARs) AMPA receptor subunit GluR1 (GluA1) subunit expression at the synapses of Fragile X Syndrome mutant mice. This present study investigated the effects of 7, 8-DHF on both memory function and synapse structure in relation to the synapse protein level of AMPARs in the Tg2576 Alzheimer's disease (AD) mouse model. The study found that chronic oral administration of 7, 8-DHF significantly improved spatial memory and minimized dendrite loss in the hippocampus of Tg2576 mice. A key feature of 7, 8-DHF action was the increased expression of both GluA1 and GluA2 at synapses. Interestingly, 7, 8-DHF had no effect on the attenuation of amyloid precursor protein or Ab exhibiting in the Tg2576 AD brains, yet it activated the phosphorylation of TrkB receptors and its downstream signals including CaMKII, Akt, Erk1/2, and cAMP-response element-binding protein. Importantly, cyclotraxin B (a TrkB inhibitor), U0126 (a Ras-ERK pathway inhibitor), Wortmannin (an Akt phosphorylation inhibitor), and KN-93 (a CaMKII inhibitor) counteracted the enhanced expression and phosphorylation of AMPAR subunits induced by 7, 8-DHF. Collectively, our results demonstrated that 7, 8-DHF acted on TrkB and resolved learning and memory impairments in the absence of reduced amyloid in amyloid precursor protein transgenic mice partially through improved synaptic structure and enhanced synaptic AMPARs. The findings suggest that the application of 7, 8-DHF may be a promising new approach to improve cognitive abilities in AD.

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7, 8-Dihydroxyflavone induces synapse expression of AMPA GluA1 and ameliorates cognitive and spine abnormalities in a mouse model of fragile X syndrome

Tian

Zeng

et al. 2015

Neuropharmacology

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Yan Zeng

Serotonergic system, cognition, and BPSD in Alzheimer’s disease

Epigenetic Enhancement of BDNF Signaling Rescues Synaptic Plasticity in Aging

7,8‐dihydroxyflavone rescues spatial memory and synaptic plasticity in cognitively impaired aged rats

TrkB activation by 7, 8‐dihydroxyflavone increases synapse AMPA subunits and ameliorates spatial memory deficits in a mouse model of Alzheimer's disease

7, 8-Dihydroxyflavone induces synapse expression of AMPA GluA1 and ameliorates cognitive and spine abnormalities in a mouse model of fragile X syndrome

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