Olga Shevtsova scite author profile

Cognitive reserve, the brain’s capacity to draw on enriching experiences during youth, is believed to protect against memory loss associated with a decline in hippocampal function, as seen in normal aging and neurodegenerative disease. Adult neurogenesis has been suggested as a specific mechanism involved in cognitive (or neurogenic) reserve. The first objective of this study was to compare learning–related neuronal activity in adult-born versus developmentally born hippocampal neurons in juvenile male rats that had engaged in extensive running activity during early development or reared in a standard laboratory environment. The second objective was to investigate the long-term effect of exercise in rats on learning and memory of a contextual fear (CF) response later in adulthood. These aims address the important question as to whether exercise in early life is sufficient to build a reserve that protects against the process of cognitive aging. The results reveal a long-term effect of early running on adult-born dentate granule neurons and a special role for adult-born neurons in contextual memory, in a manner that is consistent with the neurogenic reserve hypothesis.

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Purinergic signaling in nervous system health and disease: Focus on pannexin 1

Sanchez-Arias

Slagt

Vecchiarelli

et al. 2021

Pharmacology & Therapeutics

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Spatial learning‐induced increase in agmatine levels at hippocampal CA1 synapses

Leitch¹,

Shevtsova²,

Reusch³

et al. 2010

Synapse

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Agmatine, a metabolite of L-arginine, is considered as a novel putative neurotransmitter. It has been detected in axon terminals that synapse with pyramidal cells in the hippocampus, a brain region that is critically involved in spatial learning and memory. However, the role of agmatine in learning and memory is poorly understood. Recently, we demonstrated water maze training-induced increases in tissue levels of agmatine in the CA1 subregion of the hippocampus. This finding has raised an issue whether an endogenous agmatine could directly participate in learning and memory processes as a neurotransmitter. In the present study, quantitative immunogold-labeling and electron-microscopical techniques were used to analyze the levels of agmatine in CA1 stratum radiatum (SR) terminals (n = 600) of male Sprague-Dawley rats that had been trained to find a hidden escape platform in the water maze (WM) task or forced to swim (SW) in the pool with no platform presented. Agmatine levels were significantly increased by ∼85% in the synaptic terminals of SR of trained WM group compared with the SW control group (all P < 0.001). These results, for the first time, demonstrate spatial learning-induced elevation in agmatine levels at synapses in the hippocampus and provide evidence of its participation in learning and memory processing as a novel neurotransmitter.

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Olga Shevtsova

Selective loss of AMPA receptors at corticothalamic synapses in the epileptic stargazer mouse

Subcellular distribution of L-type calcium channel subtypes in rat hippocampal neurons

Early-Age Running Enhances Activity of Adult-Born Dentate Granule Neurons Following Learning in Rats

Purinergic signaling in nervous system health and disease: Focus on pannexin 1

Spatial learning‐induced increase in agmatine levels at hippocampal CA1 synapses

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