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Endurance exercise-induced expression of autophagy-related protein coincides with anabolic expression and neurogenesis in the hippocampus of the mouse brain.

Neuroreport 2020 April 9
Autophagy and neurogenesis play a pivotal role in maintaining cellular homeostasis of neurons in the brain. Endurance exercise (EXE) serves as a potent regulator of both autophagy and neurogenesis in the hippocampus of the brain; however, the underlying molecular mechanisms of the dual expression remains unclear. Thus, we examined the signaling pathways of EXE-induced autophagy and neurogenesis-associated protein expression in the hippocampus. C57BL/6 male mice (10 weeks old) were randomly divided into two groups: control group (n = 10) and EXE group (EXE, n = 10). Our results showed that EXE increased expression of autophagy-related protein [LC3 II, BECLIN1, autophagy-related 7 (ATG7), p62, LAMP2, CATHEPSIN L and transcription factor EB] in the presence of anabolic signaling expression (AKT-mammalian target of rapamycin-ribosomal S6 kinase). Intriguingly, long-term EXE-mediated neurogenesis in the hippocampus was observed despite the downregulated expressions of canonical neurotrophic factors (e.g. brain-derived neurotrophic factor, glial cell line-derived neurotrophic factors and nerve growth factor); instead, upregulation of neuregulin-1 (NRG1)-mediated signaling cascades (e.g. NRG1-extracellular signal-regulated kinase-ribosomal s6 kinase-cyclic adenosine mono-phosphate response element-binding protein) were associated with EXE-induced hippocampal neurogenesis and synaptic plasticity. Our data, for the first time, show that EXE-mediated expression of autophagy-related protein coincides with anabolic expression and that NRG1 is involved in EXE-mediated neurogenesis and synaptic plasticity. Taken together, this study provides a novel mechanism of hippocampal autophagy and neurogenesis, which may provide potential insight into developing therapeutic neuroprotective strategies.

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