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⚗️ Metals 1041
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neuroscience (64)cognitive function (30)synaptic plasticity (25)stress (15)antidepressant (14)pharmacology (11)cognitive dysfunction (10)toxicology (9)cognition (9)serotonin (8)major depressive disorder (7)molecular biology (7)spinal cord injury (7)prefrontal cortex (7)chronic stress (6)autism spectrum disorder (6)chronic pain (6)exosomes (6)ptsd (6)cognitive (6)irisin (5)pregnancy (5)memory impairment (5)network pharmacology (5)cognitive performance (5)endoplasmic reticulum stress (5)neuropharmacology (5)environmental enrichment (4)homeostasis (4)oncology (4)neuroprotective effects (4)traumatic brain injury (4)molecular mechanisms (4)depressive disorder (4)cardiovascular (4)psychopharmacology (4)neuroregeneration (4)resveratrol (4)post-traumatic stress disorder (4)chitosan (4)affective disorders (3)osteoporosis (3)insomnia (3)high-intensity interval training (3)neurobiological mechanisms (3)serum (3)treatment-resistant depression (3)mirna (3)nerve regeneration (3)animal model 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📌 LLM 852
▸ LLM (77)
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🦠 Diseases 57
▸ Diseases — Other (15)
neurodegenerative diseases (15)neurodegenerative disorder (10)neurodegenerative disorders (10)diabetes (5)cancer (3)type 2 diabetes (2)lung cancer (2)alzheimer disease (2)type 2 diabetes mellitus (2)type 3 diabetes (1)neurodegenerative (1)non-small cell lung cancer (1)diabetes mellitus (1)anticancer (1)gestational diabetes mellitus (1)
⚙️ Mechanisms 56
▸ Mechanisms — Other (43)
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🎯 Targets 22
▸ Targets — Other (13)
micrornas (4)microrna (3)maternal separation (2)lncrna (2)maternal immune activation (2)maternal exercise (2)microrna-34a (1)maternal (1)mtor pathway (1)rna (1)dna methylation (1)mrna (1)fibrinolytic enzymes (1)
🧬 Activities 20
▸ Activities — Other (10)
antioxidant (11)sensory nerves (1)antioxidant activity (1)pet imaging (1)in vivo imaging (1)bioluminescence imaging (1)sensory neurotoxicity (1)neuroimaging (1)antioxidants (1)antioxidant properties (1)
🔗 Ligands 19
▸ Ligands — Other (12)
ketamine (4)monoamine deficiency (2)monoaminergic (2)dopamine (2)dopaminergic neurons (2)dopaminergic neuron (1)histaminergic transmission (1)esketamine (1)monoamine (1)dopaminergic (1)methamphetamine (1)histamine (1)
🧠 Concepts 5
▸ Concepts — Other (4)
metabolism (2)immunometabolism (1)brain metabolism (1)energy metabolism (1)
💊 Drugs 4
▸ Drugs — Other (3)
quercetin (2)oxaliplatin (1)paclitaxel (1)

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Serpina1e mediates the exercise-induced enhancement of hippocampal memory in male mice.

Hyunyoung Kim, Sanghee Shin, Jeongho Han +3 more · 2026 · Nature communications · Nature · added 2026-04-24
Exercise enhances learning and memory, not only through improved cardiometabolic but also through body-brain interactions mediated by secreted factors. Given the prominent role of skeletal muscle duri Show more
Exercise enhances learning and memory, not only through improved cardiometabolic but also through body-brain interactions mediated by secreted factors. Given the prominent role of skeletal muscle during exercise, muscle-derived factors, myokines, are believed to mediate the exercise-induced cognitive enhancements. Here, we demonstrate that intramuscular Serpina1e is upregulated following exercise in male mice. Systemic delivery of recombinant Serpina1e or intramuscular overexpression of Serpina1e reproduces exercise-induced memory enhancements in sedentary male mice. Conversely, muscle-specific depletion of Serpina1e abolishes hippocampal memory enhancement, indicating a requirement of muscle-derived Serpina1e for these cognitive benefits. Mechanistically, elevated plasma Serpina1e stimulates neurogenesis, brain-derived neurotrophic factor (BDNF) expression, and neurite growth in the hippocampus by crossing the blood-cerebrospinal fluid (CSF) and blood-brain barrier. Our findings identify Serpina1e as a key mediator of skeletal muscle-brain interaction that enables the beneficial effects of exercise on cognitive function. Show less
no PDF DOI: 10.1038/s41467-026-71420-0
BDNF cardiometabolic cognitive exercise hippocampal memory myokines skeletal muscle