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Yun Wang

Center for Neuropsychiatric Research, National Health Research Institutes, Zhunan, Taiwan.

2 papers in the library · 17 citations · publishing 2023-2024

Papers

Elucidation of Pharmacological Mechanism Underlying the Anti-Alzheimer's Disease Effects of Evodia rutaecarpa and Discovery of Novel Lead Molecules: An In Silico Study.

Molecules (Basel, Switzerland) August 3, 2023 Lulu Zhang, Jia Xu, Jiejie Guo et al. 9 citations

Alzheimer's disease is a brain disease with an insidious onset and multiple factors. An in silico study of the traditional Chinese herb Evodia rutaecarpa (Wuzhuyu) found that its active compounds primarily target Alzheimer's disease rather than migraines, for which the herb is traditionally used. Behavioral experiments showed that E. rutaecarpa extract improved learning and memory impairments in AD model mice. Using pharmacology networking and molecular docking, the authors found that alkaloids in the herb bind to key nodes of AD, affecting pathways including serotonergic synapse signaling (SLC6A4), hormones (PTGS2, ESR1, AR), anti-neuroinflammation (SRC, TNF, NOS3), transcription regulation (NR3C1), and molecular chaperones (HSP90AA1). Specific compounds—graveoline, 5-methoxy-N,N-dimethyltryptamine, dehydroevodiamine, and goshuyuamide II—showed stronger binding affinities to key proteins than known preclinical and clinical drugs.

Neuroprotective effects of psilocybin in a rat model of stroke.

BMC neuroscience October 8, 2024 Seong-Jin Yu, Kuo-Jen Wu, Yu-Syuan Wang et al. 8 citations

Psilocybin, the psychedelic compound in magic mushrooms, reduced brain damage and improved movement in rats after a stroke. In lab dishes, it protected rat neurons from damage caused by glutamate, a chemical that can kill brain cells during stroke. This protection was blocked by a drug that inhibits BDNF, a protein that supports neuron health. In rats, giving psilocybin before or soon after a stroke reduced the size of brain infarction and improved locomotor behavior. It also increased markers of healthy neurons and decreased markers of inflammation in the brain. The findings suggest psilocybin's protective effects involve BDNF, supporting its potential as a novel stroke treatment.