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    Home > Active Ingredient News > Study of Nervous System > Nature Sub-Journal: Born in sorrow and dying in happiness, the stimulating environment keeps the brain young

    Nature Sub-Journal: Born in sorrow and dying in happiness, the stimulating environment keeps the brain young

    • Last Update: 2021-11-14
    • Source: Internet
    • Author: User
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    Written | Edited by Wang Cong | Typesetting by Wang Duoyu | Shui Chengwen Whether it is a human or a mouse or other animal, the genome contains tens of thousands of genes.
    However, it is not only the overall genetic blueprint that determines its cell function and health.
    In fact, what is more important is which genes are turned on or off
    .

    As we all know, aging, living conditions, behavior, and environmental factors all affect the ability to turn genes on or off.
    This phenomenon called "epigenetics" has become a current research hotspot
    .

    More than 2,000 years ago, Mencius once said-be born in sorrow and die in happiness
    .

    This tells us how much a person's environment will have on his life
    .

    In June 2021, researchers from the Regenerative Therapy Center of the Technical University of Dresden, Germany, published a research paper titled: Environmental enrichment preserves a young DNA methylation landscape in the aged mouse hippocampus in the journal Nature Communications, a subsidiary of Nature
    .

    Through single-nucleotide resolution whole-genome DNA methylation sequencing, it is proved that the high stimulation environment can also restore a large number of age-related DNA methylation changes in the brain hippocampus, indicating that the high stimulation environment can make the brain's memory control center hippocampus Keep your body young
    .

    This also explains why an active, diverse life helps maintain mental health in old age
    .

    Aging is related to the gradual decline of brain function, which is manifested as cognitive impairment, increased risk of neurodegenerative diseases, and loss of neuroplasticity
    .

    The decline in brain function during aging is related to epigenetic changes, including DNA methylation
    .

    Life>
    .

    With age, the level of DNA methylation will gradually decrease, so the level of DNA methylation can be used as an epigenetic clock to measure the level of aging and track a person's biological age
    .

    So does life>In order to verify this, the research team conducted a study in mice.
    They let two groups of mice grow up in different environments.
    One group grew up in a stimulating environment with various toys and tunnel tubes.
    The other The group does not have these
    .

    Then, the genomes of these two groups of mice were tested, and it was found that those mice that grew up in a stimulating environment had less decline in their DNA methylation levels as they got older
    .

    In mice that grew up in a low-stimulus environment, their DNA methylation levels decreased more significantly
    .

    These changes in DNA methylation levels will not affect genetic information, but they will affect whether a gene is activated or the level of activation
    .

    These test results mean that the mice that grew up in a stimulating environment, they maintained a younger state to some extent
    .

    The research team further discovered that the stimulation environment affected genes related to new neurons and cell connections in the hippocampus of the mouse brain, which is the memory control center in the brain
    .

    From an epigenetic point of view, mice living in a stimulating environment maintained a younger brain hippocampus
    .

    Compared with mice of the same age that grew up in a low-stimulation environment, the brains of mice that grew up in a stimulus environment are more malleable and have greater "neural plasticity
    .
    "
    Many other studies have shown that mice living in a high-stimulus environment perform better on memory tests than mice living in a low-stimulus environment
    .

    The corresponding author of the study, Gerd Kempermann, said that this excellent performance is probably due to the more stable DNA methylation level of mice living in the stimulating environment
    .

    Finally, Gerd Kempermann said that although for humans, how life>
    .

    In general, the high stimulation environment has great potential to prevent and offset brain dysfunction in elderly animals, including synaptic plasticity, hippocampal neurogenesis and cognitive ability
    .

    Through single-nucleotide resolution whole-genome DNA methylation sequencing, it is proved that high stimulation environment can also restore a large number of age-related DNA methylation changes in the hippocampus of the brain
    .

    These findings provide a potential mechanism: positive interaction with the environment can support and promote brain function throughout the magical cycle
    .

    Link to the paper: https:// open for reprinting, welcome to forward to Moments and WeChat groups 
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