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    Home > Biochemistry News > Biotechnology News > Immunity: The complexity of TRM cell biology in the gut

    Immunity: The complexity of TRM cell biology in the gut

    • Last Update: 2023-02-03
    • Source: Internet
    • Author: User
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    A new study by researchers at the University of California, San Diego reveals insights
    into tissue-specific T cell biology.
    Their research reveals the complexity of tissue-resident memory (TRM) cell biology in the gut, which could lead to a new generation of precise treatments
    for infections, cancers, and autoimmune diseases.

    The findings, published in the journal Immunology, are titled "Small intestinal and colonic tissue-resident memory CD8+ T cells exhibit molecular heterogeneity and differential dependence
    on eome.
    "

    "Tissue-resident memory CD8+ T cells are a subset of memory T cells that play a key role
    in limiting early pathogen transmission and controlling infection," the researchers wrote.
    "TRM cells exhibit differences in different tissues, but their potential heterogeneity between different anatomical compartments in the small intestine and colon is not well understood
    .
    Here, by analyzing TRM cells from the lamina propria and epithelial compartments of the small intestine and colon, we found that intestinal TRM cells exhibit unique cytokine and granzyme expression patterns, as well as substantial transcriptional, epigenetic, and functional heterogeneity
    .

    "TRM cells are the first responders, right on the front lines of infection," said
    senior author John T.
    Chang, M.
    D.
    , a professor at the UC San Diego School of Medicine.
    "Most of our vaccines are designed to provide systemic immunity, but if we focus on enhancing tissue-specific cells that encounter pathogens first, we may get better protection
    .
    "

    The researchers conducted a series of experiments to characterize TRM cells in four different regions of the mouse gut: the small intestine and the colon, as well as the inner and propria layers of the epithelium
    .

    The researchers observed that TRM cells of each tissue type exhibited different cytokine and granzyme expression patterns, as well as substantial transcriptional, epigenetic, and functional heterogeneity
    .
    In each part of the gut, the same types of immune cells appear to differ
    greatly in molecular composition, function, and the chemical signals they rely on.

    Each cell population also exhibits differential dependence on Eomesodermin (Eomes), a transcription factor
    known to influence TRM cell development.

    The researchers look forward to studying the rules of TRM cell formation and maintenance in other tissues and exploring what drives their specificity
    .

    "In the future, we hope to consider vaccines and other treatments tailored to the specific needs of each organ," Chang said
    .
    "By understanding what each tissue type needs to support the formation and maintenance of TRM cells, we can provide the most effective immune defense
    against disease.
    "

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