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Resources » Paper

Gandhi, F.A.R. et al. (2019) International Worm Meeting "The longevity-promoting factor, TCER-1, widely represses stress resistance and innate immunity."

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  • Comments on Gandhi, F.A.R. et al. (2019) International Worm Meeting "The longevity-promoting factor, TCER-1, widely represses stress resistance and innate immunity." (0)

  • Overview

    Status:
    Publication type:
    Meeting_abstract
    WormBase ID:
    WBPaper00057423

    Gandhi, F.A.R., Naim, N., Ratnappan, R., Loose, J., Mason, C., Steenberge, L., McClendon, T.B., Wang, G., Driscoll, M., Yanowitz, J., & Ghazi, A. (2019). The longevity-promoting factor, TCER-1, widely represses stress resistance and innate immunity presented in International Worm Meeting. Unpublished information; cite only with author permission.

    A positive correlation exists between stress resistance and longevity, but emerging evidence suggests that lifespan and stress endurance are physiologically distinct. A major challenge in aging biology has been identifying factors that play distinct roles in these closely coupled processes because genes that promote longevity often enhance stress resistance. Here, we demonstrate that TCER-1, the Caenorhabditis elegans homolog of the human transcription elongation and splicing factor, TCERG1, has discrete and opposite effects on lifespan and stress resistance. We previously identified tcer-1 as a gene that promotes longevity in germline-less C. elegans and reproductive fitness in wild-type animals. Surprisingly, tcer-1 mutants exhibited exceptional resistance against multiple biotic and abiotic stressors, including infection by the human opportunistic pathogen Pseudomonas aeruginosa. Conversely, TCER-1 overexpression increased susceptibility to infection. TCER-1 acted cell non-autonomously to both enhance longevity and repress immunity. Interestingly, TCER-1 inhibited immunity only during the fertile stages of life and not in post-reproductive adults. Elevating its levels ameliorated the fertility loss that follows infection, suggesting that TCER-1 may repress immunity to augment fecundity. Mechanistically, TCER-1 acts through the inhibition of the conserved kinase, PMK-1, as well as through repression of PMK-1-independent, novel antibacterial factors critical for innate immunity. Overall, our data establish key roles for TCER-1 in coordinating immunity, longevity and fertility, and reveal the molecular mechanisms that distinguish length of life from functional aspects of aging.

    Authors: Gandhi, F.A.R., Naim, N., Ratnappan, R., Loose, J., Mason, C., Steenberge, L., McClendon, T.B., Wang, G., Driscoll, M., Yanowitz, J., Ghazi, A.

    Affiliations:
    - Department of Pediatrics, School of Medicine, University of Pittsburgh, Pittsburgh, PA
    - Department of Molecular Biology and Biochemistry, Rutgers, the State University of New York
    - Magee-Womens Research Institute, Department of Obstetrics, Gynecology, and Reproductive Sciences, University of Pittsburgh


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