Loss of self-tolerance leads to altered gene expression and IMD pathway activation in Drosophila melanogaster
2021
Immune self-tolerance is the ability of a hosts immune system to recognize and avoid triggering immune responses against self-tissue. This allows the host to avoid self-directed immune damage while still responding appropriately to pathogen infection. A breakdown of self-tolerance can lead to an autoimmune state in which immune cells target healthy self-tissue, leading to inflammation and tissue damage. In order to better understand the basic biology of autoimmunity and the role of the innate immune system in maintaining self-tolerance, we have recently characterized the Drosophila melanogaster tuSz autoimmune mutant. This mutant strain can serve as a model of innate immune mediated self-tolerance, and here we identify transcripts that are deregulated in flies experiencing a loss of self-tolerance. We found that these changes include the ectopic activation of pro-inflammatory signaling through the Relish/NF{kappa}B transcription factor, alterations in transcripts encoding proteins predicted to mediate organismal metabolism, and a downregulation of transcripts linked to developmental processes. This study can provide insight into the transcriptional and physiological changes underlying self-tolerance and autoimmunity.
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