Abstract / Description of output
Invertebrates lack the immune machinery underlying vertebrate-like acquired immunity. However, in many insects past infection by the same pathogen can ‘prime’ the immune response, resulting in improved survival upon reinfection. Here, we investigated the mechanistic basis and epidemioloigcal consequences of innate immune priming in the fruit fly Drosophila melanogaster when infected with the gram-negative bacterial pathogen Providencia rettgeri. We find that priming in response to P. rettgeri infection is long-lasting and and sexually dimorphic response. We further explore the epidemiological consequences of immune priming and find it has the potential to curtail pathogen transmission by reducing pathogen shedding and spread. The enhanced survival of individuals previously exposed to a non-lethal bacterial inoculum coincided with a transient decrease in bacterial loads, and we provide strong evidence that the effect of priming requires the IMD-responsive antimicrobial-peptide Diptericin-B in the fat body. Further, we show that while Diptericin B is the main effector of bacterial clearance, it is not sufficient for immune priming, which requires regulation of IMD by peptidoglycan recognition proteins. This work underscores the plasticity and complexity of invertebrate responses to infection, providing novel experimental evidence for the effects of innate immune priming on population-level epidemiological outcomes.
Original language | English |
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Article number | e1012308 |
Number of pages | 27 |
Journal | PLoS Pathogens |
Volume | 20 |
Issue number | 6 |
DOIs | |
Publication status | Published - 10 Jun 2024 |
Keywords / Materials (for Non-textual outputs)
- antimicrobial peptides
- immune priming
- immune regulation
- pathogen transmission
- pathogen shedding
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Data and code for "The immune regulation and epidemiological consequences of specific immune priming in Drosophila"
Prakash, A. (Creator) & Vale, P. (Creator), Zenodo, 9 Feb 2023
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