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Perception of a pathogenic signature initiates intergenerational protection

Corinne L. Pender, Julian G. Dishart, Holly K. Gildea, Kelsie M. Nauta, Emily M Page, Talha F Siddiqi, Shannon S. Cheung, Larry Joe, Nicholas O. Burton, Andrew Dillin

2024Cell12 citationsDOIOpen Access PDF

Abstract

Transmission of immune responses from one generation to the next represents a powerful adaptive mechanism to protect an organism's descendants. Parental infection by the natural C. elegans pathogen Pseudomonas vranovensis induces a protective response in progeny, but the bacterial cues and intergenerational signal driving this response were previously unknown. Here, we find that animals activate a protective stress response program upon exposure to P. vranovensis-derived cyanide and that a metabolic byproduct of cyanide detoxification, β-cyanoalanine, acts as an intergenerational signal to protect progeny from infection. Remarkably, this mechanism does not require direct parental infection; rather, exposure to pathogen-derived volatiles is sufficient to enhance the survival of the next generation, indicating that parental surveillance of environmental cues can activate a protective intergenerational response. Therefore, the mere perception of a pathogen-derived toxin, in this case cyanide, can protect an animal's progeny from future pathogenic challenges.

Topics & Concepts

BiologyPerceptionSignature (topology)GeneticsEvolutionary biologyNeuroscienceMathematicsGeometryGenetics, Aging, and Longevity in Model OrganismsTryptophan and brain disordersHealth, Environment, Cognitive Aging
Perception of a pathogenic signature initiates intergenerational protection | Litcius