Castiglioni, V. G.; Elena, S. F.

The heat shock response plays a role in the immune defense against viruses across various organisms. Studies on model organisms show that inducing this response prior to viral exposure enhances host resistance to infections, while deficient responses make individuals more vulnerable. Moreover, viruses rely on components of the heat shock response for their own stability and viral infections improve thermal tolerance in plants, giving infected individuals an advantage in extreme conditions, which aids the virus in replication and transmission. Here, we examine the interaction between the nematode Caenorhabditis elegans and its natural pathogen the Orsay virus (OrV) under heat stress. We found that OrV infection leads to differential gene expression related to heat stress, and infected populations showed increased resistance to heat shock. This resistance was associated with increased expression of argonautes alg-1 and alg-2, which are crucial for survival after heat shock and for OrV replication. Overall, our study suggests an environmental-dependent mutualistic relationship between the worm and OrV, potentially expanding the worm\'s ecological niche and providing the virus with extra opportunities for replication and adaptation to extreme conditions.