Proteomic differences in seminal fluid of social insects whose sperm differ in heat tolerance.

In the coming years, climate change is likely to increase the frequency and intensity of heatwaves. In many organisms, heat stress provokes physiological perturbations and can lead to decreased male fertility. Bumblebees are endo-heterothermic but display interspecific differences in thermotolerance that could have conservation implications. For the species of concern , exposure to high temperatures can severely reduce sperm quality and, consequently, reproductive success. Such is not the case for , a ubiquitous species. To decipher the mechanisms at play, we characterized the seminal fluid proteomes of the two species. We quantified 1121 proteins, of which 522 were differentially expressed between and . Several proteins with protective functions, such as proteases, antioxidant proteins and various heat-shock proteins, were present at higher levels in than in under both control and heat-stress conditions The same was true for proteins involved in cellular homeostasis, immunity, lipid/sugar metabolism and thermotolerance. Furthermore, proteins involved in the capture and elimination of reactive oxygen species also occurred at much high levels in . Overall, these results clearly indicate differences in the seminal proteome of the more thermotolerant versus . The differences may contribute to explaining interspecific differences in sperm survival.