Significant differentially expressed genes (DEG) for midgut tissue from bees maintained for four hours at 35°C or 45°C
Data files
Aug 25, 2021 version files 176.62 KB
Abstract
Honey bee colonies in the United States have suffered from increased die-off in the last few years with a complex set of interacting stresses playing a key role. With changing climate, an increase in the frequency of severe weather events, such as heat waves, is anticipated. Understanding how these changes may contribute to stress in honey bees is crucial. Individual honey bees appear to have a high capacity to endure thermal stress. One reason for this high-level endurance is likely their robust HSR which contributes to thermotolerance at the cellular level. However, less is known about other mechanisms of thermotolerance, especially those operating at the tissue level. To elucidate other determinants of this resilience in this species, we used thermal stress coupled with RNAseq and identified broad transcriptional remodeling of a number of key signaling pathways in the honey bee, including those pathways known to be involved in digestive tract regeneration in the fruit fly such as the Hippo and JAK/STAT pathways. We also observe cell death and shedding of epithelial cells, which likely leads to induction of this regenerative transcriptional program. We found that thermal stress affects many of these pathways in other tissues, suggesting a shared program of damage response. This study provides important foundational characterization of the tissue damage response program in this key pollinating species. In addition, our data suggest that a robust regeneration program may also be a critical contributor to thermotolerance at the tissue level, a possibility which warrants further exploration in this and other species.
Methods
Honey bees were fed sucose solution Containing 0.5% DMSO) at either 35 ∘C or 45 ∘C for 4 hours. Midguts were removed, stored in RNAlater, and RNA was harvested using Trizol reagent. RNA was submitted to additional quality control analysis before mRNA was enriched by polyA selection. Llibrary preparation was performed using a NEBNext Ultra RNA library preparation kit. Sequencing was then performed using Illumina HiSeq platform.