Transcriptomics reveals specific molecular mechanisms underlying transgenerational immunity in Manduca sexta.
Charles L RoeselRebeca B RosengausWendy SmithSteven V VollmerPublished in: Ecology and evolution (2020)
The traditional view of innate immunity in insects is that every exposure to a pathogen triggers an identical and appropriate immune response and that prior exposures to pathogens do not confer any protective (i.e., adaptive) effect against subsequent exposure to the same pathogen. This view has been challenged by experiments demonstrating that encounters with sublethal doses of a pathogen can prime the insect's immune system and, thus, have protective effects against future lethal doses. Immune priming has been reported across several insect species, including the red flour beetle, the honeycomb moth, the bumblebee, and the European honeybee, among others. Immune priming can also be transgenerational where the parent's pathogenic history influences the immune response of its offspring. Phenotypic evidence of transgenerational immune priming (TGIP) exists in the tobacco moth Manduca sexta where first-instar progeny of mothers injected with the bacterium Serratia marcescens exhibited a significant increase of in vivo bacterial clearance. To identify the gene expression changes underlying TGIP in M. sexta, we performed transcriptome-wide, transgenerational differential gene expression analysis on mothers and their offspring after mothers were exposed to S. marcescens. We are the first to perform transcriptome-wide analysis of the gene expression changes associated with TGIP in this ecologically relevant model organism. We show that maternal exposure to both heat-killed and live S. marcescens has strong and significant transgenerational impacts on gene expression patterns in their offspring, including upregulation of peptidoglycan recognition protein, toll-like receptor 9, and the antimicrobial peptide cecropin.
Keyphrases
- gene expression
- toll like receptor
- immune response
- dna methylation
- high fat diet
- single cell
- nuclear factor
- inflammatory response
- genome wide
- candida albicans
- rna seq
- type diabetes
- signaling pathway
- poor prognosis
- air pollution
- adipose tissue
- cell proliferation
- small molecule
- copy number
- skeletal muscle
- zika virus
- antimicrobial resistance
- metabolic syndrome
- cell wall
- weight gain