The ectoparasitoid wasp, Nasonia vitripennis can enhance its cold tolerance by exploiting a maternally-induced larval diapause. A simple manipulation of the fly host diapause status and supplementation of the host diet with proline also dramatically increase cold tolerance in the parasitoid. In this study, we used a metabolomics approach to define alterations in metabolite profiles of N. vitripennis caused by diapause in the parasitoid, diapause of the host, and augmentation of the host's diet with proline. Metabolic profiles of diapausing and nondiapausing parasitoid were significantly differentiated, with pronounced distinctions in levels of multiple cryoprotectants, amino acids, and carbohydrates. The dynamic nature of diapause was underscored by a shift in the wasp's metabolomic profile as the duration of diapause increased, a feature especially evident for increased concentrations of a suite of cryoprotectants. Metabolic pathways involved in amino acid and carbohydrate metabolism were distinctly enriched during diapause in the parasitoid. Host diapause status also elicited a pronounced effect on metabolic signatures of the parasitoid, noted by higher cryoprotectants and elevated compounds derived from glycolysis. Proline supplementation of the host diet did not translate directly into elevated proline in the parasitoid but resulted in an alteration in the abundance of many other metabolites, including elevated concentrations of essential amino acids, and reduction in metabolites linked to energy utilization, lipid and amino acid metabolism. Thus, the enhanced cold tolerance of N. vitripennis associated with proline augmentation of the host diet appears to be an indirect effect caused by the metabolic perturbations associated with diet supplementation.

Departments of Entomology and Evolution Ecology and Organismal Biology Ohio State University Columbus OH 43210 USA

Institute of Entomology Biology Centre of the Czech Academy of Sciences Ceske Budejovice Czech Republic

Key Laboratory of Integrated Pest Management in Crops Ministry of Agriculture Institute of Plant Protection Chinese Academy of Agricultural Sciences Beijing 100081 PR China

Key Laboratory of Integrated Pest Management in Crops Ministry of Agriculture Institute of Plant Protection Chinese Academy of Agricultural Sciences Beijing 100081 PR China; Departments of Entomology and Evolution Ecology and Organismal Biology Ohio State University Columbus OH 43210 USA

Citace poskytuje Crossref.org

Insect cross-tolerance to freezing and drought stress: role of metabolic rearrangement

Cryoprotective Metabolites Are Sourced from Both External Diet and Internal Macromolecular Reserves during Metabolic Reprogramming for Freeze Tolerance in Drosophilid Fly, Chymomyza costata

Evidence for non-colligative function of small cryoprotectants in a freeze-tolerant insect