Adipokinetic hormone counteracts oxidative stress elicited in insects by hydrogen peroxide: in vivo and in vitro study
Citations Over TimeTop 17% of 2013 papers
Abstract
The role of adipokinetic hormone ( AKH ) in counteracting oxidative stress elicited in the insect body is studied in response to exogenously applied hydrogen peroxide, an important metabolite of oxidative processes. In vivo experiments reveal that the injection of hydrogen peroxide (8 µmol) into the haemocoel of the firebug, Pyrrhocoris apterus L . (Heteroptera: Pyrrhocoridae) increases the level of AKH by 2.8‐fold in the central nervous system ( CNS ) and by 3.8‐fold in the haemolymph. The injection of hydrogen peroxide also increases the mortality of experimental insects, whereas co‐injection of hydrogen peroxide with P yrap‐ AKH (40 pmol) reduces mortality to almost control levels. Importantly, an increase in haemolymph protein carbonyl levels (i.e. an oxidative stress biomarker) elicited by hydrogen peroxide is decreased by 3.6‐fold to control levels when hydrogen peroxide is co‐injected with P yrap‐ AKH . Similar results are obtained using in vitro experiments. Oxidative stress biomarkers such as malondialdehyde and protein carbonyls are significantly enhanced upon exposure of the isolated CNS to hydrogen peroxide in vitro , whereas co‐treatment of the CNS with hydrogen peroxide and P yrap‐ AKH reduces levels significantly. Moreover, a marked decrease in catalase activity compared with controls is recorded when the CNS is incubated with hydrogen peroxide. Incubation of the CNS with hydrogen peroxide and P yrap‐ AKH together curbs the negative effect on catalase activity. Taken together, the results of the present study provide strong support for the recently published data on the feedback regulation between oxidative stressors and AKH action, and implicate AKH in counteracting oxidative stress. The in vitro experiments should facilitate research on the mode of action of AKH in relation to oxidative stress, and could help clarify the key pathways involved in this process.
Related Papers
- → Adipokinetic Hormone and Flight Fuel Related Characteristics of Density-Dependent Locust Phase Polymorphism: A Review(1997)37 cited
- → Locust adipokinetic hormone stimulates lipid mobilization in Manduca sexta(1983)104 cited
- → Adipokinetic hormone-induced lipid mobilization and cyclic AMP accumulation in the fat body of Locusta migratoria during development(1977)62 cited
- → Release of identified adipokinetic hormones during flight and following neural stimulation in Locusta migratoria(1983)65 cited
- → Adipokinetic response of a flightless grasshopper (Barytettix psolus): Functional components, defective response(1988)31 cited