Parental dietary sucrose affects metabolic and antioxidant enzyme activities in Drosophila

ABSTRACT The influence of parental nutrition as a key environmental factor that can influence offspring performance has become a hot topic for modern investigations. In the current study using fruit flies, Drosophila melanogaster, we found the sucrose concentration of the diet in the parental genera...

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Published in:Entomological science 2021-09, Vol.24 (3), p.270-280
Main Authors: Strilbytska, Olha M., Strutynska, Tetiana R., Semaniuk, Uliana V., Burdyliuk, Nadia I., Storey, Kenneth B., Lushchak, Oleh V.
Format: Article
Language:English
Subjects:
Alanine
Alanine transaminase
Antioxidants
carbohydrate
Carbohydrates
Dehydrogenase
Dehydrogenases
Diet
Drosophila
Entomology
Environmental factors
Enzymatic activity
Enzyme activity
Enzymes
Fruit flies
Glutathione
Insects
Isocitrate dehydrogenase
L-Lactate dehydrogenase
Lactate
Lactate dehydrogenase
Lactic acid
Low carbohydrate diet
Low concentrations
Malate dehydrogenase
Males
Metabolic pathways
Metabolism
Nutrient deficiency
Nutrition
Offspring
parents
Phosphates
Progeny
Protein thiols
Sucrose
Thiols
Transaminase
Urea
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Summary:ABSTRACT The influence of parental nutrition as a key environmental factor that can influence offspring performance has become a hot topic for modern investigations. In the current study using fruit flies, Drosophila melanogaster, we found the sucrose concentration of the diet in the parental generation had a significant influence on the metabolism and antioxidant defense of the next generation, even when that subsequent generation had been shifted to a standard diet. We found that low concentrations of dietary carbohydrate in the parental generation led to higher activities of lactate dehydrogenase, malate dehydrogenase (MDH) and alanine transaminase (ALT) enzymes and increased urea content in their progeny. Moreover, higher activities of the first‐ and second‐line antioxidant defense enzymes were detected in F1 males generated from parents fed a low‐carbohydrate diet. Low sucrose concentration in the parental diet resulted in increased levels of protein thiols but decreased the low‐molecular‐weight thiol group content in F1 males. The influence of different dietary sucrose concentrations also resulted in sex‐dependent differences, where MDH, ALT, glutathione‐S‐transferase, glucose‐6‐phosphate dehydrogenase and isocitrate dehydrogenase activities and levels of thiol groups were unaffected in F1 females. The results highlight the transgenerational influence that specific dietary macronutrients provided in the parental diet, namely carbohydrates, can have on the next generation, influencing enzyme activities, metabolic pathways and antioxidant defenses in progeny Drosophila. In the current study using fruit flies, Drosophila melanogaster, we found the sucrose concentration of the diet in the parental generation had a significant influence on the metabolism and oxidative stress responses of the next generation, even when that subsequent generation had been shifted to a standard diet. We found that low concentrations of dietary carbohydrate in the parental generation led to higher activities of lactate dehydrogenase, malate dehydrogenase and alanine transaminase enzymes and increased urea content in their progeny. Moreover, higher activities of the first‐ and second‐line antioxidant defense enzymes were detected in F1 males generated from parents fed a low‐carbohydrate diet.
ISSN:1343-8786
1479-8298
DOI:10.1111/ens.12479