Parental dietary nutrients epigenetically influence offspring metabolism. Our analysis revealed unforeseen patterns in how enzymes of the main metabolic pathways respond to protein content in the diet. We reared parental flies Drosophila melanogaster on four types of diet with different dry yeast concentrations ranging from 0.25% to 15%. the subsequent generation was fed by the same diet, so the only variable in the experiments was the yeast concentration in the parental diet. We showed that protein restriction in the parental diet led to higher lactate dehydrogenase (LDH) activity in parents, and this effect was inherited in their progeny. The transgenerational effect of parental dietary yeast on malate dehydrogenase (MDH) activity was found only in males. An elevated level of dietary yeast was sufficient to enhance alanine transaminase ( ALT) and aspartate transaminase (AST) activity in parents, however, did not affect ALT activity and decreased AST in their offspring. A low yeast parental diet was shown to cause higher urea content in F1 males. It is concluded that parental dietary yeast plays a critical role in metabolic health that can be inherited through generation.
Aim. To investigate how starvation during early stage of fly development affects carbohydrate metabolism in imago flies and their progeny of F1 generation. Methods. Wild-type Canton-S strain Drosophila melanogaster flies were used in all experiments. Flies of parental and offspring generations were used for the determination of glycogen and glucose content using the diagnostic kit Glucose-Mono-400-P according to the manufacturer's instructions. Results represent as the mean ± SEM of 3-4 replicates per group. According Student's t-test significant difference between groups was P<0.05. Graphing and statistical analysis were performed by using GraphPad Prism. Results. Starvation during development significantly influenced the level of hemolymph and body glucose in imago flies of parental generation. Hemolymph glucose concentration was lower by 34% (P=0.008) and 32% (P=0.033) in experimental females and males, respectively, as compared to control groups. Starvation during development led to lower level of body glucose in adult parental flies of both sexes. Adult males F1, generated by parents that were starved during development, showed 3-fold lower glycogen content, as compared to control. Conclusions. Starvation at early stage of development led to lower hemolymph glucose and body glucose level in imago flies. Moreover, parental starvation decreased glycogen pool in F1 males.
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