Abstract
Food crises caused by growing global population or environmental changes are predicted in the near future; therefore, sustainable solutions are needed. Edible insects, which are rich in protein and can save feed and environmental resources, have the potential to be a sustainable alternative protein source. However, there is limited evidence on the impact on health. In this study, we investigated the biological effects of ingesting bee larva by examining their effects on amino acid, lipid, and glucose metabolism in animal models. In our animal experiments, the replacement of casein as a protein source, with edible insects, did not seem to cause any deficiency in murine amino acid levels in the plasma and liver. Metabolomic analysis of plasma metabolites showed decreased 3-methylhistidine and increased nicotinamide in the bee larva-derived protein-fed mice. Decreased levels of plasma 3-metylhistidine, an indicator of muscle degradation, implies that replacement to bee-larva protein from casein did not cause muscle degradation in vivo. We further investigated effects of increased plasma nicotinamide on peripheral tissue and found an increase in expression levels of genes involved in glucose uptake in muscle and thermogenesis in adipose tissue. These data imply that bee larva is a potential sustainable, safe and healthy alternative protein source.
Highlights
IntroductionProtein is an essential nutrient for living organisms and is involved in a wide range of metabolic activities [1]
We found that plasma nicotinamide was significantly increased in mice fed 30% bee compared with those fed 30% casein (p = 0.021) (Figure 5a), and enrichment analysis using whole plasma metabolite consistently enhanced the nicotinamide pathway (Figure 3c)
Previous studies have shown that changing the protein source can cause changes in energy metabolism [22,23,24,25,26]
Summary
Protein is an essential nutrient for living organisms and is involved in a wide range of metabolic activities [1]. The global population is expected to reach 10 billion by 2050, and protein production to meet this demand sufficiently has become a global issue [2]. Food production is one of the largest causes leading to detrimental global environmental changes [2]. Food production uses 40% of global land [3], is responsible for. 30% of global greenhouse-gas emissions [4] and uses 70% of fresh water [5,6]. It has become important to find sustainable and healthy alternative protein sources [7,8]
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