Assessing the impact of insect protein sources on intestinal health and disease: insights from human ex vivo and rat in vivo models.
Helena SegúFlorijan JalševacMarta Sierra-CruzFrancesc FeliuJamileh MovassatEsther Rodríguez-GallegoXimena TerraMontserrat PinentAnna ArdévolMaria Teresa BlayPublished in: Food & function (2024)
The exploration of edible insects, specifically Alphitobius diaperinus and Tenebrio molitor , as sustainable sources of protein for human consumption is an emerging field. However, research into their effects on intestinal health, especially in relation to inflammation and permeability, remains limited. Using ex vivo and in vivo models of intestinal health and disease, in this study we assess the impact of the above insects on intestinal function by focusing on inflammation, barrier dysfunction and morphological changes. Initially, human intestinal explants were exposed to in vitro -digested extracts of these insects, almond and beef. Immune secretome analysis showed that the inflammatory response to insect-treated samples was comparatively lower than it was for samples exposed to almond and beef. Animal studies using yellow mealworm ( Tenebrio molitor ) and buffalo ( Alphitobius diaperinus ) flours were then used to evaluate their safety in healthy rats and LPS-induced intestinal dysfunction rats. Chronic administration of these insect-derived flours showed no adverse effects on behavior, metabolism, intestinal morphology or immune response (such as inflammation or allergy markers) in healthy Wistar rats. Notably, in rats subjected to proinflammatory LPS-induced intestinal dysfunction, T. molitor consumption did not exacerbate symptoms, nor did it increase allergic responses. These findings validate the safety of these edible insects under healthy conditions, demonstrate their innocuity in a model of intestinal dysfunction, and underscore their promise as sustainable and nutritionally valuable dietary protein sources.
Keyphrases
- oxidative stress
- lps induced
- endothelial cells
- healthcare
- immune response
- public health
- inflammatory response
- emergency department
- mental health
- health information
- induced pluripotent stem cells
- risk assessment
- protein protein
- dendritic cells
- small molecule
- binding protein
- physical activity
- social media
- human health
- sleep quality
- pluripotent stem cells
- aedes aegypti
- amino acid
- newly diagnosed
- heavy metals
- artificial intelligence
- anaerobic digestion