Tenebrio molitor (Mealworm) protein as a sustainable dietary strategy to improve health span in D-galactose-induced aged mice

Aging is an irreversible and continuous biological process involving intricate and interconnected mechanisms. The present work is focused on unravelling the anti-aging mechanisms of mealworm protein and protein-enriched fruit bar and vegetable soup in D-galactose-induced aged mice. Mealworm protein and enriched products significantly enhanced body weight, organ indices, and gut health. Behavioral assessments reflected enhanced neuroprotective effects. Mealworm protein and its enriched products demonstrated protective effects through anti-inflammatory activity with the highest reduction of TNFα (17.1 %), IL-6 (55.5 %), and IL-1β (75.1 %) levels and upregulated the anti-inflammatory marker (IL-4). Gene expression studies confirmed the induction of anti-aging effects by promoting metabolism, reducing cellular senescence, and enhancing anti-oxidant enzyme activity. The treatments extended telomere lengths by 3-4 times, further affirming the potential anti-aging efficacy of mealworm protein and its enriched products. Mealworm protein demonstrated positive effects on weight gain, anti-inflammatory responses, and telomere length; while fruit and vegetable products enhanced antioxidant activity, and positively influenced gut health. Further, a synergistic effect was observed by combining them, which resulted in improved overall anti-aging effect. The present work provides valuable insights into the multifaceted anti-aging mechanisms associated with mealworm protein and enriched products, highlighting their potential as functional foods with significant health-promoting effects.