Natural treatment based on flour made with mealworms prevents diabetes

Natural treatment based on flour made with mealworms prevents diabetes
Tenebrio molitor (commonly known as the mealworm) used in this study. Credit: University of Granada

Scientists from the Bioreactors Research Group (BIO-110) of the University of Granada (UGR) have demonstrated that a natural treatment based on flour made from the insect Tenebrio molitor (more commonly known as the mealworm) can help prevent Type II diabetes mellitus.

The researchers successfully obtained and identified (molecules comprising one or more amino acids linked by chemical bonds) that can exert a preventive effect against diabetes from the protein fraction of the insect Tenebrio molitor.

The substrate used was flour from the insect which was donated by the Salamanca-based company Tebrio, a pioneering company in the breeding of insects on an industrial scale in Europe. Insect production is more sustainable and economical than other means of obtaining and the nutritional value of this source is of interest for its use in human foodstuffs.

Type II is one of the most prevalent diseases in the world today, with more than 400 million people affected. The World Health Organization estimates that it was the seventh most-prevalent cause of death in 2016 and that 700 million people may affected by this disease by 2045. The solutions currently applied in its treatment are or the oral administration of various drugs that act by inhibiting enzymes such as DPP-IV or glucosidase, or hormone analogs involved in the restoration of insulin activity—a defining characteristic of this disease. However, these options often produce unwanted side-effects in humans.

Antidiabetic effect

The potential use of peptides derived from dietary proteins with the ability to inhibit these enzymes, thereby generating an antidiabetic effect in the patient, is now being actively investigated. Its advantage over current treatments is the absence of side-effects and the relative ease with which these peptides can be obtained using natural protein resources. There are in vivo studies with milk and marine proteins, for example, that show them to be a feasible alternative for use as active ingredients in functional food.

The study carried out at the UGR focused on obtaining peptides with an antidiabetic capacity and involved optimizing the release of peptides contained in the protein of Tenebrio molitor by means of enzymatic processes. The scientists successfully obtained insect protein hydrolysates with bioactivity values comparable to traditional sources, pointing to the possibility of encouraging the production of this type of product from this sustainable source. Seven inhibitor peptides of the DPP-IV enzyme were identified, with a mean length of 5 amino acids, and six inhibitor peptides of the glucosidase enzyme, with a mean length of between 2 and 4 .

The use of insects in functional food is—and will continue to be—a highly-relevant research topic as it offers a potential solution to various challenges that we currently face in society, conclude the UGR researchers.

Nanoenzymes designed with a unique combination of structure and functions

More information:
Fernando Rivero-Pino et al. Antidiabetic Food-Derived Peptides for Functional Feeding: Production, Functionality and In Vivo Evidences, Foods (2020). DOI: 10.3390/foods9080983

Fernando Rivero-Pino et al. Effect of ultrasound pretreatment and sequential hydrolysis on the production of Tenebrio molitor antidiabetic peptides, Food and Bioproducts Processing (2020). DOI: 10.1016/j.fbp.2020.07.003

Fernando Rivero Pino et al. Evaluation of Tenebrio molitor protein as a source of peptides for modulating physiological processes, Food & Function (2020). DOI: 10.1039/D0FO00734J

Fernando Rivero-Pino et al. Identification of novel dipeptidyl peptidase IV and α-glucosidase inhibitory peptides from Tenebrio molitor, Food & Function (2020). DOI: 10.1039/D0FO02696D

Natural treatment based on flour made with mealworms prevents diabetes (2021, April 14)
retrieved 14 April 2021

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