They’re a marine delicacy loved across Asia, but the humble sea cucumber is also proving to be a key ingredient in preventing diabetes, according to new research from the University of South Australia.
Exploring the medicinal properties of sea cucumbers (Holothuria scabra), researchers found that processed dried sea cucumber with salt extracts can inhibit a compound that is associated with increased risk of diabetes, thereby reducing the likelihood of the disease.
To date, there is no commercially available therapeutic agent to inhibit the formation of this compound, called Advanced Glycation End product (AGE).
AGEs form when proteins and/or fats combine with sugars in the bloodstream. When accumulated in high levels, they increase diabetic complications, including heart disease, Alzheimer’s, Parkinson’s, kidney disease, and cancer.
Lead researcher, UniSA’s Dr Permal Deo, says understanding how the bioactive compounds in sea cucumbers can inhibit AGEs could protect against these diseases.
We know that an accumulation of AGEs is associated with complications of type 2 diabetes, so strategies to prevent this may reduce the risk of developing diabetic complications,” Dr Deo says.
“Biologically active novel compounds in medicinal plants and foods are potential therapeutic agents to prevent diabetic complications.
“Sea cucumbers are known to have a range of therapeutic properties, including anti-inflammatory and antioxidant properties, so we wanted to explore their bioactive compounds as AGE inhibitors.
“We found that processed dried sea cucumber with salt extracts and collagen can significantly inhibit AGEs by lowering a range of sugar related metabolites in the body and reducing the risk of diabetes.”
In Australia, almost 1.3 million people have type 2 diabetes. Globally, about 422 million people have diabetes, with 1.5 million deaths directly attributed to the disease each year.
“These results provide sound evidence that sea cucumbers could be developed as a functional food product to help battle the onset of diabetes and diabetic-complications.”
Notes to editors:
This research was conducted in collaboration with Fiji National University and the University of the Sunshine Coast.
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Media contact: Annabel Mansfield M: +61 479 182 489 E: Annabel.Mansfield@unisa.edu.au
Researcher: Dr Permal Deo E: Permal.Deo@unisa.edu.au
Method of Research
Experimental study
Subject of Research
Animal tissue samples
Article Title
Holothuria scabra Jaegar 1833 (Sandfish) extracts and collagens modulate protein-bound Nε-carboxymethyllysine, Nε-carboxyethyllysine and methylglyoxal-derived hydroimidazolone-1 levels
Article Publication Date
10-Feb-2023
COI Statement
The authors declare no conflict of interest.