Metabolic Effects of the Sweet Protein MNEI as a Sweetener in Drinking Water. A Pilot Study of a High Fat Dietary Regimen in a Rodent Model.
Rosa CancelliereSerena LeoneCristina GattoArianna MazzoliCarmine ErcoleSusanna IossaGiovanna LiveriniDelia PiconeRaffaella CrescenzoPublished in: Nutrients (2019)
Sweeteners have become integrating components of the typical western diet, in response to the spreading of sugar-related pathologies (diabetes, obesity and metabolic syndrome) that have stemmed from the adoption of unbalanced dietary habits. Sweet proteins are a relatively unstudied class of sweet compounds that could serve as innovative sweeteners, but their introduction on the food market has been delayed by some factors, among which is the lack of thorough metabolic and toxicological studies. We have tried to shed light on the potential of a sweet protein, MNEI, as a fructose substitute in beverages in a typical western diet, by studying the metabolic consequences of its consumption on a Wistar rat model of high fat diet-induced obesity. In particular, we investigated the lipid profile, insulin sensitivity and other indicators of metabolic syndrome. We also evaluated systemic inflammation and potential colon damage. MNEI consumption rescued the metabolic derangement elicited by the intake of fructose, namely insulin resistance, altered plasma lipid profile, colon inflammation and translocation of lipopolysaccharides from the gut lumen into the circulatory system. We concluded that MNEI could represent a valid alternative to fructose, particularly when concomitant metabolic disorders such as diabetes and/or glucose intolerance are present.
Keyphrases
- insulin resistance
- metabolic syndrome
- high fat diet induced
- type diabetes
- drinking water
- weight loss
- adipose tissue
- high fat diet
- oxidative stress
- glycemic control
- skeletal muscle
- cardiovascular disease
- physical activity
- polycystic ovary syndrome
- uric acid
- weight gain
- south africa
- risk assessment
- mass spectrometry
- cardiovascular risk factors
- protein protein
- health risk
- blood glucose
- small molecule
- drug induced
- climate change