Review

. 2012 Aug;97(8):2597-605.

doi: 10.1210/jc.2012-1475. Epub 2012 Jun 7.

Non-nutritive sweeteners and their role in the gastrointestinal tract

Rebecca J Brown¹, Kristina I Rother

Affiliations

PMID: 22679063
PMCID: PMC3410280
DOI: 10.1210/jc.2012-1475

Review

Non-nutritive sweeteners and their role in the gastrointestinal tract

Rebecca J Brown et al. J Clin Endocrinol Metab. 2012 Aug.

. 2012 Aug;97(8):2597-605.

doi: 10.1210/jc.2012-1475. Epub 2012 Jun 7.

Authors

Rebecca J Brown¹, Kristina I Rother

Affiliation

¹ National Institute of Diabetes and Digestive and Kidney Diseases, Bethesda, Maryland 20892-1645, USA. brownrebecca@mail.nih.gov

PMID: 22679063
PMCID: PMC3410280
DOI: 10.1210/jc.2012-1475

Abstract

Context: Non-nutritive sweeteners can bind to sweet-taste receptors present not only in the oral cavity, but also on enteroendocrine and pancreatic islet cells. Thus, these sweeteners may have biological activity by eliciting or inhibiting hormone secretion. Because consumption of non-nutritive sweeteners is common in the United States, understanding the physiological effects of these substances is of interest and importance.

Evidence acquisition: A PubMed (1960-2012) search was performed to identify articles examining the effects of non-nutritive sweeteners on gastrointestinal physiology and hormone secretion.

Evidence synthesis: The majority of in vitro studies showed that non-nutritive sweeteners can elicit secretion of gut hormones such as glucagon-like peptide 1 and glucose-dependent insulinotropic peptide in enteroendocrine or islet cells. In rodents, non-nutritive sweeteners increased the rate of intestinal glucose absorption, but did not alter gut hormone secretion in the absence of glucose. Most studies in humans have not detected effects of non-nutritive sweeteners on gut hormones or glucose absorption. Of eight human studies, one showed increased glucose-stimulated glucagon-like peptide 1 secretion after diet soda consumption, and one showed decreased glucagon secretion after stevia ingestion.

Conclusions: In humans, few studies have examined the hormonal effects of non-nutritive sweeteners, and inconsistent results have been reported, with the majority not recapitulating in vitro data. Further research is needed to determine whether non-nutritive sweeteners have physiologically significant biological activity in humans.

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Figures

**Fig. 1.**
A model of intestinal glucose absorption in the fasting or low luminal carbohydrate state (A) or after a high-carbohydrate meal, with or without non-nutritive sweeteners (B). In the low luminal carbohydrate state, glucose is largely transported from the gut lumen into the enterocyte via SGLT-1. Glucose may pass in a bidirectional manner between the enterocyte and the bloodstream via GLUT2 located on the basolateral membrane, depending on the plasma glucose concentration and the metabolic needs of the enterocyte. In the presence of high luminal carbohydrate, glucose binds to sweet-taste receptors on enteroendocrine L cells, initiating a signal transduction cascade that results in GLP-1 and GLP-2 release. GLP-2 may cause up-regulation of SGLT-1 via enteric neurons. GLP-1 may act in a paracrine manner on nearby enterocytes to up-regulate apical GLUT2. Non-nutritive sweeteners can also bind to enteroendocrine sweet-taste receptors, causing GLP-1 release (*in vitro*) and increased intestinal glucose uptake (in rodents).

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Non-nutritive sweeteners and their role in the gastrointestinal tract

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