About This Project

Sucralose, trade name Splenda®, is a widely used artificial sweetener derived from the natural sugar sucrose. Recent research has shown that consuming sucralose can lead to glucose intolerance and a reduction in beneficial gut bacteria in mice. Glucose intolerance has been linked to obesity and diabetes. This study examines whether chemical modifications cause the sweetener to interact with biomolecules differently, and in a way that may make consumption harmful to humans.

Ask the Scientists

What is the context of this research?

Sucralose is an artificial sweetener, derived through the chlorination of sugar, which is approved for use in over 80 countries. The use of artificial sweeteners is not positively correlated to weight loss, and may be linked to changes in insulin levels. In animal models sucralose has led to changes in glucose tolerance and alterations of beneficial gut bacteria. Given the synthetic nature of this molecule, it is not readily metabolized, and therefore it is unclear how the molecule interacts with the body or in the natural environment. These and other findings led the Center for Science in the Public Interest (CSPI) to downgrade the safety rating for sucralose in 2015. Our own results indicate that sucralose interacts strongly with biomolecules, and therefore merits further study.

What is the significance of this project?

It has been assumed that due to its limited bioavailability that sucralose is safe, however data is accumulating that sucralose interacts strongly with living systems and therefore deserves closer examination of its chemical and physical properties. Our work will provide data on sucralose's impact on cellular membrane structure and its electrostatic interactions with proteins. We will also assess the impact of sucralose on bacterial growths that are reflective of the human microbiota. This data will enable us to relate the maladies associated with sucralose consumption to a direct interaction in living systems. Our goal is to understand how sucralose interacts with biomolecules so we can isolate its effect on the digestive system and understand its interactions in the natural environment.

What are the goals of the project?

It has been demonstrated that sucralose alters protein stability and interacts strongly with bacterial membranes, we will further characterize sucralose-biomolecule interactions. In particular we will i) utilize a series of compounds (both sugars and other molecules) to complete an electrostatic analysis to quantify the origin of the protein destabilization; ii) complete our analysis of the impact of sucralose on bio-membrane structural organization ; iii) expand these studies to assess the same physical measurements on bacterial extracts; and iv) assess the impact of sucralose on bacterial growths that are reflective of the human microbiota. The proposed work will greatly expand knowledge of the nature of the chemical and physical interactions of sucralose with living systems.