Farewell to the “Bitter Aftertaste”: Artificial Sweeteners May Soon Taste Just Like Sugar
Popular artificial sweeteners such as saccharin and acesulfame potassium have long suffered from a major drawback: while they deliver an immediate burst of sweetness, they leave behind a lingering bitter aftertaste that limits consumer acceptance of low-calorie foods and beverages.
A new study published in FEBS Open Bio points to a promising solution. Researchers found that certain aromatic compounds can block the human bitter taste receptors activated by saccharin and similar sweeteners.
The Spearmint Secret
The most effective compound was R-carvone, a natural aroma component found in spearmint. Unlike menthol, R-carvone reduced the bitter response without adding the familiar “cooling” sensation associated with peppermint, making it more suitable for food and beverage applications.
Taste perception is mediated by families of receptors in taste bud cells. Bitterness is primarily linked to the TAS2R receptor family. Saccharin and related sweeteners bind to specific receptors in this family, producing the characteristic “bitter tail” after the initial sweet impression.
The study focused on suppressing two key receptors—TAS2R43 and TAS2R31—thereby preserving sweetness while minimizing bitterness.
Cell-Based Experiments
To test this, researchers engineered cultured cells to express human bitter taste receptors. When exposed to sweeteners, these cells generated measurable signals, such as changes in calcium levels or optical readouts. The addition of R-carvone significantly reduced these signals, confirming that it inhibited receptor activity at the molecular level.
Early but Promising Findings
Importantly, the approach is not limited to saccharin and acesulfame potassium. The authors suggest that R-carvone and similar inhibitors could be added to a wide range of diet products—from low-calorie iced tea and yogurt to light ice creams and ready-to-drink coffee—enhancing flavor acceptance without altering sweetness.
However, the researchers caution that these are still preliminary results. The experiments were conducted in vitro (on cells in the lab), not in human taste trials. Human sensory testing and regulatory approval will be essential before commercial use.
Moreover, experts stress that reducing bitterness does not eliminate broader health concerns linked to the overconsumption of artificial sweeteners, which many physicians warn may carry long-term risks.
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