The objective of this study was to determine whether single nucleotide polymorphisms (SNPs) in the SCNN1A (3), SCNN1B (12), SCNN1G (6), and TRPV1 (10) genes affect salt taste perception. Participants were men (n = 28) and women (n = 67) from the Toronto Nutrigenomics and Health study aged 21-31 years. Taste thresholds were determined using a 3-alternative forced-choice staircase model with solutions ranging from 9×10(-6) to 0.5 mol/L. Suprathreshold taste sensitivity to 0.01-1.0 mol/L salt solutions was assessed using general labeled magnitude scales. None of the SNPs in the SCNN1A and SCNN1G genes were significantly associated with either outcome. In the SCNN1B gene, 2 SNPs in intronic regions of the gene modified suprathreshold taste sensitivity (mean iAUC ± SE). Those homozygous for the A allele of the rs239345 (A>T) polymorphism and the T allele of the rs3785368 (C>T) polymorphism perceived salt solutions less intensely than carriers of the T or C alleles, respectively (rs239345: 70.82±12.16 vs. 96.95±3.75, P = 0.02; rs3785368: 57.43±19.85 vs. 95.57±3.66, P = 0.03) In the TRPV1 gene, the rs8065080 (C>T, Val585Ile) polymorphism modified suprathreshold taste sensitivity where carriers of the T allele were significantly more sensitive to salt solutions than the CC genotype (98.3±3.8 vs. 74.1±8.3, P = 0.008). Our findings show that variation in the TRPV1 and the SCNN1B genes may modify salt taste perception in humans.
Background/Aims: To determine whether variation in the TAS1R2 gene affects sucrose taste perception and sugar intake. Methods: Participants were men (n = 238) and women (n = 458) aged 20-29 years. A subset (n = 95) with body mass index (BMI) data available completed a sensory analysis study. A food frequency questionnaire assessed dietary intake, and eight polymorphisms were genotyped (rs12033832, rs12137730, rs35874116, rs3935570, rs4920564, rs4920566, rs7513755 and rs9701796). Sucrose taste thresholds were determined by staircase procedure (solutions: 9 × 10-6 to 0.5 mol/l). Suprathreshold sensitivity to 0.01-1.0 mol/l sucrose solutions was assessed using general Labeled Magnitude Scales. Results: A significant genotype-BMI interaction was observed for rs12033832 (G>A) for suprathreshold sensitivity (p = 0.01) and sugar intake (p = 0.003). Among participants with a BMI ≥25, G allele carriers had lower sensitivity ratings (mean incremental area under the taste sensitivity curve ± SE; GG/GA 54.4 ± 4.1 vs. AA 178.5 ± 66.6; p = 0.006), higher thresholds (GG/GA 9.3 ± 1.1 vs. AA 4.4 ± 4.3 mmol/l; p = 0.004) and consumed more sugars (GG/GA 130 ± 4 vs. AA 94 ± 13 g/day; p = 0.009). G allele carriers with a BMI <25 had lower thresholds (GG/GA 8.6 ± 0.5 vs. AA 16.7 ± 5.7 mmol/l; p = 0.02) and consumed less sugars (GG/GA 122 ± 2 vs. AA 145 ± 8 g/day; p = 0.004). Conclusion: The rs12033832 single nucleotide polymorphism in TAS1R2 is associated with sucrose taste and sugar intake, but the effect differs depending on BMI.
Widespread vitamin D insufficiency worldwide and increased vitamin D intake recommendations from the Institute of medicine (IOM) emphasize a need to expand vitamin D fortification practices. IOM's 2011 report almost tripled the dietary guidelines for vitamin D: from 200 IU up to 600 IU daily. Vitamin D fortification practices vary and are largely voluntary in Canada and the US. Vitamin D‐fortified cheddar cheese using emulsified vitamin D3 was found to have comparable bioavailability of vitamin D with liquid supplement. Our objectives are to establish a new protocol for vitamin D fortification via incorporation of vitamin D in casein; and to evaluate the effect of baking on bioavailability. Vitamin D3 retention in lab‐scale mozzarella cheese was 54% and the loss of vitamin D3 into the whey was 1.6%. The remaining vitamin D3 was lost during mozzarella cheese processing. Large‐scale mozzarella cheese fortified with vitamin D3 will be used to cook pizza that will be consumed by study participants. Approximately 120 subjects will be randomized to weekly servings of pizza baked with fortified mozzarella cheese either at 200 IU/serving or 28,000 IU/serving. Vitamin D levels will be compared between groups. Vitamin D fortification of cheese is a good strategy to increase intakes and may benefit public health as well as dairy industry practices.Grant Funding Source: Dairy Farmers of Canada
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