Your search keyword '"Taste Receptors, Type 2"' showing total 26 results

1. Differential Activation of TAS2R4 May Recover Ability to Taste Propylthiouracil for Some TAS2R38 AVI Homozygotes.

Author

Nolden AA, Behrens M, McGeary JE, Meyerhof W, and Hayes JE

Subjects

Adult, Female, Humans, Male, Young Adult, Homozygote, Taste Threshold genetics, Taste Receptors, Type 2, Haplotypes, Polymorphism, Single Nucleotide, Propylthiouracil, Receptors, G-Protein-Coupled genetics, Receptors, G-Protein-Coupled metabolism, Taste genetics

Abstract

Bitterness from phenylthiocarbamide and 6-n-propylthiouracil (PROP) varies with polymorphisms in the TAS2R38 gene. Three SNPs form two common (AVI, PAV) and four rare haplotypes (AAI, AAV, PVI, and PAI). AVI homozygotes exhibit higher detection thresholds and lower suprathreshold bitterness for PROP compared to PAV homozygotes and heterozygotes, and these differences may influence alcohol and vegetable intake. Within a diplotype, substantial variation in suprathreshold bitterness persists, and some AVI homozygotes report moderate bitterness at high concentrations. A second receptor encoded by a gene containing a functional polymorphism may explain this. Early work has suggested that PROP might activate TAS2R4 in vitro, but later work did not replicate this. Here, we identify three TAS2R4 SNPs that result in three diplotypes-SLN/SLN, FVS/SLN, and FVS/FVS-which make up 25.1%, 44.9%, and 23.9% of our sample. These TAS2R4 haplotypes show minimal linkage disequilibrium with TAS2R38, so we examined the suprathreshold bitterness as a function of both. The participants ( n = 243) rated five PROP concentrations in duplicate, interleaved with other stimuli. As expected, the TAS2R38 haplotypes explained ~29% ( p < 0.0001) of the variation in the bitterness ratings, with substantial variation within the haplotypes (AVI/AVI, PAV/AVI, and PAV/PAV). Notably, the TAS2R4 diplotypes (independent of the TAS2R38 haplotypes) explained ~7-8% of the variation in the bitterness ratings ( p = 0.0001). Given this, we revisited if PROP could activate heterologously expressed TAS2R4 in HEK293T cells, and calcium imaging indicated 3 mM PROP is a weak TAS2R4 agonist. In sum, our data are consistent with the second receptor hypothesis and may explain the recovery of the PROP tasting phenotype in some AVI homozygotes; further, this finding may potentially help explain the conflicting results on the TAS2R38 diplotype and food intake.

Published

2024

2. Automated Classification of 6-n-Propylthiouracil Taster Status with Machine Learning.

Author

Naciri LC, Mastinu M, Crnjar R, Tomassini Barbarossa I, and Melis M

Subjects

Adult, Female, Genotype, Health, Humans, Male, Polymorphism, Single Nucleotide, Principal Component Analysis, ROC Curve, Receptors, G-Protein-Coupled genetics, Supervised Machine Learning, Taste genetics, Taste Buds physiology, Taste Perception, Young Adult, Taste Receptors, Type 2, Food Preferences classification, Food Preferences physiology, Nutritional Status, Propylthiouracil, Taste physiology, Taste Buds anatomy & histology

Abstract

Several studies have used taste sensitivity to 6-n-propylthiouracil (PROP) to evaluate interindividual taste variability and its impact on food preferences, nutrition, and health. We used a supervised learning (SL) approach for the automatic identification of the PROP taster categories (super taster (ST); medium taster (MT); and non-taster (NT)) of 84 subjects (aged 18-40 years). Biological features determined from subjects were included for the training system. Results showed that SL enables the automatic identification of objective PROP taster status, with high precision (97%). The biological features were classified in order of importance in facilitating learning and as prediction factors. The ratings of perceived taste intensity for PROP paper disks (50 mM) and PROP solution (3.2 mM), along with fungiform papilla density, were the most important features, and high estimated values pushed toward ST prediction, while low values leaned toward NT prediction. Furthermore, TAS2R38 genotypes were significant features (AVI/AVI, PAV/PAV, and PAV/AVI to classify NTs, STs, and MTs, respectively). These results, in showing that the SL approach enables an automatic, immediate, scalable, and high-precision classification of PROP taster status, suggest that it may represent an objective and reliable tool in taste physiology studies, with applications ranging from basic science and medicine to food sciences.

Published

2022

3. Predominant Qualities Evoked by Quinine, Sucrose, and Capsaicin Associate With PROP Bitterness, but not TAS2R38 Genotype.

Author

Nolden AA, McGeary JE, and Hayes JE

Subjects

Adolescent, Adult, Aversive Agents pharmacology, Genotype, Humans, Middle Aged, Phenotype, Polymorphism, Single Nucleotide, Psychophysics, Quinine administration & dosage, Taste drug effects, Young Adult, Taste Receptors, Type 2, Aversive Agents chemistry, Capsaicin chemistry, Propylthiouracil chemistry, Quinine chemistry, Receptors, G-Protein-Coupled genetics, Sucrose chemistry, Taste physiology

Abstract

Genetic variability in the ability to taste thiourea compounds has been studied for 80+ years. Over the last 3 decades, many studies have reported perceived intensity of concentrated propylthiouracil (PROP) associates with greater intensity from a broad range of stimuli, including nonbitter tastants, irritants, and retronasally delivered odorants. Thus, PROP phenotype has become a common measure of individual differences in orosensation. Much, but not all, of the phenotypic variation in PROP bitterness is explained by TAS2R38 polymorphisms. While differences in PROP bitterness are clearly due to genetic variation, mechanistically it is challenging to envision how this receptor (narrowly tuned to the N-C=S moiety) relates to overall orosensory response. Here, we report data for 200+ individuals who had been genotyped for TAS2R38 and phenotyped for PROP in a laboratory setting. Participants also reported the intensity of quinine, capsaicin, and sucrose on a general Labeled Magnitude Scale. Our data recapitulate earlier reports associating PROP bitterness with the intensity of the predominant qualities of sucrose, quinine, and capsaicin; however, we also find correlations between the intensities of sucrose, quinine, and capsaicin were much stronger with each other than with PROP. As expected, TAS2R38 diplotype did not associate with the intensity of sucrose, quinine, or capsaicin. The strength of PROP-capsaicin and PROP-sucrose relationships increased after grouping participants by TAS2R38 diplotype, with the greatest increases in association observed within homozygotes. Collectively, this suggests the suprathreshold intensity of PROP is a confounded phenotype that captures both genetic variation specific to N-C=S compounds and overall orosensation., (© The Author(s) 2020. Published by Oxford University Press. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published

2020

4. Self-reported Smoking Status, TAS2R38 Variants, and Propylthiouracil Phenotype: An Exploratory Crowdsourced Cohort Study.

Author

Baker AN, Miranda AM, Garneau NL, and Hayes JE

Subjects

Adolescent, Adult, Aged, Aged, 80 and over, Cohort Studies, Cross-Sectional Studies, Female, Humans, Male, Middle Aged, Phenotype, Polymorphism, Single Nucleotide, Young Adult, Taste Receptors, Type 2, Crowdsourcing, Propylthiouracil pharmacology, Receptors, G-Protein-Coupled genetics, Self Report, Smoking

Abstract

TAS2R38 gene variants, which confer sensitivity to specific bitter tastants (e.g., 6-n-propylthiouracil), have been repeatedly associated with lower alcohol use via greater bitterness perception, but research exploring TAS2R38 variation in relation to smoking shows mixed results. In both, the working hypothesis is that 1 or more copies of the functional allele increases bitterness and may provide a barrier to early use. Such a barrier to initiation may, conceivably, manifest as differential rates of current use across diplotypes. Here, an age-diverse convenience sample (n = 886) of Denver Museum of Nature and Science guests was used to explore cross-sectional relationships between TAS2R38 diplotype, self-reported tobacco use (current, former, never smokers), and a rapid measure of 6-n-propylthiouracil phenotype (bitterness of filter paper discs). TAS2R38 diplotypes were determined by Sanger sequencing. After excluding rare diplotypes, data from 814 participants were analyzed. A mix of current (~10%), former (25%), and never smokers (65%) were included. As expected, there was a relationship between TAS2R38 diplotype and 6-n-propylthiouracil bitterness. However, contrary to our hypothesis, there was no evidence of a relationship between diplotype and smoker status among participants with common TAS2R38 diplotypes. Notably, we observed a relationship between of 6-n-propylthiouracil bitterness and smoking status, but the effect was opposite of what was expected: current smokers perceived higher (not lower) bitterness than never smokers. When all the various factors (diplotype, age, sex, and smoking status) were included in ANOVA, all remained predictive of 6-n-propylthiouracil bitterness. Reasons for greater phenotypic bitterness among current smokers are unknown and merit further study.

Published

2018

5. Effect of chemical interaction between oleic acid and L-Arginine on oral perception, as a function of polymorphisms of CD36 and OBPIIa and genetic ability to taste 6-n-propylthiouracil.

Author

Melis M, Mastinu M, Arca M, Crnjar R, and Tomassini Barbarossa I

Subjects

Adult, Drug Interactions, Female, Humans, Male, Quantitative Trait Loci genetics, Receptors, G-Protein-Coupled genetics, Taste Buds metabolism, Taste Perception drug effects, Young Adult, Taste Receptors, Type 2, Arginine pharmacology, CD36 Antigens genetics, Lipocalins genetics, Oleic Acid pharmacology, Polymorphism, Single Nucleotide, Propylthiouracil pharmacology, Taste drug effects, Taste Perception genetics

Abstract

Oral sensitivity to fats varies in individuals influencing nutritional status and health. Variations in oleic acid perception are associated with CD36 and odorant binding protein (OBPIIa) polymorphisms, and 6-n-propylthiouracil (PROP) sensitivity, which is mediated by TAS2R38 receptor. L-Arginine (L-Arg) supplementation was shown to modify the perception of the five taste qualities. Here we analyzed the effect of three concentrations (5, 10, 15 mmol/L) of L-Arg on oral perception of oleic acid in forty-six subjects classified for PROP taster status and genotyped for TAS2R38, CD36 and OBPIIa polymorphisms. L-Arg supplementation was effective in increasing the perceived intensity of oleic acid in most subjects. The lowest concentration was the most effective, especially in PROP non-tasters or medium tasters, and in subjects with at least an allele A in CD36 and OBPIIa loci. Density Functional Theory (DFT) calculations were exploited to characterize the chemical interaction between L-Arg and oleic acid, showing that a stable 1:1 oleate·ArgH+ adduct can be formed, stabilized by a pair of hydrogen bonds. Results indicate that L-Arg, acting as a 'carrier' of fatty acids in saliva, can selectively modify taste response, and suggest that it may to be used in personalized dietetic strategies to optimize eating behaviors and health.

Published

2018

6. First objective evaluation of taste sensitivity to 6-n-propylthiouracil (PROP), a paradigm gustatory stimulus in humans.

Author

Sollai G, Melis M, Pani D, Cosseddu P, Usai I, Crnjar R, Bonfiglio A, and Tomassini Barbarossa I

Subjects

Adult, Electricity, Female, Haplotypes genetics, Humans, Male, Phenotype, Polymorphism, Single Nucleotide genetics, Receptors, G-Protein-Coupled genetics, Signal Processing, Computer-Assisted, Taste Buds, Time Factors, Wavelet Analysis, Taste Receptors, Type 2, Propylthiouracil pharmacology, Taste drug effects

Abstract

Practical and reliable methods for the objective measure of taste function are critically important for studying eating behavior and taste function impairment. Here, we present direct measures of human gustatory response to a prototypical bitter compound, 6-n-propyltiouracil (PROP), obtained by electrophysiological recordings from the tongue of subjects who were classified for taster status and genotyped for the specific receptor gene (TAS2R38), and in which taste papilla density was determined. PROP stimulation evoked negative slow potentials that represent the summated depolarization of taste cells. Depolarization amplitude and rate were correlated with papilla density and perceived bitterness, and associated with taster status and TAS2R38. Our study provides a robust and generalizable research tool for the quantitative measure of peripheral taste function, which can greatly help to resolve controversial outcomes on the PROP phenotype role in taste perception and food preferences, and be potentially useful for evaluating nutritional status and health.

Published

2017

7. Perceived 6-n-Propylthiouracil (PROP) Bitterness Is Associated with Dietary Sodium Intake in Female Japanese College Students.

Author

Inoue H, Kuwano T, Yamakawa-Kobayashi K, Waguri T, Nakano T, and Suzuki Y

Subjects

Adult, Asian People, Diet, Female, Humans, Japan, Receptors, G-Protein-Coupled genetics, Receptors, G-Protein-Coupled metabolism, Students, Taste, Taste Buds, Universities, Young Adult, Taste Receptors, Type 2, Propylthiouracil administration & dosage, Sodium, Dietary administration & dosage, Taste Perception

Abstract

Despite the negative health consequences of a high sodium consumption, humans consume well above the recommended levels. This study examines whether or not the dietary intake of sodium was affected by individual variation of the perceived bitterness of 6-n-propylthiouracil (PROP), and examines the relationship between the perceived bitterness of PROP and the preferred NaCl concentration of broth. Female students (20-22 y old) were recruited from the university community. Genotypes of A49P and I296V polymorphism of the TAS2R38 bitter taste receptor were determined for each subject. Samples containing NaCl, PROP or broth in 5-mL portions were evaluated by sensory testing. The participants completed a food record for each diet. Our results indicate that the individuals perceiving PROP to be more bitter had consumed a greater amount of dietary sodium. In contrast, there was no significant positive correlation between an individual's perceived saltiness and the dietary sodium intake. Those who perceived PROP to be more bitter preferred a broth containing a higher concentration of NaCl. All of these correlations were apparent even after those subjects with TAS2R38 AI/AI homozygotes (PROP non-taster) had been excluded. In conclusion, the results of this study suggest that a factor affecting the bitter rating of PROP other than the AI/AI homozygotes of TAS2R38 contributes to the variation in sodium intake and the preference for salty food.

Published

2017

8. Variation in the Ability to Taste Bitter Thiourea Compounds: Implications for Food Acceptance, Dietary Intake, and Obesity Risk in Children.

Author

Keller KL and Adise S

Subjects

Biomarkers, Child, Child Behavior, Child Nutritional Physiological Phenomena, Diet adverse effects, Dietary Fats administration & dosage, Dietary Fats adverse effects, Feeding Behavior, Genetic Predisposition to Disease, Humans, Pediatric Obesity epidemiology, Pediatric Obesity etiology, Pediatric Obesity metabolism, Receptors, G-Protein-Coupled agonists, Receptors, G-Protein-Coupled metabolism, Risk, Taste, Vegetables adverse effects, Taste Receptors, Type 2, Food Preferences, Pediatric Obesity genetics, Phenylthiourea pharmacology, Polymorphism, Genetic, Propylthiouracil pharmacology, Receptors, G-Protein-Coupled genetics, Taste Perception drug effects

Abstract

The ability to taste bitter thiourea compounds, such as phenylthiocarbamide (PTC) and 6-n-propylthiouracil (PROP), is inherited. Polymorphisms in the bitter-taste receptor TAS2R38 explain the majority of phenotypic variation in the PROP phenotype. It has been hypothesized that the PROP phenotype is a marker for perception of a variety of chemosensory experiences. In this review, we discuss studies that have investigated the relationship between bitter-taste response and dietary behaviors and chronic health in children. Investigators have hypothesized that children who are PROP tasters have lower liking and consumption of bitter foods, such as cruciferous vegetables. Additionally, several studies suggest that children who are unable to taste PROP (i.e., nontasters) like and consume more dietary fat and are prone to obesity. The relationship between the PROP phenotype and obesity is influenced by multiple confounders, including sex, food access, ethnicity, and socioeconomic status. Future studies that adjust for these variables are needed.

Published

2016

9. Dose-Dependent Effects of L-Arginine on PROP Bitterness Intensity and Latency and Characteristics of the Chemical Interaction between PROP and L-Arginine.

Author

Melis M, Arca M, Aragoni MC, Cabras T, Caltagirone C, Castagnola M, Crnjar R, Messana I, Tepper BJ, and Tomassini Barbarossa I

Subjects

Adult, Arginine administration & dosage, Caffeine chemistry, Carbonic Anhydrases genetics, Carbonic Anhydrases physiology, Dose-Response Relationship, Drug, Female, Food Preferences drug effects, Genotype, Humans, Hydrogen Bonding, Magnetic Resonance Spectroscopy, Male, Phenotype, Receptors, G-Protein-Coupled genetics, Receptors, G-Protein-Coupled physiology, Solubility, Taste physiology, Taste Perception genetics, Taste Perception physiology, Young Adult, Taste Receptors, Type 2, Arginine pharmacology, Propylthiouracil chemistry, Saliva chemistry, Taste drug effects, Taste Perception drug effects

Abstract

Genetic variation in the ability to taste the bitterness of 6-n-propylthiouracil (PROP) is a complex trait that has been used to predict food preferences and eating habits. PROP tasting is primarily controlled by polymorphisms in the TAS2R38 gene. However, a variety of factors are known to modify the phenotype. Principle among them is the salivary protein Ps-1 belonging to the basic proline-rich protein family (bPRP). Recently, we showed that oral supplementation with Ps-1 as well as its related free amino acids (L-Arg and L-Lys) enhances PROP bitterness perception, especially for PROP non-tasters who have low salivary levels of Ps-1. Here, we show that salivary L-Arg levels are higher in PROP super-tasters compared to medium tasters and non-tasters, and that oral supplementation with free L-Arg enhances PROP bitterness intensity as well as reduces bitterness latency in a dose-dependent manner, particularly in individuals with low salivary levels of both free L-Arg and Ps-1 protein. Supplementation with L-Arg also enhanced the bitterness of caffeine. We also used 1H-NMR spectroscopy and quantum-mechanical calculations carried out by Density Functional Theory (DFT) to characterize the chemical interaction between free L-Arg and the PROP molecule. Results showed that the -NH2 terminal group of the L-ArgH+ side chain interacts with the carbonyl or thiocarbonyl groups of PROP by forming two hydrogen bonds with the resulting charged adduct. The formation of this PROP•ArgH+ hydrogen-bonded adduct could enhance bitterness intensity by increasing the solubility of PROP in saliva and its availability to receptor sites. Our data suggest that L-Arg could act as a 'carrier' of various bitter molecules in saliva.

Published

2015

10. Associations between orosensory perception of oleic acid, the common single nucleotide polymorphisms (rs1761667 and rs1527483) in the CD36 gene, and 6-n-propylthiouracil (PROP) tasting.

Author

Melis M, Sollai G, Muroni P, Crnjar R, and Barbarossa IT

Subjects

Adult, Choice Behavior, Dietary Fats, Female, Humans, Male, Perception, Receptors, G-Protein-Coupled genetics, Taste Buds, Taste Perception, Taste Receptors, Type 2, CD36 Antigens genetics, Food Preferences, Genotype, Oleic Acid, Polymorphism, Single Nucleotide, Propylthiouracil, Taste genetics

Abstract

Orosensory perception of dietary fat varies in individuals, thus influencing nutritional status. Several studies associated fat detection and preference with CD36 or 6-n-propylthiouracil (PROP) sensitivity. Other studies have not confirmed the latter association. We analyzed the relationship between orosensory perception of oleic acid, two CD36 variants, and PROP tasting. Thresholds of oleic acid perception were assessed in 64 subjects using a modification of the three-alternative forced-choice procedure. Subjects were classified for PROP taster status and genotyped for TAS2R38 and CD36 (SNPs: rs1761667 and rs1527483). Subjects homozygous for GG of the rs1761667 polymorphism showed higher sensitivity to oleic acid than AA subjects. The capability to detect oleic acid was directly associated with TAS2R38 or PROP responsiveness. PROP non-tasters had a lower papilla density than tasters, and those with genotype GG of the rs1761667 polymorphism had lower oleic acid thresholds than PROP non-tasters with genotype AA. In conclusion, results showed a direct association between orosensory perception of oleic acid and PROP tasting or rs1761667 polymorphism of CD36, which play a significant role in PROP non-tasters, given their low number of taste papillae. Characterization of individual capability to detect fatty acids may have important nutritional implications by explaining variations in human fat preferences.

Published

2015

11. Genetic taste blindness to bitter and body composition in childhood: a Mendelian randomization design.

Author

Bouthoorn SH, van Lenthe FJ, Kiefte-de Jong JC, Taal HR, Wijtzes AI, Hofman A, Jaddoe VW, Glymour MM, Rivadeneira F, and Raat H

Subjects

Absorptiometry, Photon, Ageusia complications, Ageusia genetics, Body Composition, Child, Cohort Studies, Diet, Female, Food Preferences, Genotype, Humans, Male, Prospective Studies, Receptors, G-Protein-Coupled genetics, Surveys and Questionnaires, Taste Receptors, Type 2, Ageusia physiopathology, Feeding Behavior, Mendelian Randomization Analysis, Propylthiouracil, Taste genetics

Abstract

Background: The ability to taste 6-n-propylthiouracil (PROP) may be associated with body composition, but previous findings from observational studies are conflicting and cannot be interpreted causally. The aim of this study was to estimate the causal association between PROP taster status and body composition in a population-based cohort study., Methods: The study was embedded in a population-based prospective birth cohort study. The TAS2R38 genotype (rs713598) was used as an instrumental variable (IV) to obtain unbiased effect estimates of the relation between PROP taster status and body weight (n=3778). Adiposity measures included body mass index (BMI) and fat mass measured by dual- energy X-ray absorptiometry scan at the child's age of 6 years. Associations were investigated using both ordinary linear regression (OLS) and two-stage least squares regression (2SLS)., Results: Non-taster girls had higher BMI standard deviation scores (SDS) and higher body fat as compared with taster girls (results from linear regression BMI SDS: -0.09, P=0.023, body fat mass (%): -0.49, P=0.028). The TAS2R38 genotype predicted PROP phenotype (F=240), indicating a strong IV. The 2SLS effect estimates were imprecise but similar to the observational estimates (-0.08 for BMI SDS and -0.46 for body fat mass %) and were not significantly different from the OLS results (Hausman test: P>0.10). For boys there were no differences observed between tasters and non-tasters., Conclusions: Our findings suggest a causal relation between PROP taster status and body weight among 6-year-old girls; Mendelian randomization was consistent with conventional estimates. In contrast, body weight among boys appeared to be independent of the PROP taster status. Further research should focus on possible underlying pathways, such as dietary behavior.

Published

2014

12. Racial differences between African Americans and Asian Americans in the effect of 6-n-propylthiouracil taste intensity and food liking on body mass index.

Author

Choi SE

Subjects

Adolescent, Adult, Black or African American, Asian, Biomarkers, Body Mass Index, Cross-Sectional Studies, Female, Genetic Association Studies, Health Status Disparities, Humans, Male, Middle Aged, New York City, Overweight metabolism, Receptors, G-Protein-Coupled metabolism, Young Adult, Taste Receptors, Type 2, Food Preferences, Genetic Variation, Overweight genetics, Propylthiouracil pharmacology, Receptors, G-Protein-Coupled genetics, Taste Perception drug effects

Abstract

Taste intensity to 6-n-propylthiouracil (PROP) has been demonstrated to affect food acceptance and food intake. Because most PROP status research has been performed among predominantly white subjects, research is needed to test the effects of PROP taste intensity on food acceptance and body weight among racial minorities. This study was conducted to examine racial differences in the effect of PROP taste intensity and food liking on body mass index between African Americans and Asian Americans. A cross-sectional design with a sample of 50 African Americans (25 women, 25 men) and 50 Asian Americans (23 women, 27 men) in the New York City area aged 18 to 55 years was used in this study. Weight and height were measured and PROP intensity was assessed using PROP filter paper disks. Subjects rated the intensity of 171.15 g/L (0.5 mol/L) sucrose, 29.22 g/L (0.5 mol/L) sodium chloride, 4.8 g/L (0.025 mol/L) citric acid, and 0.127 g/L (3.2×10⁻⁴ mol/L) quinine solutions and completed a questionnaire to report their food liking/disliking for 19 food items. Characteristics were compared using analysis of variance or χ² test. A multiple linear regression model was fit with the covariates PROP mean, race, sex, age, fat-foods liking, and sweet-foods liking to predict body mass index score. The proportion of total nontasters was 22%. There were no significant differences in the PROP status distribution between African Americans and Asian Americans and in food likings between tasters and nontasters. Significant differences in fat foods, sugar, and black coffee liking were observed among the subracial groups (ie, African Caribbean, African black, East Asian, and South Asian). Race, sex, and age significantly contributed to predict body mass index score., (Copyright © 2014 Academy of Nutrition and Dietetics. Published by Elsevier Inc. All rights reserved.)

Published

2014

13. A population-based approach to study the impact of PROP perception on food liking in populations along the Silk Road.

Author

Robino A, Mezzavilla M, Pirastu N, Dognini M, Tepper BJ, and Gasparini P

Subjects

Armenia, Azerbaijan, Food, Genetic Association Studies, Genotype, Haplotypes, Humans, Polymorphism, Single Nucleotide, Tajikistan, Taste Perception genetics, Uzbekistan, Taste Receptors, Type 2, Propylthiouracil pharmacology, Receptors, G-Protein-Coupled genetics, Taste genetics

Abstract

Taste is one of the main factors determining food choices. Differences in PROP bitter taste perception have been implicated in individual differences in food preferences and selection. The present study examined associations between, PROP phenotypes, self-reported food liking and TAS2R38 polymorphisms, the major gene implicated in PROP bitterness, in six different populations of the Caucasus and Central Asia, located along the ancient Silk Road. Differences in the distribution of PROP phenotypes across populations were detected, with a higher frequency of super tasters in Tajikistan (31.3%) and Armenia (39.0%) and a higher frequency of non tasters in Georgia (50.9%). While no relationships were observed between PROP phenotypes and food liking using standard statistical tests, we used an approach based on comparison of distance matrices derived from these data. The first matrix compared the food liking ratings of each population to all others pairwise using the Kruskal-Wallis test (at p<0.00063), and the second one compared the distribution of PROP phenotypes across all populations in a similar manner calculating the chi-square statistic as a distance measure. A strong correlation between the two matrices was found (Mantel test: r = 0.67, p-value = 0.03), suggesting that the pattern of food liking across populations was closely related to the distribution of PROP phenotypes. This same relationship was not observed when TAS2R38 genotypes were substituted for PROP phenotypes in this analysis. Our data suggest that a population-based approach utilizing distance matrices is a useful technique for detecting PROP-related differences in food liking and can be applied to other taste phenotypes.

Published

2014

14. The associations between 6-n-propylthiouracil (PROP) intensity and taste intensities differ by TAS2R38 haplotype.

Author

Fischer ME, Cruickshanks KJ, Pankow JS, Pankratz N, Schubert CR, Huang GH, Klein BE, Klein R, and Pinto A

Subjects

Adult, Aged, Aged, 80 and over, Dose-Response Relationship, Drug, Female, Genetic Association Studies, Haplotypes, Humans, Male, Middle Aged, Polymorphism, Single Nucleotide, Taste drug effects, Taste genetics, Young Adult, Taste Receptors, Type 2, Propylthiouracil pharmacology, Receptors, G-Protein-Coupled genetics, Taste Perception genetics

Abstract

Background/aims: The influence of TAS2R38 haplotype on the relationship between the perceived intensity of propylthiouracil (PROP) and the basic tastes of salt, sweet, sour, and bitter (quinine) was evaluated in the Beaver Dam Offspring Study., Methods: Genotyping was performed on 1,670 participants aged ≥45 years (mean age = 54.4; range = 45-84), and suprathreshold taste intensity was measured using filter paper disks and a general labeled magnitude scale (0-100)., Results: Among those with taste intensity data and the PAV or AVI haplotype (n = 1,258), the mean perceived intensity of PROP was 37.3 (SD = 30.0), but it varied significantly (p < 0.0001) by diplotype (PAV/PAV = 60.1; PAV/AVI = 46.5; AVI/AVI = 14.4). PROP intensity was correlated with the basic taste intensities (salt: r = 0.22; sweet: r = 0.25; sour: r = 0.21; quinine bitterness: r = 0.38; p < 0.001 for all tastes); however, a significant effect modification of the PROP-taste intensity relationships by TAS2R38 diplotype was observed. There was a stronger association between PROP and each of the basic tastes in the PAV/PAV diplotype group than in the other groups., Conclusions: Directly measuring the perceived intensity of the 4 tastes, rather than using PROP intensity as an indicator of taste responsiveness, is recommended for studies of taste perception., (© 2015 S. Karger AG, Basel.)

Published

2014

15. The gustin (CA6) gene polymorphism, rs2274333 (A/G), as a mechanistic link between PROP tasting and fungiform taste papilla density and maintenance.

Author

Melis M, Atzori E, Cabras S, Zonza A, Calò C, Muroni P, Nieddu M, Padiglia A, Sogos V, Tepper BJ, and Tomassini Barbarossa I

Subjects

Adult, Animals, Cell Line, Cell Proliferation, Epithelial Cells cytology, Epithelial Cells drug effects, Epithelial Cells metabolism, Female, Genotype, Goats, Humans, Male, Mouth Mucosa cytology, Mouth Mucosa drug effects, Mouth Mucosa metabolism, Phenotype, Protein Isoforms genetics, Saliva chemistry, Taste drug effects, Taste Buds cytology, Taste Buds drug effects, Taste Buds metabolism, Taste Threshold drug effects, Taste Threshold genetics, Taste Receptors, Type 2, Carbonic Anhydrases genetics, Polymorphism, Single Nucleotide, Propylthiouracil pharmacology, Receptors, G-Protein-Coupled genetics, Taste genetics

Abstract

Taste sensitivity to PROP varies greatly among individuals and is associated with polymorphisms in the bitter receptor gene TAS2R38, and with differences in fungiform papilla density on the anterior tongue surface. Recently we showed that the PROP non-taster phenotype is strongly associated with the G variant of polymorphism rs2274333 (A/G) of the gene that controls the salivary trophic factor, gustin. The aims of this study were 1) to investigate the role of gustin gene polymorphism rs2274333 (A/G), in PROP sensitivity and fungiform papilla density and morphology, and 2) to investigate the effect of this gustin gene polymorphism on cell proliferation and metabolic activity. Sixty-four subjects were genotyped for both genes by PCR techniques, their PROP sensitivity was assessed by scaling and threshold methods, and their fungiform papilla density, diameter and morphology were determined. In vitro experiments examined cell proliferation and metabolic activity, following treatment with saliva of individuals with and without the gustin gene mutation, and with isolated protein, in the two iso-forms. Gustin and TAS2R38 genotypes were associated with PROP threshold (p=0.0001 and p=0.0042), but bitterness intensity was mostly determined by TAS2R38 genotypes (p<0.000001). Fungiform papillae densities were associated with both genotypes (p<0.014) (with a stronger effect for gustin; p=0.0006), but papilla morphology was a function of gustin alone (p<0.0012). Treatment of isolated cells with saliva from individuals with the AA form of gustin or direct application of the active iso-form of gustin protein increased cell proliferation and metabolic activity (p<0.0135). These novel findings suggest that the rs2274333 polymorphism of the gustin gene affects PROP sensitivity by acting on fungiform papilla development and maintenance, and could provide the first mechanistic explanation for why PROP super-tasters are more responsive to a broad range of oral stimuli.

Published

2013

16. Validation of edible taste strips for assessing PROP taste perception.

Author

Smutzer G, Desai H, Coldwell SE, and Griffith JW

Subjects

Adolescent, Adult, Aged, Female, Genotype, Humans, Male, Middle Aged, Propylthiouracil analysis, Reproducibility of Results, Young Adult, Taste Receptors, Type 2, Propylthiouracil administration & dosage, Receptors, G-Protein-Coupled genetics, Taste Perception genetics, Taste Perception physiology, Taste Threshold genetics

Abstract

A novel delivery method is described that incorporates taste stimuli into edible strips for determining n-propylthiouracil (PROP) taster status. Edible strips that contained 400 or 600 nanomoles of PROP were prepared for psychophysical studies. Using these strips, we measured taste intensity, taste hedonics, and taste quality responses in a sample of healthy volunteers (n = 118). Participants were also asked to assess a single NaCl strip, a quinine strip, 3 NaCl solutions, and 3 PROP solutions. All psychophysical data were subsequently analyzed as a function of TAS2R38 genotype. The use of PROP strips for distinguishing between individuals with at least 1 PAV allele and individuals with other genotypes was assessed and compared with the use of PROP solutions for making this same distinction. For the 2 PROP strips and PROP solutions, individuals who expressed at least 1 PAV allele could perceive the bitter taste of PROP. Individuals who expressed 2 AVI alleles responded similarly to 400 nanomole PROP strips and blank strips. Furthermore, individuals with 2 AVI alleles responded to 0.032 and 0.32 mM PROP solutions at intensities that were similar to water, though intensity ratings to 3.2 mM PROP solution exceeded water. In general, those with at least 1 PAV allele rated the bitter taste of PROP as unpleasant in both delivery methods (strips or solutions). Psychophysical data from PROP strips and solutions were consistent with TAS2R38 genotype. These results support the validity of edible taste strips as a method for assessing PROP taste perception in humans.

Published

2013

17. Influence of the PROP bitter taste phenotype and eating attitudes on energy intake and weight status in pre-adolescents: a 6-year follow-up study.

Author

Oftedal KN and Tepper BJ

Subjects

Adiposity physiology, Adolescent, Body Mass Index, Child, Child, Preschool, Cohort Studies, Diet, Female, Follow-Up Studies, Genotype, Humans, Male, Mothers, Motor Activity physiology, Receptors, G-Protein-Coupled genetics, Taste Receptors, Type 2, Attitude, Body Weight physiology, Energy Intake physiology, Feeding Behavior physiology, Propylthiouracil, Taste drug effects

Abstract

The PROP bitter-taste phenotype is a marker for food preferences and eating behavior, and may associate with differences in body weight in children. Previous work has shown that PROP status in combination with eating attitudes are better predictors of weight status in preadolescents, than either factor alone. However, no studies have examined the role of PROP phenotypes in body weight change in children over time. The primary objective of this study was to investigate current weight status and change in weight status in children from preschool (baseline) to preadolescence as a function of eating attitudes and PROP phenotype. Other measures included self-reported food intakes and physical activity by activity monitor. Seventy-three lean (BMI percentile=57.7±3.2%) children with mean age=10.3±0.5yrs, participated in the follow up. There were no group differences in energy intake, current BMI-percentile or change in BMI percentile from baseline by PROP phenotype in either boys or girls. However, there was a trend for non-taster girls to show a downward shift in BMI-percentile at follow up. Hierarchical regression analysis revealed that baseline BMI percentile and physical activity energy expenditure were the strongest predictors of current weight (28.5% variance),followed by child restraint, the taster×gender interaction, and the maternal BMI×maternal emotional eating interaction, accounting for 7.1%, 6.0% and 4.8% of variance in the model, respectively. These findings suggest that PROP status and eating attitudes are modest predictors of weight status in preadolescent children., (Copyright © 2013. Published by Elsevier Inc.)

Published

2013

18. Coarse-grained/molecular mechanics of the TAS2R38 bitter taste receptor: experimentally-validated detailed structural prediction of agonist binding.

Author

Marchiori A, Capece L, Giorgetti A, Gasparini P, Behrens M, Carloni P, and Meyerhof W

Subjects

HEK293 Cells, Humans, Molecular Dynamics Simulation, Mutagenesis, Site-Directed, Protein Interaction Domains and Motifs, Protein Structure, Secondary, Receptors, G-Protein-Coupled agonists, Receptors, G-Protein-Coupled genetics, Recombinant Proteins chemistry, Recombinant Proteins genetics, Rhodopsin chemistry, Structural Homology, Protein, Taste Buds chemistry, Taste Receptors, Type 2, Computational Biology, Molecular Docking Simulation, Phenylthiourea chemistry, Propylthiouracil chemistry, Receptors, G-Protein-Coupled chemistry

Abstract

Bitter molecules in humans are detected by ∼25 G protein-coupled receptors (GPCRs). The lack of atomic resolution structure for any of them is complicating an in depth understanding of the molecular mechanisms underlying bitter taste perception. Here, we investigate the molecular determinants of the interaction of the TAS2R38 bitter taste receptor with its agonists phenylthiocarbamide (PTC) and propylthiouracil (PROP). We use the recently developed hybrid Molecular Mechanics/Coarse Grained (MM/CG) method tailored specifically for GPCRs. The method, through an extensive exploration of the conformational space in the binding pocket, allows the identification of several residues important for agonist binding that would have been very difficult to capture from the standard bioinformatics/docking approach. Our calculations suggest that both agonists bind to Asn103, Phe197, Phe264 and Trp201, whilst they do not interact with the so-called extra cellular loop 2, involved in cis-retinal binding in the GPCR rhodopsin. These predictions are consistent with data sets based on more than 20 site-directed mutagenesis and functional calcium imaging experiments of TAS2R38. The method could be readily used for other GPCRs for which experimental information is currently lacking.

Published

2013

19. 3D structure prediction of TAS2R38 bitter receptors bound to agonists phenylthiocarbamide (PTC) and 6-n-propylthiouracil (PROP).

Author

Tan J, Abrol R, Trzaskowski B, and Goddard WA 3rd

Subjects

Amino Acid Sequence, Genetic Variation, Humans, Hydrogen Bonding, Molecular Structure, Monte Carlo Method, Phenylthiourea chemistry, Propylthiouracil chemistry, Receptors, G-Protein-Coupled chemistry, Sequence Alignment, Taste Receptors, Type 2, Models, Biological, Phenylthiourea agonists, Propylthiouracil agonists, Receptors, G-Protein-Coupled agonists

Abstract

The G protein-coupled receptor (GPCR) TAS2R38 is a bitter taste receptor that can respond to bitter compounds such as phenylthiocarbamide (PTC) and 6-n-propylthiouracil (PROP). This receptor was chosen because its four haplotypes (based on three residue site polymorphism) hTAS2R38PAV, hTAS2R38AVI, hTAS2R38AAI, and hTAS2R38PVV are known to have dramatically different responses to PTC and PROP. We aimed to identify the protein-ligand interaction features that determine whether the bitter taste signal from this receptor is sent to the cortex. To do this we predicted the 3D structures of the TAS2R38 bitter taste receptor using our new BiHelix and SuperBiHelix Monte Carlo methods (No experimental determinations of the 3D structure have been reported for any taste receptors.). We find that residue 262 (2nd position in the polymorphism) is involved in the interhelical hydrogen bond network stabilizing the GPCR structure in tasters (hTAS2R38PAV, hTAS2R38AAI, and hTAS2R38PVV), while it is not in the nontaster (hTAS2R38AVI). This suggests that the hydrogen bond interactions between TM3 and TM6 or between TM5 and TM6 may play a role in activating this GPCR. To further validate these structures, we used the DarwinDock method to predict the binding sites and 3D structures for PTC and PROP bound to hTAS2R38PAV, hTAS2R38AVI, hTAS2R38AAI, and hTAS2R38PVV, respectively. Our results show that PTC and PROP can form H-bonds with the backbone of residue 262 in the tasters (hTAS2R38PAV, hTAS2R38AAI, and hTAS2R38PVV) but not in the nontaster (hTAS2R38AVI). Thus it appears that the hydrogen bond interaction between TM3 and TM6 may activate the receptor to pass the ligand binding signal to intracellular processes and that the H-bond between agonists and residue 262 in tasters is involved in the bitter tasting. This is in agreement with experimental observations, providing validation of the predicted ligand-protein complexes and also a potential activation mechanism for the TAS2R38 receptor.

Published

2012

20. Polymorphisms in TAS2R38 and the taste bud trophic factor, gustin gene co-operate in modulating PROP taste phenotype.

Author

Calò C, Padiglia A, Zonza A, Corrias L, Contu P, Tepper BJ, and Barbarossa IT

Subjects

Adult, Analysis of Variance, Female, Genotype, Humans, Italy, Male, Phenotype, Sex Factors, Young Adult, Taste Receptors, Type 2, Carbonic Anhydrases genetics, Polymorphism, Genetic genetics, Propylthiouracil, Receptors, G-Protein-Coupled genetics, Taste genetics, Taste Buds metabolism

Abstract

The PROP taste phenotype varies greatly among individuals, influencing eating behavior and therefore may play a role in body composition. This variation is associated with polymorphisms in the bitter receptor gene TAS2R38 and the taste-bud trophic factor gustin gene. The aim of this study was to examine the relationship between TAS2R38 haplotypes and the gustin gene polymorphism rs2274333 in modulating PROP taste phenotype. PROP phenotype was determined in seventy-six volunteers (29 males, 47 females, age 25±3 y) by scaling methods and threshold measurements. TAS2R38 and gustin gene genotyping was performed using PCR techniques. The lowest responsiveness in PROP nontasters is strongly associated with the AVI nontasting TAS2R38 variant and the highest responsiveness in supertasters is strongly associated to allele A and genotype AA of the gustin gene. These data support the hypothesis that the greater sensitivity of supertasters could be mediated by a greater taste-bud density. Polymorphisms in TAS2R38 and gustin gene, together, accounted for up to 60% of the phenotypic variance in PROP bitterness and to 40% in threshold values. These data, suggest that other unidentified factors may be more relevant for detecting low concentrations of PROP. Moreover, the presence of the PAV variant receptor may be important for detecting high concentrations of PROP, whereas the presence of allele A in gustin polymorphism may be relevant for perceiving low concentrations. These data show how the combination of the TAS2R38 and gustin gene genotypes modulate PROP phenotype, providing an additional tool for the evaluation of human eating behavior and nutritional status., (Copyright © 2011 Elsevier Inc. All rights reserved.)

Published

2011

21. Secretory effects of a luminal bitter tastant and expressions of bitter taste receptors, T2Rs, in the human and rat large intestine.

Author

Kaji I, Karaki S, Fukami Y, Terasaki M, and Kuwahara A

Subjects

Aged, Animals, Bicarbonates metabolism, Chlorides metabolism, Cyclooxygenase Inhibitors pharmacology, Dinoprostone metabolism, Dose-Response Relationship, Drug, Electric Stimulation, Female, Humans, Intestinal Mucosa metabolism, Intestine, Large metabolism, Male, Membrane Potentials, Piroxicam pharmacology, RNA, Messenger metabolism, Rats, Rats, Wistar, Receptors, G-Protein-Coupled genetics, Receptors, G-Protein-Coupled metabolism, Sodium Channel Blockers pharmacology, Tetrodotoxin pharmacology, Time Factors, Taste Receptors, Type 2, Intestinal Mucosa drug effects, Intestinal Secretions drug effects, Intestine, Large drug effects, Propylthiouracil pharmacology, Receptors, G-Protein-Coupled drug effects

Abstract

Taste transduction molecules, such as Galpha(gust), and taste receptor families for bitter [taste receptor type 2 (T2R)], sweet, and umami, have previously been identified in taste buds and the gastrointestinal (GI) tract; however, their physiological functions in GI tissues are still unclear. Here, we investigated the physiological function and expression of T2R in human and rat large intestine using various physiological and molecular biological techniques. To study the physiological function of T2R, the effect of a bitter compound, 6-n-propyl-2-thiouracil (6-PTU), on transepithelial ion transport was investigated using the Ussing chamber technique. In mucosal-submucosal preparations, mucosal 6-PTU evoked Cl(-) and HCO(3)(-) secretions in a concentration-dependent manner. In rat middle colon, levels of 6-PTU-evoked anion secretion were higher than in distal colon, but there was no such difference in human large intestine. The response to 6-PTU was greatly reduced by piroxicam, but not by tetrodotoxin. Additionally, prostaglandin E(2) concentration-dependently potentiated the response to 6-PTU. Transcripts of multiple T2Rs (putative 6-PTU receptors) were detected in both human and rat colonic mucosa by RT-PCR. In conclusion, these results suggest that the T2R ligand, 6-PTU, evokes anion secretion, and such response is regulated by prostaglandins. This luminal bitter sensing mechanism may be important for host defense in the GI tract.

Published

2009

22. Supertasting and PROP bitterness depends on more than the TAS2R38 gene.

Author

Hayes JE, Bartoshuk LM, Kidd JR, and Duffy VB

Subjects

Adult, Amino Acid Substitution, Female, Gene Frequency, Genotype, Haplotypes, Humans, Male, Middle Aged, Quinine chemistry, Taste physiology, Taste Buds anatomy & histology, Taste Buds metabolism, Taste Threshold, Tongue anatomy & histology, Tongue metabolism, Taste Receptors, Type 2, Polymorphism, Single Nucleotide, Propylthiouracil chemistry, Receptors, G-Protein-Coupled genetics, Taste genetics

Abstract

Polymorphisms in the TAS2R38 gene provide insight to phenotypes long associated 6-n-propylthiouracil (PROP) and phenylthiocarbamide bitterness. We tested relationships between TAS2R38 genotype, taste phenotype, and fungiform papillae (FP) number in 139 females and 59 males (age range 21-60 years), primarily of European ancestry. DNA was analyzed for 3 polymorphic sites, identifying common (alanine-valine-isoleucine [AVI/AVI], heterozygotes, proline-alanine-valine [PAV/PAV]) and rare (proline-valine-isoleucine, alanine-alanine-valine, AAI) forms. Individuals with PROP threshold >0.15 mM were almost exclusively AVI/AVI; those with threshold <0.1 mM could have any genotype. PAV/PAVs were more difficult to identify with PROP taste measures, although perceived bitterness of moderate PROP concentrations (0.32, 1 mM) had better correspondence with genotype than did threshold. For AVI/AVIs, increases in bitterness from 1 to 3.2 mM PROP nearly paralleled those of TAS2R38 heterozygotes and PAV/PAVs. Some bitterness gains were related to FP number sampled from a standard area on the tongue tip, yet the PROP bitterness-FP relationship differed across genotype. Among homozygotes, FP was a significant determinant of PROP bitterness; heterozygotes showed a flat relationship. Those tasting concentrated PROP as more bitter also tasted concentrated sucrose, citric acid, sodium chloride, and quinine as more intense, even after statistically controlling for TAS2R38 genotype, FP, and intensity of tones (nonoral standard). To summarize, although PROP threshold generally exhibited single-gene complete dominance, PROP bitterness may involve additional bitter receptors as evidenced by misclassification of some nontaster homozygotes and the bitterness functions for concentrated PROP. Variability in receptor expression may explain attenuated bitterness-FP relationships. PROP bitterness does associate with heightened taste sensations (i.e., supertasting), but this is not due to TAS2R38 polymorphisms.

Published

2008

23. Refining associations between TAS2R38 diplotypes and the 6-n-propylthiouracil (PROP) taste test: findings from the Avon Longitudinal Study of Parents and Children.

Author

Timpson NJ, Heron J, Day IN, Ring SM, Bartoshuk LM, Horwood J, Emmett P, and Davey-Smith G

Subjects

Adult, Child, Female, Gene Frequency, Genetic Variation, Genotype, Haplotypes, Humans, Longitudinal Studies, Male, Predictive Value of Tests, Receptors, G-Protein-Coupled, Taste Receptors, Type 2, Propylthiouracil, Receptors, Cell Surface genetics, Taste genetics

Abstract

Background: Previous investigations have highlighted the importance of genetic variation in the determination of bitter tasting ability, however have left unaddressed questions as to within group variation in tasting ability or the possibility of genetic prescription of intermediate tasting ability. Our aim was to examine the relationships between bitter tasting ability and variation at the TAS2R38 locus and to assess the role of psychosocial factors in explaining residual, within group, variation in tasting ability., Results: In a large sample of children from the Avon Longitudinal Study of Parents and Children, we confirmed an association between bitter compound tasting ability and TAS2R38 variation and found evidence of a genetic association with intermediate tasting ability. Antisocial behaviour, social class and depression showed no consistent relationship with the distribution of taste test scores., Conclusion: Factors which could influence a child's chosen taste score, extra to taste receptor variation, appeared not to show relationships with test score. Observed spread in the distribution of the taste test scores within hypothesised taster groups, is likely to be, or at least in part, due to physiological differentiation regulated by other genetic contributors. Results confirm relationships between genetic variation and bitter compound tasting ability in a large sample, and suggest that TAS2R38 variation may also be associated with intermediate tasting ability.

Published

2007

24. The molecular basis of individual differences in phenylthiocarbamide and propylthiouracil bitterness perception.

Author

Bufe B, Breslin PA, Kuhn C, Reed DR, Tharp CD, Slack JP, Kim UK, Drayna D, and Meyerhof W

Subjects

Animals, Blotting, Western, Cells, Cultured, DNA Mutational Analysis, DNA Primers, DNA, Complementary genetics, Haplotypes genetics, Humans, Immunohistochemistry, In Situ Hybridization, Least-Squares Analysis, Rats, Receptors, G-Protein-Coupled, Reverse Transcriptase Polymerase Chain Reaction, Structure-Activity Relationship, Taste Receptors, Type 2, Genetic Variation, Phenylthiourea, Propylthiouracil, Receptors, Cell Surface genetics, Taste physiology

Abstract

Individual differences in perception are ubiquitous within the chemical senses: taste, smell, and chemical somesthesis . A hypothesis of this fact states that polymorphisms in human sensory receptor genes could alter perception by coding for functionally distinct receptor types . We have previously reported evidence that sequence variants in a presumptive bitter receptor gene (hTAS2R38) correlate with differences in bitterness recognition of phenylthiocarbamide (PTC) . Here, we map individual psychogenomic pathways for bitter taste by testing people with a variety of psychophysical tasks and linking their individual perceptions of the compounds PTC and propylthiouracil (PROP) to the in vitro responses of their TAS2R38 receptor variants. Functional expression studies demonstrate that five different haplotypes from the hTAS2R38 gene code for operatively distinct receptors. The responses of the three haplotypes we also tested in vivo correlate strongly with individuals' psychophysical bitter sensitivities to a family of compounds. These data provide a direct molecular link between heritable variability in bitter taste perception to functional variations of a single G protein coupled receptor that responds to compounds such as PTC and PROP that contain the N-C=S moiety. The molecular mechanisms of perceived bitterness variability have therapeutic implications, such as helping patients to consume beneficial bitter-tasting compounds-for example, pharmaceuticals and selected phytochemicals.

Published

2005

25. Genetic and environmental determinants of bitter perception and sweet preferences.

Author

Mennella JA, Pepino MY, and Reed DR

Subjects

Adult, Age Factors, Black People, Child, Child, Preschool, Female, Genotype, Humans, Male, Receptors, G-Protein-Coupled, Sucrose, Taste Threshold, White People, Taste Receptors, Type 2, Food Preferences, Propylthiouracil, Receptors, Cell Surface genetics, Taste genetics

Abstract

Objective: Flavor is the primary dimension by which young children determine food acceptance. However, children are not merely miniature adults because sensory systems mature postnatally and their responses to certain tastes differ markedly from adults. Among these differences are heightened preferences for sweet-tasting and greater rejection of bitter-tasting foods. The present study tests the hypothesis that genetic variations in the newly discovered TAS2R38 taste gene as well as cultural differences are associated with differences in sensitivity to the bitter taste of propylthiouracil (PROP) and preferences for sucrose and sweet-tasting foods and beverages in children and adults., Design: Genomic DNA was extracted from cheek cells of a racially and ethnically diverse sample of 143 children and their mothers. Alleles of the gene TAS2R38 were genotyped. Participants were grouped by the first variant site, denoted A49P, because the allele predicts a change from the amino acid alanine (A) to proline (P) at position 49. Henceforth, individuals who were homozygous for the bitter-insensitive allele are referred to as AA, those who were heterozygous for the bitter-insensitive allele are referred to as AP, and those who were homozygous for the bitter-sensitive allele are referred to as PP. Using identical procedures for children and mothers, PROP sensitivity and sucrose preferences were assessed by using forced-choice procedures that were embedded in the context of games that minimized the impact of language development and were sensitive to the cognitive limitations of pediatric populations. Participants were also asked about their preferences in cereals and beverages, and mothers completed a standardized questionnaire that measured various dimensions of their children's temperament., Results: Genetic variation of the A49P allele influenced bitter perception in children and adults. However, the phenotype-genotype relationship was modified by age such that 64% of heterozygous children, but only 43% of the heterozygous mothers, were sensitive to the lowest concentration (56 micromoles/liter) of PROP. Genotypes at the TAS2R38 locus were significantly related to preferences for sucrose and for sweet-tasting beverages and foods such as cereals in children. AP and PP children preferred significantly higher concentrations of sucrose solutions than did AA children. They were also significantly less likely to include milk or water as 1 of their 2 favorite beverages (18.6% vs 40%) and were more likely to include carbonated beverages as 1 of their most preferred beverages (46.4% vs 28.9%). PP children liked cereals and beverages with a significantly higher sugar content. There were also significant main effects of race/ethnicity on preferences and food habits. As a group, black children liked cereals with a significantly higher sugar content than did white children, and they were also significantly more likely to report that they added sugar to their cereals. Unlike children, there was no correspondence between TAS2R38 genotypes and sweet preference in adults. Here, the effects of race/ethnicity were the strongest determinants, thus suggesting that cultural forces and experience may override this genotype effect on sweet preferences. Differences in taste experiences also affected mother-child interaction, especially when the 2 resided in different sensory worlds. That is, children who had 1 or 2 bitter-sensitive alleles, but whose mothers had none, were perceived by their mothers as being more emotional than children who had no bitter-sensitive alleles., Conclusion: Variations in a taste receptor gene accounted for a major portion of individual differences in PROP bitterness perception in both children and adults, as well as a portion of individual differences in preferences for sweet flavors in children but not in adults. These findings underscore the advantages of studying genotype effects on behavioral outcomes in children, especially as they relate to taste preferences because cultural forces may sometimes override the A49P genotypic effects in adults. New knowledge about the molecular basis of food likes and dislikes in children, a generation that will struggle with obesity and diabetes, may suggest strategies to overcome diet-induced diseases.

Published

2005

26. Taste sensitivities to PROP and PTC vary independently in mice.

Author

Nelson TM, Munger SD, and Boughter JD Jr

Subjects

Animal Feed, Animals, Drinking Behavior drug effects, Feeding Behavior drug effects, Food Preferences drug effects, Male, Mice, Polymorphism, Genetic genetics, Receptors, G-Protein-Coupled chemistry, Receptors, G-Protein-Coupled genetics, Water, Taste Receptors, Type 2, Phenylthiourea pharmacology, Propylthiouracil pharmacology, Taste physiology, Taste Threshold physiology

Abstract

Mammals use common mechanisms to detect, transduce and process taste stimulus information. For example, they share families of receptors that respond to amino acids, and sweet- and bitter-tasting stimuli. Nonetheless, it also clear that different species exhibit unique taste sensitivities that may reflect specific genetic variations. In humans, sensitivities to the chemically similar, bitter-tasting compounds 6-n-propylthiouracil (PROP) and phenylthiocarbamide (PTC) are heritable and strongly correlated, suggesting a common genetic basis. However, it is unknown whether PROP and PTC taste sensitivities are similarly correlated in mice. Here we report that PROP and PTC taste sensitivities vary independently between two inbred strains of mice. In brief-access taste tests C3HeB/FeJ (C3) and SWR/J (SW) mice possess similar taste sensitivity to PTC, while SW mice are significantly more sensitive to PROP than are C3 mice. In two-bottle preference tests, however, SW mice display greater aversion to both compounds. This discrepancy may be explained by the observation that SW mice consumed taste solutions at a greater rate during the intake test than did C3 mice. Therefore, PTC avoidance is correlated with the amount of PTC consumed in the intake tests rather than the concentration of PTC tested. These findings suggest that post-ingestive factors play a significant role in PTC avoidance during intake tests and highlight an important advantage of brief-access tests over intake tests in resolving the gustatory and post-ingestive contributions to taste-related behaviors. Most strikingly, these results demonstrate that in mice, unlike in humans, PTC and PROP taste sensitivities vary independently, thereby suggesting a subtle functional diversity of bitter-taste mechanisms across mammalian species.

Published

2003