The Relationship between Single Nucleotide Polymorphisms in Taste Receptor Genes, Taste Function and Dietary Intake in Preschool-Aged Children and Adults in the Guelph Family Health Study

Chamoun, Elie; Carroll, Nicholas; Duizer, Lisa; Qi, Wenjuan; Feng, Zeny; Darlington, Gerarda; Duncan, Alison; Haines, Jess; W.L., David

doi:10.3390/nu10080990

Cited by 38 publications

(38 citation statements)

References 51 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…The susceptibility has been associated with appetitive traits that are assumed to mediate OW/OB . There is considerable evidence about genetic contributions to appetitive traits, such as food intake self‐regulation or its inverse, impulsivity, uncontrolled or emotional eating, satiety responsiveness and food cue responsiveness, food preferences and choice, and food intake as well as taste receptors . Another dimension to the genetic evidence is about epigenetic effects associated with maternal obesity and prenatal diet .…”

Section: Resultsmentioning

confidence: 99%

“…118 There is considerable evidence about genetic contributions to appetitive traits, such as food intake self-regulation 119 or its inverse, impulsivity, 120 uncontrolled or emotional eating, 16 satiety responsiveness and food cue responsiveness, [121][122][123][124][125] food preferences and choice, 124,126,127 and food intake 125,126 as well as taste receptors. 128 Another dimension to the genetic evidence is about epigenetic effects associated with maternal obesity and prenatal diet. [129][130][131] Paternal epigenetic effects have also been reported.…”

Section: Genetic Contributions To Behavior Development Eating Anmentioning

confidence: 99%

See 1 more Smart Citation

A biopsychosocial approach to processes and pathways in the development of overweight and obesity in childhood: Insights from developmental theory and research

Russell

2019

Obesity Reviews

View full text Add to dashboard Cite

Summary Childhood obesity has reached alarming proportions in many countries. There is consensus that both biological (especially genetic) and environmental (including psychosocial) factors contribute to weight gain and obesity in childhood. Research has identified extensive risk or predictive factors for childhood obesity from both of these domains. There is less consensus about the developmental processes or pathways showing how these risk factors lead to overweigh/obesity (OW/OB) in childhood. We outline a biopsychosocial process model of the development of OW/OB in childhood. The model and associated scholarship from developmental theory and research guide an analysis of research on OW/OB in childhood. The model incorporates biological factors such as genetic predispositions or susceptibility genes, temperament, and homeostatic and allostatic processes with the psychosocial and behavioral factors of parenting, parental feeding practices, child appetitive traits, food liking, food intakes, and energy expenditure. There is an emphasis on bidirectional and transactional processes linking child biology and behavior with psychosocial processes and environment. Insights from developmental theory and research include implications for conceptualization, measurement, research design, and possible multiple pathways to OW/OB. Understanding the developmental processes and pathways involved in childhood OW/OB should contribute to more targeted prevention and intervention strategies in childhood.

show abstract

Section: Resultsmentioning

confidence: 99%

Section: Genetic Contributions To Behavior Development Eating Anmentioning

confidence: 99%

A biopsychosocial approach to processes and pathways in the development of overweight and obesity in childhood: Insights from developmental theory and research

Russell

2019

Obesity Reviews

View full text Add to dashboard Cite

show abstract

“…In general, people prefer to eat foods they like [ 21 , 22 , 23 ] and taste is one of the most important factors when making the choices [ 21 , 22 , 24 , 25 ]. Although there is huge inter-individual variation in the perception of the five basic tastes (sweet, salty, bitter, sour and umami) [ 26 , 27 , 28 ], little is known about the influence of such variation on the intake patterns of certain foods [ 29 , 30 ] or even on preferences for certain tastes [ 26 , 27 , 31 , 32 ], emphasizing the need for further research. Initial findings in humans and in animal models suggest that lower taste perception may be associated with higher obesity risk [ 33 , 34 , 35 ].…”

Section: Introductionmentioning

confidence: 99%

“…Specifically, the rs713598 polymorphism in the TAS2R38 gene (TAS2R38-rs713598) consisting of a Ala49Pro amino acid change has been selected as the tag single nucleotide polymorphism (SNP) in several studies [ 26 , 43 , 45 ]. Although for sweet and salty tastes, there is much less consistency than for bitter taste, several polymorphisms have been identified in genes related to these tastes in association with different phenotypes [ 27 , 30 , 46 , 47 , 48 ]. Among them, both the rs35874116 polymorphism in the taste 1 receptor member 2 (TAS2R38) gene (TAS1R2-rs35874116) and the rs239345 polymorphism in the sodium channel epithelial 1 beta subunit (SCNN1B) gene (SCNN1B-rs239345) for the sweet and salty tastes, respectively, have been analysed with inconsistent results [ 47 , 48 , 49 , 50 , 51 ].…”

Section: Introductionmentioning

confidence: 99%

Bitter, Sweet, Salty, Sour and Umami Taste Perception Decreases with Age: Sex-Specific Analysis, Modulation by Genetic Variants and Taste-Preference Associations in 18 to 80 Year-Old Subjects

et al. 2018

View full text Add to dashboard Cite

There is growing interest in relating taste perception to diet and healthy aging. However, there is still limited information on the influence of age, sex and genetics on taste acuity as well as on the relationship between taste perception and taste preferences. We have analysed the influence of age on the intensity rating of the five basic tastes: sweet, salty, bitter, sour and umami (separately and jointly in a “total taste score”) and their modulation by sex and genetics in a relatively healthy population (men and women) aged 18–80 years (n = 1020 Caucasian European participants). Taste perception was determined by challenging subjects with solutions of the five basic tastes using standard prototypical tastants (6-n-propylthiouracil (PROP), NaCl, sucrose, monopotassium glutamate and citric acid) at 5 increasing concentrations (I to V). We also measured taste preferences and determined the polymorphisms of the genes taste 2 receptor member 38 (TAS2R38), taste 1 receptor member 2 (TAS2R38) and sodium channel epithelial 1 beta subunit (SCNN1B), as TAS2R38-rs713598, TAS1R2-rs35874116 and SCNN1B-rs239345 respectively. We found a statistically significant decrease in taste perception (“total taste score”) with increasing age for all the concentrations analysed. This association was stronger for the higher concentrations (p = 0.028; p = 0.012; p = 0.005; p = 4.20 × 10−5 and p = 1.48 × 10−7, for I to V in the multivariable-adjusted models). When we analysed taste qualities (using concentration V), the intensity rating of all the 5 tastes was diminished with age (p < 0.05 for all). This inverse association differed depending on the test quality, being higher for bitter (PROP) and sour. Women perceived taste significantly more intense than men (p = 1.4 × 10−8 for total taste score). However, there were differences depending on the taste, umami being the lowest (p = 0.069). There was a complex association between the ability to perceive a taste and the preference for the same. Significant associations were, nevertheless, found between a higher perception of sour taste and a higher preference for it in women. In contrast, the higher perception of sweet was significantly associated with a higher preference for bitter in both, men and women. The TAS2R38-rs713598 was strongly associated with bitter (PROP) taste (p = 1.38 × 10−50), having a significant interaction with sex (p = 0.030). The TAS1R2-rs35874116 was not significantly associated with sweet, whereas the SCNN1B-rs239345 was associated (p = 0.040) with salty taste. In conclusion, the inverse association between age and perceived taste intensity as well as the additional influence of sex and some genetic polymorphisms give rise to large inter-individual differences in taste perception and taste preferences that should be taken into account in future studies and for applications in precision nutrition for healthy aging.

show abstract

“…Chamoun and colleagues compared SNPs in taste receptor genes (including TRPV1) among 65 adults and 60 children. In children, the C-allele of the TRPV1 SNP rs4790522 was associated with a higher salt preference compared with A-allele, while in adults, the A-allele of the TRPV1 SNP rs150908 was correlated with a higher salt sensitivity and lower salt preference [85].…”

Section: The Role Of Trp Channels In Taste Sensationmentioning

confidence: 92%

Taste the Pain: The Role of TRP Channels in Pain and Taste Perception

Aroke

Powell-Roach

Jaime-Lara

et al. 2020

IJMS

View full text Add to dashboard Cite

Transient receptor potential (TRP) channels are a superfamily of cation transmembrane proteins that are expressed in many tissues and respond to many sensory stimuli. TRP channels play a role in sensory signaling for taste, thermosensation, mechanosensation, and nociception. Activation of TRP channels (e.g., TRPM5) in taste receptors by food/chemicals (e.g., capsaicin) is essential in the acquisition of nutrients, which fuel metabolism, growth, and development. Pain signals from these nociceptors are essential for harm avoidance. Dysfunctional TRP channels have been associated with neuropathic pain, inflammation, and reduced ability to detect taste stimuli. Humans have long recognized the relationship between taste and pain. However, the mechanisms and relationship among these taste–pain sensorial experiences are not fully understood. This article provides a narrative review of literature examining the role of TRP channels on taste and pain perception. Genomic variability in the TRPV1 gene has been associated with alterations in various pain conditions. Moreover, polymorphisms of the TRPV1 gene have been associated with alterations in salty taste sensitivity and salt preference. Studies of genetic variations in TRP genes or modulation of TRP pathways may increase our understanding of the shared biological mediators of pain and taste, leading to therapeutic interventions to treat many diseases.

show abstract

The Relationship between Single Nucleotide Polymorphisms in Taste Receptor Genes, Taste Function and Dietary Intake in Preschool-Aged Children and Adults in the Guelph Family Health Study

Cited by 38 publications

References 51 publications

A biopsychosocial approach to processes and pathways in the development of overweight and obesity in childhood: Insights from developmental theory and research

A biopsychosocial approach to processes and pathways in the development of overweight and obesity in childhood: Insights from developmental theory and research

Bitter, Sweet, Salty, Sour and Umami Taste Perception Decreases with Age: Sex-Specific Analysis, Modulation by Genetic Variants and Taste-Preference Associations in 18 to 80 Year-Old Subjects

Taste the Pain: The Role of TRP Channels in Pain and Taste Perception

Contact Info

Product

Resources

About