Electrophysiological Responses from the Human Tongue to the Six Taste Qualities and Their Relationships with PROP Taster Status

Melis, Melania; Sollai, Giorgia; Mastinu, Mariano; Pani, Danilo; Cosseddu, Piero; Bonfiglio, Annalisa; Crnjar, Roberto Massimo; Tepper, Beverly J.; Barbarossa, Iole Tomassini

doi:10.3390/nu12072017

Cited by 13 publications

(13 citation statements)

References 101 publications

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“…According to findings showing associations between perceptions for the five taste qualities [19][20][21]23,25,26,[48][49][50]88] and for PROP, our results showed that the scores that the subjects gave to tastes (that are not mediated by specific receptors) were significant features in facilitating the learning of the model to differentiate categories of PROP tasters.…”

Section: Discussionmentioning

confidence: 61%

“…The three-solution test, [5] and the impregnated paper screening test [7], which were used to collect PROP and NaCl intensity ratings, allowed us to classify subjects based on their PROP bitter taste status. These two methods have been used in numerous studies [33,34,40,81], and are strongly correlated with the degree of activation of peripheral taste function [86][87][88].…”

Section: Sensory Assessments 241 Prop and Nacl Intensity Ratingsmentioning

confidence: 99%

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

et al. 2022

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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.

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Section: Discussionmentioning

confidence: 61%

Section: Sensory Assessments 241 Prop and Nacl Intensity Ratingsmentioning

confidence: 99%

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

et al. 2022

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“…Citric acid permeates through the membrane, acidifies the cytoplasm and intracellular H + by blocking a proton-sensitive K + channel, and directly depolarizes the taste cell membrane . On the other hand, the transduction of sucrose is mediated by GPCRs, causing activation and diffusion of second messengers, which needs more time to depolarize the cell . For a single concentration, such as 0.625% citric acid, the spiking signal presents a good periodicity, and the amplitude decreases with time.…”

Section: Resultsmentioning

confidence: 99%

“…31 On the other hand, the transduction of sucrose is mediated by GPCRs, causing activation and diffusion of second messengers, which needs more time to depolarize the cell. 32 For a single concentration, such as 0.625% citric acid, the spiking signal presents a good periodicity, and the amplitude decreases with time. However, due to the high concentration of 1.25% citric acid, the signal pattern changes significantly.…”

Section: Expression and Distribution Of Sour And Sweetmentioning

confidence: 97%

Biohybrid Tongue for Evaluation of Taste Interaction between Sweetness and Sourness

et al. 2022

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The past decade has witnessed tremendous progress achieved in taste research, while few studies focus on interactions among taste compounds. Indeed, sweeteners and acidulants are commonly used food additives, and sweet−sour mixtures always provide improved tastes. For example, sensory studies have shown that sourness suppresses sweetness. However, the degree of sweetness suppression by sourness is difficult to evaluate quantitatively and objectively. Therefore, we propose a biohybrid tongue that is constructed by integrating mammalian gustatory epithelium with a microelectrode array chip. The taste quality and intensity information is coded in time-frequency patterns of local field potential. Different response patterns evoked by sweet and sour stimuli are observed, and the response is dosedependent. Then, interaction effects of sourness against sweetness are quantified. The results indicate that suppression of sweetness by sourness occurs by increasing sourness concentrations. In summary, this study provides a powerful new tool for quantitative evaluation of sweet, sour, and their binary taste interactions that mimic the mammalian taste system.

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“…Taken together, the basic tastes may be discriminated with the receptor or electrophysiological responses by distinct TBCs subpopulations dedicated to the perceptual taste qualities [ 59 , 60 , 61 ]. The exclusive distribution of the TAS1R and TAS2R families on TBCs at the most primary stage of stimulus processing create specific coding channels regarding information about ligands that are calorically nutritive (sweet and umami), ligands that are potentially toxic (bitter) and salty or sour.…”

Section: Discussionmentioning

confidence: 99%

Glucagon-Like Peptide 1 and Taste Perception: From Molecular Mechanisms to Potential Clinical Implications

Jensterle

Rizzo

2021

IJMS

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Preclinical studies provided some important insights into the action of glucagon-like peptide 1 (GLP-1) in taste perception. This review examines the literature to uncover some molecular mechanisms and connections between GLP-1 and the gustatory coding. Local GLP-1 production in the taste bud cells, the expression of GLP-1 receptor on the adjacent nerves, a functional continuum in the perception of sweet chemicals from the gut to the tongue and an identification of GLP-1 induced signaling pathways in peripheral and central gustatory coding all strongly suggest that GLP-1 is involved in the taste perception, especially sweet. However, the impact of GLP-1 based therapies on gustatory coding in humans remains largely unaddressed. Based on the molecular background we encourage further exploration of the tongue as a new treatment target for GLP-1 receptor agonists in clinical studies. Given that pharmacological manipulation of gustatory coding may represent a new potential strategy against obesity and diabetes, the topic is of utmost clinical relevance.

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Electrophysiological Responses from the Human Tongue to the Six Taste Qualities and Their Relationships with PROP Taster Status

Cited by 13 publications

References 101 publications

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

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

Biohybrid Tongue for Evaluation of Taste Interaction between Sweetness and Sourness

Glucagon-Like Peptide 1 and Taste Perception: From Molecular Mechanisms to Potential Clinical Implications

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