Bitter(T2R)and sweet(T1R)taste receptors have been implicated in sinonasal innate immunity and in the pathophysiology of chronic rhinosinusitis(CRS).Taste receptors are expressed on several sinonasal cell types includ...Bitter(T2R)and sweet(T1R)taste receptors have been implicated in sinonasal innate immunity and in the pathophysiology of chronic rhinosinusitis(CRS).Taste receptors are expressed on several sinonasal cell types including ciliated epithelial cells and solitary chemosensory cells.Bitter agonists released by pathogenic microbes elicit a T2R dependent signaling cascade which induces the release of bactericidal nitric oxide,increases mucociliary clearance,and promotes secretion of antimicrobial peptides.Genetic variation conferred by polymorphisms in T2R related genes is associated with differential CRS susceptibility,symptomatology and post-treatment outcomes.More recently,based on our understanding of T1R and T2R function,investigators have discovered novel potential therapeutics in T2R agonists and T1R antagonists.This review will discuss bitter and sweet taste receptor function in sinonasal immunity,explore the emerging diagnostic and therapeutic implications stemming from the most recent findings,and suggest directions for future research.展开更多
Studies have shown that there are strong interactions between gustatory and visceral sensations the central nervous system when rats ingest sweet foods or solutions. To investigate the role of th subdiaphragmatic vagi...Studies have shown that there are strong interactions between gustatory and visceral sensations the central nervous system when rats ingest sweet foods or solutions. To investigate the role of th subdiaphragmatic vagi in transmitting general visceral information during the process of drinking sweet-tasting solutions, we examined the effects of subdiaphragmatic vagotomy on the intake of 0.5 mol/L sucrose, 0.005 mol/L saccharin or distilled water over the course of 1 hour in rats depriv~ of water. Results showed no significant difference in consumption of these three solutions in vagotomized rats. However, rats in the sham-surgery group drank more saccharin solution than sucrose solution or distilled water. Moreover, the intake of distilled water was similar between vagotomized rats and sham-surgery group rats, but significantly less sucrose and saccharin were consumed by vagotomized rats compared with rats in the sham-surgery group. These findings indicate that subdiaphragmatic vagotomy reduces intake of sweet-tasting solution in rats, and suggest that vagal and extravagal inputs play a balanced role in the control of the intake of sweet-tasting solutions. They also suggest that subdiaphragmatic vagotomy eliminates the difference in hedonic perception induced by sweet-tasting solutions compared with distilled water II E展开更多
Dietary protein(P)and carbohydrate(C)have a major impact on the sweet taste sensation.However,it remains unclear whether the balance of P and C influences the sweet taste sensitivity.Here,we use the nutritional geomet...Dietary protein(P)and carbohydrate(C)have a major impact on the sweet taste sensation.However,it remains unclear whether the balance of P and C influences the sweet taste sensitivity.Here,we use the nutritional geometry framework(NGF)to address the interaction of protein and carbohydrates on sweet taste using Drosophila as a model.Our results reveal that high-protein,low-carbohydrate(HPLC)diets sensitize to sweet taste and low-protein,high-carbohydrate(LPHC)diets desensitize sweet taste in both male and female flies.We further investigate the underlying mechanisms of the effects of two diets on sweet taste using RNA sequencing.When compared to the LPHC diet,the m RNA expression of genes involved in the metabolism of glycine,serine,and threonine is significantly upregulated in the HPLC diet group,suggesting these amino acids may mediate sweet taste perception.We further find that sweet sensitization occurs in flies fed with the LPHC diet supplemented with serine and threonine.Our study demonstrates that sucrose taste sensitivity is affected by the balance of dietary protein and carbohydrates possibly through changes in serine and threonine.展开更多
CHINA is in the midst of snowballing economic changes that are naturally affecting society deeply. Take bikes, for example, one of China’s main modes of transportation. Chinese-made, cheap, heavy, black, steel, mass-...CHINA is in the midst of snowballing economic changes that are naturally affecting society deeply. Take bikes, for example, one of China’s main modes of transportation. Chinese-made, cheap, heavy, black, steel, mass-produced bikes are being replaced by imported mountain bikes or tenspeeds. People are clearly making more money and are able to afford such fast, colorful imported products. Financial disparity is more apparent. One man who sells cigarettes and gum from a corrugated tin shack next to others who sell bike seats, fix shoes and make eys in a free market is now clad in展开更多
基金This work was supported by the National Institute on Deafness and Other Communication Disorders of the National Institutes of Health under award number R01DC013588-04S2(to IWM).
文摘Bitter(T2R)and sweet(T1R)taste receptors have been implicated in sinonasal innate immunity and in the pathophysiology of chronic rhinosinusitis(CRS).Taste receptors are expressed on several sinonasal cell types including ciliated epithelial cells and solitary chemosensory cells.Bitter agonists released by pathogenic microbes elicit a T2R dependent signaling cascade which induces the release of bactericidal nitric oxide,increases mucociliary clearance,and promotes secretion of antimicrobial peptides.Genetic variation conferred by polymorphisms in T2R related genes is associated with differential CRS susceptibility,symptomatology and post-treatment outcomes.More recently,based on our understanding of T1R and T2R function,investigators have discovered novel potential therapeutics in T2R agonists and T1R antagonists.This review will discuss bitter and sweet taste receptor function in sinonasal immunity,explore the emerging diagnostic and therapeutic implications stemming from the most recent findings,and suggest directions for future research.
基金financially supported by the National Natural Science Foundation of China, No. 81071029the Joint Funds of the Natural Science Foundation Committee with Henan Province Government for Fostering Talents, No. U1204809
文摘Studies have shown that there are strong interactions between gustatory and visceral sensations the central nervous system when rats ingest sweet foods or solutions. To investigate the role of th subdiaphragmatic vagi in transmitting general visceral information during the process of drinking sweet-tasting solutions, we examined the effects of subdiaphragmatic vagotomy on the intake of 0.5 mol/L sucrose, 0.005 mol/L saccharin or distilled water over the course of 1 hour in rats depriv~ of water. Results showed no significant difference in consumption of these three solutions in vagotomized rats. However, rats in the sham-surgery group drank more saccharin solution than sucrose solution or distilled water. Moreover, the intake of distilled water was similar between vagotomized rats and sham-surgery group rats, but significantly less sucrose and saccharin were consumed by vagotomized rats compared with rats in the sham-surgery group. These findings indicate that subdiaphragmatic vagotomy reduces intake of sweet-tasting solution in rats, and suggest that vagal and extravagal inputs play a balanced role in the control of the intake of sweet-tasting solutions. They also suggest that subdiaphragmatic vagotomy eliminates the difference in hedonic perception induced by sweet-tasting solutions compared with distilled water II E
基金funded by the National Natural Science Foundation of China(31800993,31970934)Natural Science of Foundation of Guangdong,China(2018B030306002)Science and Technology Innovation Committee of Shenzhen,China(201908073000449)to Q.P.W。
文摘Dietary protein(P)and carbohydrate(C)have a major impact on the sweet taste sensation.However,it remains unclear whether the balance of P and C influences the sweet taste sensitivity.Here,we use the nutritional geometry framework(NGF)to address the interaction of protein and carbohydrates on sweet taste using Drosophila as a model.Our results reveal that high-protein,low-carbohydrate(HPLC)diets sensitize to sweet taste and low-protein,high-carbohydrate(LPHC)diets desensitize sweet taste in both male and female flies.We further investigate the underlying mechanisms of the effects of two diets on sweet taste using RNA sequencing.When compared to the LPHC diet,the m RNA expression of genes involved in the metabolism of glycine,serine,and threonine is significantly upregulated in the HPLC diet group,suggesting these amino acids may mediate sweet taste perception.We further find that sweet sensitization occurs in flies fed with the LPHC diet supplemented with serine and threonine.Our study demonstrates that sucrose taste sensitivity is affected by the balance of dietary protein and carbohydrates possibly through changes in serine and threonine.
文摘CHINA is in the midst of snowballing economic changes that are naturally affecting society deeply. Take bikes, for example, one of China’s main modes of transportation. Chinese-made, cheap, heavy, black, steel, mass-produced bikes are being replaced by imported mountain bikes or tenspeeds. People are clearly making more money and are able to afford such fast, colorful imported products. Financial disparity is more apparent. One man who sells cigarettes and gum from a corrugated tin shack next to others who sell bike seats, fix shoes and make eys in a free market is now clad in
