Sai Prasad Pydi scite author profile

Background: T2Rs are activated by hundreds of bitter compounds; however, only five blockers are known. Results: T2R4 residues involved in binding to agonist quinine and two novel bitter blockers GABA and BCML were identified. Conclusion: Bitter blockers and agonists share the same orthosteric site in T2R4. Significance: Bitter blockers identified in this study have tremendous physiological and nutraceutical importance.

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Structural Basis of Activation of Bitter Taste Receptor T2R1 and Comparison with Class A G-protein-coupled Receptors (GPCRs)

Singh

Pydi

Upadhyaya

et al. 2011

Journal of Biological Chemistry

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The human bitter taste receptors (T2Rs) are non-Class A members of the G-protein-coupled receptor (GPCR) superfamily, with very limited structural information. Amino acid sequence analysis reveals that most of the important motifs present in the transmembrane helices (TM1-TM7) of the well studied Class A GPCRs are absent in T2Rs, raising fundamental questions regarding the mechanisms of activation and how T2Rs recognize bitter ligands with diverse chemical structures. In this study, the bitter receptor T2R1 was used to systematically investigate the role of 15 transmembrane amino acids in T2Rs, including 13 highly conserved residues, by amino acid replacements guided by molecular modeling. form a putative LXXSL motif which performs predominantly a structural role by stabilizing the helical conformation of TM5 at the cytoplasmic end. This study provides for the first time mechanistic insights into the roles of the conserved transmembrane residues in T2Rs and allows comparison of the activation mechanisms of T2Rs with the Class A GPCRs.The mammalian taste sensation provides valuable information about the nature and quality of food. Taste transduction predominantly involves the interaction of molecules (i.e. tastants) with taste receptor-expressing cells that reside in the taste buds located on the papillae of the tongue. Taste buds relay information to the brain on the nutrient content of food.

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Bitter taste receptor T2R1 is activated by dipeptides and tripeptides

Upadhyaya

Pydi

Singh

et al. 2010

Biochemical and Biophysical Research Communications

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Adipocyte β-arrestin-2 is essential for maintaining whole body glucose and energy homeostasis

et al. 2019

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β-Arrestins are major regulators of G protein-coupled receptor-mediated signaling processes. Their potential roles in regulating adipocyte function in vivo remain unexplored. Here we report the novel finding that mice lacking β-arrestin-2 (barr2) selectively in adipocytes show significantly reduced adiposity and striking metabolic improvements when consuming excess calories. We demonstrate that these beneficial metabolic effects are due to enhanced signaling through adipocyte β3-adrenergic receptors (β3-ARs), indicating that barr2 represents a potent negative regulator of adipocyte β3-AR activity in vivo. Interestingly, essentially all beneficial metabolic effects caused by adipocyte barr2 deficiency are absent in adipocyte barr2-PRDM16 double KO mice, indicating that the metabolic improvements caused by the lack of barr2 in adipocytes are mediated by the browning/beiging of white adipose tissue. Our data support the novel concept that ‘G protein-biased’ β3-AR agonists that do not promote β3-AR/barr2 interactions may prove useful for the treatment of obesity and related metabolic disorders.

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Sai Prasad Pydi

Amino Acid Derivatives as Bitter Taste Receptor (T2R) Blockers

Structural Basis of Activation of Bitter Taste Receptor T2R1 and Comparison with Class A G-protein-coupled Receptors (GPCRs)

Bitter taste receptor T2R1 is activated by dipeptides and tripeptides

Adipocyte β-arrestin-2 is essential for maintaining whole body glucose and energy homeostasis

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