Development of a red fluorescent protein-based cGMP indicator applicable for live-cell imaging.

Cyclic guanosine 3', 5'-monophosphate (cGMP) is a second messenger that regulates a variety of physiological processes. Here, we develop a red fluorescent protein-based cGMP indicator, "Red cGull". The fluorescence intensity of Red cGull increase more than sixfold in response to cGMP. The features of this indicator include an EC50 of 0.33 µM for cGMP, an excitation and emission peak at 567 nm and 591 nm, respectively. Live-cell imaging analysis reveal the utility of Red cGull for dual-colour imaging and its ability to be used in conjunction with optogenetics tools. Using enteroendocrine cell lines, Red cGull detects an increase in cGMP following the application of L-arginine. An increase in intracellular cGMP is found to be inhibited by Ca2+, and L-arginine-mediated hormone secretion is not potentiated. We propose that Red cGull will facilitate future research in cell signalling in relation to cGMP and its interplay with other signalling molecules.

Identification of a regulatory pathway of L-phenylalanine-induced GLP-1 secretion in the enteroendocrine L cells.

Glucagon like peptide-1 (GLP-1) is one of incretin hormone and is secreted when enteroendocrine L cells sense saccharides, amino acids, and fatty acids. Some amino acids have been shown to promote GLP-1 secretion from small intestinal enteroendocrine L cells. However, the molecular mechanisms that L-phenylalanine, a potent trigger of GLP-1 secretion, causes GLP-1 secretion from enteroendocrine L cells has not been elucidated. In this study, we used live-cell imaging to clarify the pathway by which L-phenylalanine activates enteroendocrine L cells. The results showed that L-phenylalanine was sensed by Gq-coupled receptor GPR142 and caused an increase in intracellular Ca2+ concentration. In addition, L-phenylalanine was taken up directly into the cell via Na+-dependent amino acid transporter, causing membrane depolarization and enhancing GLP-1 secretion. In summary, enteroendocrine L cells may regulate blood glucose levels in the body by detecting L-phenylalanine in the lumen and secreting GLP-1 via GPR142 and Na+-dependent amino acid transporters.