Publications by authors named "Margot Chirikjian"
Article Synopsis
- - β-cells in the pancreas are crucial for insulin production and maintaining stable blood sugar levels, and their function is influenced by various transcription factors, particularly MafA.
- - In type 2 diabetes, MafA expression decreases, leading to β-cell dysfunction and worsening disease, making it an important focus for research.
- - The article discusses how understanding the complex regulation of MafA, including its transcriptional and post-translational factors, could reveal new therapeutic strategies to improve β-cell health.
TGR5 is a G protein-coupled bile acid receptor that is increasingly recognized as a key regulator of glucose homeostasis. While the role of TGR5 signaling in immune cells, adipocytes and enteroendocrine L cells in metabolic regulation has been well described and extensively reviewed, the impact of TGR5-mediated effects on hepatic physiology and pathophysiology in metabolic regulation has received less attention. Recent studies suggest that TGR5 signaling contributes to improvements in hepatic insulin signaling and decreased hepatic inflammation, as well as metabolically beneficial improvements in bile acid profile.
View Article and Find Full Text PDFThe bile acid receptor, TGR5, is a key regulator of glucose homeostasis, but the mechanisms by which TGR5 signaling improves glucose regulation are incompletely defined. In particular, TGR5 has an increasingly appreciated role in liver physiology and pathobiology; however, whether TGR5 signaling within the liver contributes to its glucoregulatory effects is unknown. Therefore, we investigated the role of hepatocyte TGR5 signaling on glucose regulation using a hepatocyte-specific TGR5 knockout mouse model.
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