Johan Medina scite author profile

The growth hormone receptor (GHR), although most well known for regulating growth, has many other important biological functions including regulating metabolism and controlling physiological processes related to the hepatobiliary, cardiovascular, renal, gastrointestinal, and reproductive systems. In addition, growth hormone signaling is an important regulator of aging and plays a significant role in cancer development. Growth hormone activates the Janus kinase (JAK)–signal transducer and activator of transcription (STAT) signaling pathway, and recent studies have provided a new understanding of the mechanism of JAK2 activation by growth hormone binding to its receptor. JAK2 activation is required for growth hormone-mediated activation of STAT1, STAT3, and STAT5, and the negative regulation of JAK–STAT signaling comprises an important step in the control of this signaling pathway. The GHR also activates the Src family kinase signaling pathway independent of JAK2. This review covers the molecular mechanisms of GHR activation and signal transduction as well as the physiological consequences of growth hormone signaling.

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Lactisole inhibits the glucose-sensing receptor T1R3 expressed in mouse pancreatic β-cells

Hamano¹,

Nakagawa²,

Ohtsu³

et al. 2015

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Glucose activates the glucose-sensing receptor T1R3 and facilitates its own metabolism in pancreatic b-cells. An inhibitor of this receptor would be helpful in elucidating the physiological function of the glucose-sensing receptor. The present study was conducted to examine whether or not lactisole can be used as an inhibitor of the glucose-sensing receptor. In MIN6 cells, in a dose-dependent manner, lactisole inhibited insulin secretion induced by sweeteners, acesulfame-K, sucralose and glycyrrhizin.

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Return of the glucoreceptor: Glucose activates the glucose‐sensing receptor T1R3 and facilitates metabolism in pancreatic β‐cells

Kojima

Nakagawa

Ohtsu

et al. 2014

J of Diabetes Invest

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Subunits of the sweet taste receptor, namely T1R2 and T1R3, are expressed in mouse pancreatic islets. Quantitatively, the expression of messenger ribonucleic acid for T1R2 is much lower than that of T1R3, and immunoreactive T1R2 is in fact undetectable. Presumably, a homodimer of T1R3 could function as a signaling receptor. Activation of this receptor by adding an artificial sweetener, sucralose, leads to an increase in intracellular adenosine triphosphate ([ATP]c). This increase in [ATP]c is observed in the absence of ambient glucose. Sucralose also augments elevation of [ATP]c induced by methylsuccinate, a substrate for mitochondria. Consequently, activation of T1R3 promotes metabolism in mitochondria and increases [ATP]c. 3-O-Methylglucose, a non-metabolizable analog of glucose, also increases [ATP]c. Conversely, knockdown of T1R3 attenuates elevation of [ATP]c induced by glucose. Hence, glucose promotes its own metabolism by activating T1R3 and augmenting ATP production. Collectively, a homodimer of T1R3 functions as a cell surface glucose-sensing receptor and participates in the action of glucose on insulin secretion. The glucose-sensing receptor T1R3 might be the putative glucoreceptor proposed decades ago by Niki et al. The glucose-sensing receptor is involved in the action of glucose and modulates glucose metabolism in pancreatic β-cells.

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Glucose-Sensing Receptor T1R3: A New Signaling Receptor Activated by Glucose in Pancreatic β-Cells

Kojima

Nakagawa

Hamano

et al. 2015

Biological & Pharmaceutical Bulletin

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Johan Medina

The Growth Hormone Receptor: Mechanism of Receptor Activation, Cell Signaling, and Physiological Aspects

Lactisole inhibits the glucose-sensing receptor T1R3 expressed in mouse pancreatic β-cells

Return of the glucoreceptor: Glucose activates the glucose‐sensing receptor T1R3 and facilitates metabolism in pancreatic β‐cells

Glucose-Sensing Receptor T1R3: A New Signaling Receptor Activated by Glucose in Pancreatic β-Cells

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