Işın Çakır scite author profile

Sirt1 is an evolutionarily conserved NAD+ dependent deacetylase involved in a wide range of processes including cellular differentiation, apoptosis, as well as metabolism, and aging. In this study, we investigated the role of hypothalamic Sirt1 in energy balance. Pharmacological inhibition or siRNA mediated knock down of hypothalamic Sirt1 showed to decrease food intake and body weight gain. Central administration of a specific melanocortin antagonist, SHU9119, reversed the anorectic effect of hypothalamic Sirt1 inhibition, suggesting that Sirt1 regulates food intake through the central melanocortin signaling. We also showed that fasting increases hypothalamic Sirt1 expression and decreases FoxO1 (Forkhead transcription factor) acetylation suggesting that Sirt1 regulates the central melanocortin system in a FoxO1 dependent manner. In addition, hypothalamic Sirt1 showed to regulate S6K signaling such that inhibition of the fasting induced Sirt1 activity results in up-regulation of the S6K pathway. Thus, this is the first study providing a novel role for the hypothalamic Sirt1 in the regulation of food intake and body weight. Given the role of Sirt1 in several peripheral tissues and hypothalamus, potential therapies centered on Sirt1 regulation might provide promising therapies in the treatment of metabolic diseases including obesity.

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60 YEARS OF POMC: Regulation of feeding and energy homeostasis by α-MSH

Anderson

et al. 2016

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The melanocortin peptides derived from pro-opiomelanocortin (POMC) were originally understood in terms of the biological actions of α-melanocyte-stimulating hormone (α-MSH) on pigmentation and adrenocorticotrophic hormone on adrenocortical glucocorticoid production. However, the discovery of POMC mRNA and melanocortin peptides in the CNS generated activities directed at understanding the direct biological actions of melanocortins in the brain. Ultimately, discovery of unique melanocortin receptors expressed in the CNS, the melanocortin-3 (MC3R) and melanocortin-4 (MC4R) receptors, led to the development of pharmacological tools and genetic models leading to the demonstration that the central melanocortin system plays a critical role in the regulation of energy homeostasis. Indeed, mutations in MC4R are now known to be the most common cause of early onset syndromic obesity, accounting for 2–5% of all cases. This review discusses the history of these discoveries, as well as the latest work attempting to understand the molecular and cellular basis of regulation of feeding and energy homeostasis by the predominant melanocortin peptide in the CNS, α-MSH.

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BRD7 Regulates XBP1s’ Activity and Glucose Homeostasis through Its Interaction with the Regulatory Subunits of PI3K

et al. 2014

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Summary Bromodomain-containing protein 7 (BRD7) is a member of the bromodomain-containing protein family that is known to play role as tumor suppressors. Here, we show that BRD7 is a component of the unfolded protein response (UPR) signaling through its ability to regulate X-box binding protein1 (XBP1) nuclear translocation. BRD7 interacts with the regulatory subunits of phosphatidyl-inositol3-kinase (PI3K) and increases the nuclear translocation of both p85α/β and XBP1s. Deficiency of BRD7 blocks the nuclear translocation of XBP1s. Furthermore, our in vivo studies have shown that BRD7 protein levels are reduced in the liver of obese mice, and reinstating BRD7 levels in the liver restores XBP1s nuclear translocation, improves glucose homeostasis, and ultimately reduces the blood glucose levels in the obese and diabetic mouse models.

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Işın Çakır

Hypothalamic Sirt1 Regulates Food Intake in a Rodent Model System

60 YEARS OF POMC: Regulation of feeding and energy homeostasis by α-MSH

BRD7 Regulates XBP1s’ Activity and Glucose Homeostasis through Its Interaction with the Regulatory Subunits of PI3K

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