Publications by authors named "Vinay Parameswara"

G protein-coupled receptor (GPCR) pathways control glucose and fatty acid metabolism and the onset of obesity and diabetes. Regulators of G protein signaling (RGS) are GTPase-activating proteins (GAPs) for G(i) and G(q) α-subunits that control the intensity and duration of GPCR signaling. Herein we determined the role of Rgs16 in GPCR regulation of liver metabolism.

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In the liver, adenosine triphosphate (ATP) is an extracellular signaling molecule that is released into bile and stimulates a biliary epithelial cell secretory response via engagement of apical P2 receptors. The molecular identities of the ion channels involved in ATP-mediated secretory responses have not been fully identified. Intermediate-conductance Ca(2+)-activated K(+) channels (IK) have been identified in biliary epithelium, but functional data are lacking.

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Article Synopsis
  • Mutations in the AGPAT2 gene lead to congenital generalized lipodystrophy, prompting researchers to study its effects using Agpat2 null mice (Agpat2(-/-)).
  • These mice exhibit severe lipodystrophy, extreme insulin resistance, diabetes, and liver fat accumulation, largely due to increased lipogenic gene expression and enhanced fatty acid production.
  • The study indicates that the lack of AGPAT2 activates an alternative pathway for fat production in the liver and that dietary fat significantly influences liver fat levels in these mice.
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5'-AMP-activated kinase (AMPK) plays a key role in the regulation of cellular lipid metabolism. The contribution of vesicular exocytosis to this regulation is not known. Accordingly, we studied the effects of AMPK on exocytosis and intracellular lipid content in a model liver cell line.

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Peroxisome proliferator-activated receptor alpha (PPARalpha) regulates the utilization of fat as an energy source during starvation and is the molecular target for the fibrate dyslipidemia drugs. Here, we identify the endocrine hormone fibroblast growth factor 21 (FGF21) as a mediator of the pleiotropic actions of PPARalpha. FGF21 is induced directly by PPARalpha in liver in response to fasting and PPARalpha agonists.

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Genetic predisposition and environmental influences insidiously converge to cause glucose intolerance and hyperglycemia. Beta-cell compensates by secreting more insulin and when it fails, overt diabetes mellitus ensues. The need to understand the mechanisms involved in insulin secretion cannot be stressed enough.

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The initial response of liver cells to insulin is mediated through exocytosis of Cl- channel-containing vesicles and a subsequent opening of plasma membrane Cl- channels. Intracellular accumulation of fatty acids leads to profound defects in metabolism, and is closely associated with insulin resistance. It is not known whether the activity of Cl- channels is altered in insulin resistance and by which mechanisms.

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