Anita M. Hennige scite author profile

OBJECTIVE -The ␣ 2 -Heremans-Schmid glycoprotein (AHSG; fetuin-A in animals) impairs insulin signaling in vitro and in rodents. Whether AHSG is associated with insulin resistance in humans is under investigation. In an animal model of diet-induced obesity that is commonly associated with hepatic steatosis, an increase in Ahsg mRNA expression was observed in the liver. Therefore, we hypothesized that the AHSG plasma protein, which is exclusively secreted by the liver in humans, may not only be associated with insulin resistance but also with fat accumulation in the liver.RESEARCH DESIGN AND METHODS -Data from 106 healthy Caucasians without type 2 diabetes were included in cross-sectional analyses. A subgroup of 47 individuals had data from a longitudinal study. Insulin sensitivity was measured by a euglycemic-hyperinsulinemic clamp, and liver fat was determined by 1 H magnetic resonance spectroscopy.RESULTS -AHSG plasma levels, adjusted for age, sex, and percentage of body fat, were higher in subjects with impaired glucose tolerance compared with subjects with normal glucose tolerance (P ϭ 0.006). AHSG plasma levels were negatively associated with insulin sensitivity (r ϭ Ϫ0.22, P ϭ 0.03) in cross-sectional analyses. Moreover, they were positively associated with liver fat (r ϭ 0.27, P ϭ 0.01). In longitudinal analyses, under weight loss, a decrease in liver fat was accompanied by a decrease in AHSG plasma concentrations. Furthermore, high AHSG levels at baseline predicted less increase in insulin sensitivity (P ϭ 0.02).CONCLUSIONS -We found that high AHSG plasma levels are associated with insulin resistance in humans. Moreover, AHSG plasma levels are elevated in subjects with fat accumulation in the liver. This is consistent with a potential role of AHSG as a link between fatty liver and insulin resistance. Diabetes Care 29:853-857, 2006I nsulin resistance plays a crucial role in the development of type 2 diabetes (1). Multiple mechanisms are thought to be involved in its pathogenesis. Among them, the human ␣ 2 -Heremans-Schmid glycoprotein (AHSG) was found to be important in animals and in in vitro studies. It is an abundant serum protein in mammals. Bovine and murine fetuin-A and pp63 in rats are homologues of AHSG (2,3). In humans, except for the tongue and the placenta, it is exclusively expressed in the liver (4). It is a natural inhibitor of the insulin-stimulated insulin receptor tyrosine kinase (3). Acute injection of human recombinant AHSG inhibi t e d i n s u l i n -s t i m u l a t e d t y r o s i n e phosphorylation of the insulin receptor and insulin receptor substrate-1 in rat liver and skeletal muscle (3). In addition, AHSG knockout mice display improved insulin sensitivity and are resistant to weight gain on a high-fat diet (5).While these data reflect that AHSG is an important candidate among the factors that induce insulin resistance, the role of this protein in the natural history of type 2 diabetes is still unclear (6). Recent reports from genetic studies suggest that single nucleotide polymor...

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Upregulation of insulin receptor substrate-2 in pancreatic β cells prevents diabetes

Hennige

et al. 2003

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Fetuin-A Induces Cytokine Expression and Suppresses Adiponectin Production

et al. 2008

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BackgroundThe secreted liver protein fetuin-A (AHSG) is up-regulated in hepatic steatosis and the metabolic syndrome. These states are strongly associated with low-grade inflammation and hypoadiponectinemia. We, therefore, hypothesized that fetuin-A may play a role in the regulation of cytokine expression, the modulation of adipose tissue expression and plasma concentration of the insulin-sensitizing and atheroprotective adipokine adiponectin.Methodology and Principal FindingsHuman monocytic THP1 cells and human in vitro differenttiated adipocytes as well as C57BL/6 mice were treated with fetuin-A. mRNA expression of the genes encoding inflammatory cytokines and the adipokine adiponectin (ADIPOQ) was assessed by real-time RT-PCR. In 122 subjects, plasma levels of fetuin-A, adiponectin and, in a subgroup, the multimeric forms of adiponectin were determined. Fetuin-A treatment induced TNF and IL1B mRNA expression in THP1 cells (p<0.05). Treatment of mice with fetuin-A, analogously, resulted in a marked increase in adipose tissue Tnf mRNA as well as Il6 expression (27- and 174-fold, respectively). These effects were accompanied by a decrease in adipose tissue Adipoq mRNA expression and lower circulating adiponectin levels (p<0.05, both). Furthermore, fetuin-A repressed ADIPOQ mRNA expression of human in vitro differentiated adipocytes (p<0.02) and induced inflammatory cytokine expression. In humans in plasma, fetuin-A correlated positively with high-sensitivity C-reactive protein, a marker of subclinical inflammation (r = 0.26, p = 0.01), and negatively with total- (r = −0.28, p = 0.02) and, particularly, high molecular weight adiponectin (r = −0.36, p = 0.01).Conclusions and SignificanceWe provide novel evidence that the secreted liver protein fetuin-A induces low-grade inflammation and represses adiponectin production in animals and in humans. These data suggest an important role of fatty liver in the pathophysiology of insulin resistance and atherosclerosis.

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High Circulating Retinol-Binding Protein 4 Is Associated With Elevated Liver Fat but Not With Total, Subcutaneous, Visceral, or Intramyocellular Fat in Humans

et al. 2007

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OBJECTIVE -Retinol-binding protein 4 (RBP4) is an adipokine that induced insulin resistance in mice, and high plasma RBP4 levels were associated with insulin-resistant states in humans. To determine which fat compartments are associated with elevated RBP4 levels in humans, we measured circulating RBP4 in 75 healthy subjects and used state-of-the-art measurements of body fat distribution.RESEARCH DESIGN AND METHODS -Total body, visceral, and subcutaneous abdominal fat were determined by magnetic resonance tomography and liver fat and intramyocellular fat by localized proton magnetic resonance spectroscopy. Insulin sensitivity was measured by the euglycemic-hyperinsulinemic clamp and, together with insulin clearance, estimated from the oral glucose tolerance test (OGTT).RESULTS -Adjusted circulating RBP4 correlated negatively with insulin sensitivity (clamp: r ϭ Ϫ0.33, P ϭ 0.005; OGTT: r ϭ Ϫ0.36, P ϭ 0.002) and positively with parameters in the fasting state as insulin levels (r ϭ 0.35, P ϭ 0.003) and homeostasis model assessment of insulin resistance (r ϭ 0.34, P ϭ 0.004). In addition, circulating RBP4 correlated negatively with hepatic insulin clearance (r ϭ Ϫ0.25, P ϭ 0.04). Circulating RBP4 was not associated with total body, visceral, or subcutaneous abdominal fat (all P Ն 0.29). Plasma RBP4 levels were also not associated with intramyocellular fat or circulating adiponectin or leptin. In contrast, plasma RBP4 levels correlated positively with liver fat in cross-sectional (r ϭ 0.27, P ϭ 0.03) and longitudinal (r ϭ 0.37, P ϭ 0.04) analyses.CONCLUSIONS -Circulating RBP4 is not associated with the amount of fat in the classical depots or in the ectopic depots in muscle. However, it correlates positively with liver fat. Furthermore, metabolic parameters support the close relationship between circulating RBP4 with liver fat and, presumably, hepatic insulin resistance.

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Anita M. Hennige

α2-Heremans-Schmid Glycoprotein/ Fetuin-A Is Associated With Insulin Resistance and Fat Accumulation in the Liver in Humans

Upregulation of insulin receptor substrate-2 in pancreatic β cells prevents diabetes

Fetuin-A Induces Cytokine Expression and Suppresses Adiponectin Production

High Circulating Retinol-Binding Protein 4 Is Associated With Elevated Liver Fat but Not With Total, Subcutaneous, Visceral, or Intramyocellular Fat in Humans

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