Jianhua Shao scite author profile

Adiponectin is an adipose-derived hormone that plays an important role in maintaining energy homeostasis. Adiponectin gene expression is diminished in both obesity and type 2 diabetes. However, the mechanism underlying the impaired adiponectin gene expression remains poorly understood. Recent studies have indicated that forkhead transcription factor O1 (Foxo1) and silent information regulator 2 mammalian ortholog SIRT1 are involved in adipogenesis. Here we have shown that Foxo1 up-regulates adiponectin gene transcription through a Foxo1-responsive region in the mouse adiponectin promoter that contains two adjacent Foxo1 binding sites. Foxo1 interacts with CCAAT/enhancer-binding protein ␣ (C/EBP␣) to form a transcription complex at the mouse adiponectin promoter and up-regulates adiponectin gene transcription. Our study has revealed that C/EBP␣ accesses the adiponectin promoter through two Foxo1 binding sites and acts as a co-activator. Further, SIRT1 increases adiponectin transcription in adipocytes by activating Foxo1 and enhancing Foxo1 and C/EBP␣ interaction. Importantly, both Foxo1 and SIRT1 protein levels were significantly lower in epididymal fat tissues from db/db and high fat diet-induced obese mice compared with normal mice. We propose that low expression of SIRT1 and Foxo1 leads to impaired Foxo1-C/EBP␣ complex formation, which contributes to the diminished adiponectin expression in obesity and type 2 diabetes.Adiponectin is an adipocyte-derived hormone that plays an important role in energy metabolism, immunological responses, and development of cardiovascular disease (1-3). Compelling evidence demonstrates that adiponectin enhances insulin sensitivity, improves fatty acid oxidation in skeletal muscle, and suppresses hepatic gluconeogenesis (4 -7). Although adiponectin is predominantly produced by adipose tissues, plasma adiponectin concentration and adiponectin gene expression are inversely correlated with adiposity (2).However, information is limited regarding the underlying mechanisms that impair adiponectin gene expression in obesity and type 2 diabetes. Foxo1 2 is a member of the forkhead transcription factor class O family and is involved in adipocyte differentiation (8). Foxo1 gene haploinsufficiency leads to significant reduction of adiponectin gene expression in the adipose tissue (8). SIRT1 is an NAD ϩ -dependent protein deacetylase that is also involved in adipogenesis (9). Calorie restriction induces Foxo1 and SIRT1 expression, which mediate the resultant longevity effect in cells from yeast to mammals (10, 11). The expression of Foxo1 and SIRT1 is also up-regulated during adipocyte differentiation (8, 9). SIRT1 regulates Foxo1 transactivation activity by deacetylating three lysine residues within the forkhead DNA binding domain (12). These studies led us to hypothesize that Foxo1 and SIRT1 may regulate adiponectin gene expression.Here, we report that overexpression of Foxo1 increased adiponectin gene expression in differentiated 3T3-L1 adipocytes. Our study has identified two Foxo1 respon...

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Impaired glucose transport and insulin receptor tyrosine phosphorylation in skeletal muscle from obese women with gestational diabetes.

Friedman

et al. 1999

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Women who develop gestational diabetes mellitus (GDM) have severe insulin resistance and markedly increased risk to develop subsequent type 2 diabetes. We investigated the effects of pregnancy and GDM on glucose transport activity and the expression and phosphorylation of the insulin receptor and insulin receptor substrate (IRS)-1 in human skeletal muscle fiber strips in vitro. Rectus abdominis muscle biopsies were obtained at the time of cesarean section from 11 pregnant women with normal glucose tolerance (pregnant control), 7 pregnant women with GDM, and 11 nonpregnant women undergoing elective surgery (nonpregnant control). Subjects were matched for age and similar degree of obesity. The rate of maximal insulin (10(-7) mol/l)-stimulated 2-deoxyglucose transport was reduced by 32% (P < 0.05) in muscle strips from the pregnant control group and even further in GDM subjects by 54% (P < 0.05 vs. pregnant control). The maximal effect of insulin on tyrosine phosphorylation of the insulin receptor was 37% lower (P < 0.05) in GDM subjects than in pregnant control subjects and was not related to changes in the abundance of the insulin receptor. Compared with nonpregnant control subjects, maximal insulin-stimulated IRS-1 tyrosine phosphorylation was significantly lower by 59 +/- 24% (mean +/- SD) (P < 0.05) and 62 +/- 28% (P < 0.05) in pregnant control and GDM subjects, respectively. This was reflected by a 23% (P < 0.05) and 44% (P < 0.002) reduction in IRS-1 protein levels in muscle from pregnant control and GDM subjects. Both pregnant control and GDM subjects exhibited a 1.5- to 2-fold increase in the levels of IRS-2 (P < 0.01) and p85alpha regulatory subunit of phosphatidylinositol (PI) 3-kinase (P < 0.05), despite reduced glucose transport activity. These data indicate that insulin resistance to glucose transport during pregnancy is uniquely associated with a decrease in IRS-1 tyrosine phosphorylation, primarily due to decreased expression of IRS-1 protein. However, in GDM subjects, a decrease in tyrosine phosphorylation of the insulin receptor beta-subunit is associated with further decreases in glucose transport activity. Thus, impaired insulin receptor autophosphorylation is an important early distinction underlying muscle insulin resistance in young women with GDM, and it may underlie future risk for the development of type 2 diabetes.

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Downregulated IRS-1 and PPARγ in obese women with gestational diabetes: relationship to FFA during pregnancy

Catalano

Nizielski

Shao

et al. 2002

American Journal of Physiology-Endocrinology and Metabolism

208

145

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Gestational diabetes mellitus (GDM) is associated with elevated postprandial free fatty acids (FFA) and insulin resistance; however, little is known about the cellular mechanisms underlying insulin resistance to suppress lipolysis during gestation. We evaluated the longitudinal changes in insulin suppression of FFA before pregnancy and in early (12-14 wk) and late (34-36 wk) gestation in obese subjects with normal glucose tolerance and in obese GDM subjects. Abdominal subcutaneous adipose tissue biopsies were also obtained during cesarean delivery from normal obese pregnant (Preg-Con), GDM, and nonpregnant obese control (Non-Preg-Con) subjects during gynecological surgery. GDM subjects had higher basal plasma FFA before pregnancy (P = 0.055). Insulin's ability to suppress FFA levels declined from early to late gestation in both GDM and Preg-Con subjects and was significantly less in GDM subjects compared with Preg-Con subjects over time (P = 0.025). Adipose tissue insulin receptor substrate (IRS)-1 protein levels were 43% lower (P = 0.02) and p85alpha subunit of phosphatidylinositol 3-kinase was twofold higher (P = 0.03) in GDM compared with Preg-Con subjects. The levels of peroxisome proliferator-activated receptor-gamma (PPARgamma) mRNA and protein were lower by 38% in Preg-Con (P = 0.006) and by 48% in GDM subjects (P = 0.005) compared with Non-Preg controls. Lipoprotein lipase and fatty acid-binding protein-2 mRNA levels were 73 and 52% lower in GDM compared with Preg-Con subjects (P < 0.002). Thus GDM women have decreased IRS-1, which may contribute to reduced insulin suppression of lipolysis with advancing gestation. Decreased PPARgamma and its target genes may be part of the molecular mechanism to accelerate fat catabolism to meet fetal nutrient demand in late gestation.

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Human placental growth hormone causes severe insulin resistance in transgenic mice

Barbour

Shao²,

Qiao³

et al. 2002

American Journal of Obstetrics and Gynecology

189

131

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Jianhua Shao

SIRT1 Regulates Adiponectin Gene Expression through Foxo1-C/Enhancer-binding Protein α Transcriptional Complex

Impaired glucose transport and insulin receptor tyrosine phosphorylation in skeletal muscle from obese women with gestational diabetes.

Downregulated IRS-1 and PPARγ in obese women with gestational diabetes: relationship to FFA during pregnancy

Human placental growth hormone causes severe insulin resistance in transgenic mice

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