Michael W. Rajala scite author profile

Adiponectin is an adipocyte-specific secretory protein that circulates in serum as a hexamer of relatively low molecular weight (LMW) and a larger multimeric structure of high molecular weight (HMW). Serum levels of the protein correlate with systemic insulin sensitivity. The full-length protein affects hepatic gluconeogenesis through improved insulin sensitivity, and a proteolytic fragment of adiponectin stimulates ␤ oxidation in muscle. Here, we show that the ratio, and not the absolute amounts, between these two oligomeric forms (HMW to LMW) is critical in determining insulin sensitivity. We define a new index, S A , that can be calculated as the ratio of HMW/(HMW ؉ LMW). db/db mice, despite similar total adiponectin levels, display decreased S A values compared with wild type littermates, as do type II diabetic patients compared with insulin-sensitive individuals. Furthermore, S A improves with peroxisome proliferator-activated receptor-␥ agonist treatment (thiazolidinedione; TZD) in mice and humans. We demonstrate that changes in S A in a number of type 2 diabetic cohorts serve as a quantitative indicator of improvements in insulin sensitivity obtained during TZD treatment, whereas changes in total serum adiponectin levels do not correlate well at the individual level. Acute alterations in S A (⌬S A ) are strongly correlated with improvements in hepatic insulin sensitivity and are less relevant as an indicator of improved muscle insulin sensitivity in response to TZD treatment, further underscoring the conclusions from previous clamp studies that suggested that the liver is the primary site of action for the full-length protein. These observations suggest that the HMW adiponectin complex is the active form of this protein, which we directly demonstrate in vivo by its ability to depress serum glucose levels in a dose-dependent manner.

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Structure-Function Studies of the Adipocyte-secreted Hormone Acrp30/Adiponectin

Pajvani¹,

Du²,

Combs³

et al. 2003

Journal of Biological Chemistry

982

881

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Acrp30/adiponectin is an adipocyte-specific secretory protein that has recently been implicated as a mediator of systemic insulin sensitivity with liver and muscle as target organs. Acrp30 is found as two forms in serum, as a lower molecular weight trimer-dimer and a high molecular weight complex. Little is know about the regulation and significance of these Acrp30 complexes in serum and about the events that lead to the generation of the bioactive ligand. Here, we show that there is a profound sexual dimorphism of Acrp30 levels and complex distribution in serum. Female mice display significantly higher levels of the high molecular weight complex in serum than males. In both females and males, levels of the high molecular weight complex are significantly reduced in response to a systemic increase of insulin. The ratio of the two complexes is restored upon normalization of glucose levels. Structurally, we show that oligomer formation of Acrp30 critically depends on disulfide bond formation mediated by Cys-39. Mutation of Cys-39 results in trimers that are subject to proteolytic cleavage in the collagenous domain. Surprisingly, Acrp30(C39S) or wild-type Acrp30 treated with dithiothreitol are significantly more bioactive than the higher order oligomeric forms of the protein with respect to reduction of serum glucose levels. Furthermore, treatment of primary hepatocytes with trimeric and higher order forms of Acrp30 confirms that the increased bioactivity seen in vivo is reflected in an augmented potency to reduce glucose output in the presence of gluconeogenic stimuli. Combined, these results shed new light on the regulation of this complex protein and suggest a new model for in vivo activation of the protein, implicating a serum reductase activity.Adipose has been under appreciated as an endocrine tissue for decades because of the prevalent opinion that it served merely as storage for lipids. Recently, however, the importance of adipocytes to whole body energy homeostasis and metabolism has been underscored by several reports focusing on secreted products of adipocytes (1-4). There has been increased interest in adipose tissue as an endocrine organ, and several of these secreted proteins, termed adipokines, are currently undergoing extensive study regarding roles as divergent as feeding behavior to cardiovascular protection. For instance, leptin, the gene disrupted in ob/ob mice, has central roles in the hypothalamus, as well as peripheral effects in liver, muscle, and endothelial cells (5). Other adipose-secreted products, such as tumor necrosis factor ␣ and adipsin (complement factor D), have well established functions in innate immunity (6 -9). The recently identified adipokine resistin has been implicated as a modulator of insulin sensitivity and is also being studied for its effects on metabolism (4, 10).Acrp30 (also known as adiponectin, AdipoQ, and GBP28) is an adipokine exclusively synthesized and secreted by adipocytes (11-14). Acrp30 has recently been shown to influence glucose homeostasis and insulin se...

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Minireview: The Adipocyte—At the Crossroads of Energy Homeostasis, Inflammation, and Atherosclerosis

2003

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Adipose tissue evolved to efficiently store energy for times of caloric restriction. The large caloric excess common in many Western diets has negated the need for this thrifty function, leaving adipose tissue ill-equipped to handle this increased load. An excess of adipose tissue increases risk for a number of conditions including coronary artery disease, hypertension, dyslipidemias, type 2 diabetes, and even cancer. Indeed, the ability of the adipocyte to function properly when engorged with lipid can lead to lipid accumulation in other tissues, reducing their ability to function and respond normally. The role of adipose tissue as an endocrine organ capable of secreting a number of adipose tissue-specific or enriched hormones, known as adipokines, is gaining appreciation. The normal balance of these adipose tissue secretory proteins is perturbed in obesity. Paradoxically, the lack of normal adipose tissue, as seen in cases of lipodystrophy and lipoatrophy, is also associated with pathologic sequelae similar to what is seen with obesity. The pathologic findings associated with lack of adipose tissue, largely due to inability to properly store lipids, may also be due to a lack of adipokines. In this review, we highlight the role of adipose tissue as an endocrine organ focusing on some of the recent advances in the identification and pharmacological characterization of adipokines as well as their regulation in the context of obesity and insulin-resistant states.

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Regulation of Fasted Blood Glucose by Resistin

Banerjee

Rangwala

Shapiro

et al. 2004

Science

646

481

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The association between obesity and diabetes supports an endocrine role for the adipocyte in maintaining glucose homeostasis. Here we report that mice lacking the adipocyte hormone resistin exhibit low blood glucose levels after fasting, due to reduced hepatic glucose production. This is partly mediated by activation of adenosine monophosphate-activated protein kinase and decreased expression of gluconeogenic enzymes in the liver. The data thus support a physiological function for resistin in the maintenance of blood glucose during fasting. Remarkably, lack of resistin diminishes the increase in post-fast blood glucose normally associated with increased weight, suggesting a role for resistin in mediating hyperglycemia associated with obesity.

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Michael W. Rajala

Complex Distribution, Not Absolute Amount of Adiponectin, Correlates with Thiazolidinedione-mediated Improvement in Insulin Sensitivity

Structure-Function Studies of the Adipocyte-secreted Hormone Acrp30/Adiponectin

Minireview: The Adipocyte—At the Crossroads of Energy Homeostasis, Inflammation, and Atherosclerosis

Regulation of Fasted Blood Glucose by Resistin

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