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Pediatric obesity is a chronic and growing problem for which new ideas about the biologic basis of obesity offer hope for effective solutions. Prevalence of pediatric and adult obesity is increasing despite a bewildering array of treatment programs and severe psychosocial and economic costs. The definition of obesity as an increase in fat mass, not just an increase in body weight, has profound influence on the understanding and treatment of obesity. In principle, body weight is determined by a balance between energy expenditure and energy intake, but this observation does not by itself explain obesity. There is surprisingly little evidence that the obese overeat and only some evidence that the obese are more sedentary. Understanding of the biologic basis of obesity has grown rapidly in the last few years, especially with the identification of a novel endocrine pathway involving the adipose tissue secreted hormone leptin and the leptin receptor that is expressed in the hypothalamus. Plasma leptin levels are strongly correlated with body fat mass and are regulated by feeding and fasting, insulin, glucocorticoids, and other factors, consistent with the hypothesis that leptin is involved in body weight regulation and may even be a satiety factor (Fig. 2, Table 1). Leptin injections have been shown to reduce body weight of primates, although human clinical trials will not be reported until summer 1997. So many peptides influencing feeding have been described that one or more may have therapeutic potential (Fig. 2, Table 1). Although the complexity of pathways regulating body weight homeostasis slowed the pace of understanding underlying mechanisms, these complexities now offer many possibilities for novel therapeutic interventions (Fig. 2). Obesity is a major risk factor for insulin resistance and diabetes, hypertension, cancer, gallbladder disease, and atherosclerosis. In particular, adults who were obese as children have increased mortality independent of adult weight. Thus, prevention programs for children and adolescents will have long-term benefits. Treatment programs focus on modification of energy intake and expenditure through decreased calorie intake and exercise programs. Behavior-modification programs have been developed to increase effectiveness of these intake and exercise programs. These programs can produce short-term weight loss. Long-term losses are more modest but achieved more successfully in children than in adults. Several drug therapies for obesity treatment recently have been approved for adults that produce sustained 5% to 10% weight losses but experience with their use in children is limited. Identification of the biochemical pathways causing obesity by genetic approaches could provide the theoretic foundation for novel, safe, and effective obesity treatments. The cloning of leptin in 1994 has already led to testing the efficacy of leptin in clinical trials that are now underway. Although novel treatments of obesity are being developed as a result of the new biology of obesity, prevention of obesity remains an important goal.
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PMID:Pediatric obesity. An overview of etiology and treatment. 913 Sep 24

Leptin is the peptide product of the OB gene, which is associated with obesity in some strains of mice. Because dyslipidemias are frequently associated with obesity, we have begun to characterize the pathways connecting these related traits. In this investigation we tested for correlation of HDL phenotype measures with leptin concentrations using data from 1159 participants in the San Antonio Family Heart Study, a study of risk factors for cardiovascular disease in Mexican Americans living in and around San Antonio, Texas. In a subset of 288 unrelated individuals, we tested for correlation of leptin with nine different measures of HDL phenotype and found that only three were significantly related. However, stepwise regression analysis suggested that only two measures, HDL triglyceride concentrations (HDL-TG) and the proportion of apo A-I on HDL particles larger than HDL3 (Large HDL-apo A-I), were independently correlated with leptin. Because obesity and HDL phenotypes are both under strong genetic control, we conducted a trivariate genetic analysis, using the entire data set, to test the hypothesis that the phenotypic correlations were due to the effects of shared genes (i.e., pleiotropy). Heritabilities for the three traits were estimated to be 0.47 for leptin, 0.46 for HDL-TG, and 0.46 for Large HDL-apo A-I. Results from the genetic analyses revealed that the phenotypic correlation of leptin with HDL-TG was nongenetic (i.e., shared environment), while the phenotypic correlation with Large HDL-apo A-I was due to pleiotropy (i.e., shared genes). These results confirmed the result derived from the subset of unrelated individuals that the two measures of HDL are independently correlated with leptin. To our knowledge, this is the first report of a relationship between leptin and any aspect of lipoprotein phenotype. A better understanding of the genes responsible for this relationship may provide a molecular explanation for the aggregation of atherogenic phenotypes, such as diabetes, obesity, and dyslipoproteinemia.
Atherosclerosis 1997 Jul 25
PMID:Serum leptin levels are independently correlated with two measures of HDL. 924 70

Pseudo type III (PT-III) dyslipoproteinemia is characterized by a plasma accumulation of triglyceride-rich lipoproteins (TRL) and their remnants. It mimics type III, but its etiology can not be ascribed to a genetic apo E defect. In order to determine whether PT-III is associated with a genetic lipoprotein receptor abnormality, we have measured (in cultured fibroblasts from affected and nonaffected individuals) the in vitro activity of three lipoprotein receptors which are implicated in the catabolism of TRL, namely the low-density lipoprotein receptor (LDL-R), the lipoprotein receptor-related protein (LRP) and the lipolysis-stimulated receptor (LSR). Specific cell association and degradation of 125I-LDL by LDL-R-upregulated PT-III fibroblasts was not significantly different from that of control cells (103 +/- 10% and 98 +/- 17% of controls; 20 microg/ml 125I-LDL). Specific cell association and degradation of rabbit 125I-beta-VLDL was also not significantly different. LRP activity was assessed by measuring the ability of PT-III and control cells to bind three different LRP ligands: activated alpha2-macroglobulin (alpha2M-MA), lactoferrin and apo E-enriched rabbit beta-VLDL. No significant differences were observed (24.0 +/- 2.1 vs. 23.4 +/- 5.7 fmol/mg for 5 nM of 125I-alpha2M-MA; 4.8 +/- 0.3 vs. 5.2 +/- 1.3 microg/mg for 20 microg/ml of 125I-lactoferrin; 319.4 +/- 51.2 vs. 309.5 +/- 23.2 ng/mg for 5 microg/ml of 125I-beta-VLDL, PT-III vs. control, respectively). LSR activity, as assessed by the cell association or degradation of 125I-LDL by fibroblasts in the presence of 0.5 mM oleate and human leptin, was also not different. No evidence was obtained for deficient cellular recognition of PT-III TRL (d < 1.006 g/ml) by normal human fibroblasts or mouse macrophages. These results suggest that PT-III dyslipoproteinemia is not due to an accumulation in plasma of poorly recognized TRL, nor due to a genetic defect in LDL-R, LRP or LSR.
Atherosclerosis 1997 Jul 11
PMID:Pseudo type III dyslipoproteinemia is associated with normal fibroblast lipoprotein receptor activity. 924 63

The results of the Diabetes Intervention Study indicate that postprandial hyperglycaemia, but not fasting hyperglycaemia, is an independent risk factor for myocardial infarction and total mortality in newly detected non-insulin-dependent diabetes mellitus (NIDDM). Blood pressure and triglyceride levels were also found to be risk factors. Data from patients in the Study to Prevent NIDDM show that patients with impaired glucose tolerance (IGT) have higher fasting levels of triglycerides, and higher fasting and postprandial levels of pro-insulin, insulin, and C-peptide levels, compared with those who have normal glucose tolerance (NGT). Postprandial data at 2 h showed that hyperinsulinaemia was prolonged in subjects with IGT compared with their NGT counterparts. Postprandial pro-insulin levels at 2 h were also increased in subjects with IGT, and were found to have the best discriminating power between subjects with IGT and NGT. Those with IGT also secreted markedly higher levels of insulin, indicated by C-peptide levels, than those with NGT. These data support the possibility that subjects with IGT are at an increased risk of conditions such as atherosclerotic disease, even though they have not developed manifest NIDDM. Intervention with agents that can affect risk factors, such as triglyceride levels and postprandial hyperglycaemia, are expected to reduce the risk of atherosclerosis. One promising agent is acarbose, an antihyperglycaemic drug that significantly reduces postprandial insulin and triglyceride levels and has no effect on leptin levels. The ability of acarbose to improve glycaemic control without the potential for inducing hyperinsulinaemia and weight gain appears to give it an advantage over oral antidiabetic agents such as the sulphonylureas.
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PMID:The postprandial state and the risk of atherosclerosis. 947 69

It is currently thought that the effects of PPARgamma activation on glucose homeostasis may be due to the effect of this nuclear receptor on the production of adipocyte-derived signalling molecules, which affect muscle glucose metabolism. Potential signalling molecules derived from adipocytes and modified by PPARgamma activation include TNFalpha and leptin, which both interfere with glucose homeostasis. In addition to its effects on these proteins, PPARgamma also profoundly affects fatty acid metabolism. Activation of PPARgamma will selectively induce the expression of several genes involved in fatty acid uptake, such as lipoprotein lipase, fatty acid transport protein and acyl-CoA synthetase, in adipose tissue without changing their expression in muscle tissue. This co-ordinate regulation of fatty acid partitioning by PPARgamma results in an adipocyte 'FFA steal' causing a relative depletion of fatty acids in the muscle. Based on the well established interference of muscle fatty acid and glucose metabolism it is hypothesized that reversal of muscle fatty acid accumulation will contribute to the improvement in whole body glucose homeostasis.
Atherosclerosis 1998 Apr
PMID:PPARgamma activators improve glucose homeostasis by stimulating fatty acid uptake in the adipocytes. 969 45

The present review discusses recent research showing adipose tissue to be highly metabolically active, producing and releasing many different bioactive compounds besides free fatty acids (FFA) such as tumor necrosis factor alpha (TNF alpha), leptin, acetylation stimulating protein (ASP), plasminogen activator inhibitor-1 (PAI-1), cholesterol ester transfer protein (CETP), prostaglandins and oestrogens. Most of these compounds have autocrine effects on the adipose cells and they are presumably involved in the physiological regulation of blood flow, growth and metabolism of the adipose tissue. When the adipose tissue becomes enlarged, as seen in association with obesity, it has now been shown that several of the compounds produced in the adipose tissue (TNF, PAI-1, CETP etc.) may be directly involved in the pathogenesis of some of the complications commonly seen in association with obesity such as insulin resistance, hypertension, enhanced thrombogenesis, and premature atherosclerosis.
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PMID:[The auto- and endocrine function of the adipose tissue. Significance for metabolic complications in obesity]. 985 22

Human umbilical vein endothelial cells (HUVEC) express functional receptors to leptin, the product of the ob gene. As human obesity is associated with atherosclerosis and hyperleptinemia, we investigated whether leptin, in addition to its angiogenic properties, exerts atherogenic effects through the generation of oxidative stress in endothelial cells. In HUVEC leptin increased the accumulation of reactive oxygen species (ROS), as assessed by the oxidation of 2', 7'- dichlorodihydrofluorescein, in a time- and concentration-dependent manner. In addition, leptin activated the NH2-terminal c-Jun kinase/stress-activated protein kinase pathway as demonstrated by enhanced JNK activity and AP-1 DNA binding. Both effects were sensitive to antioxidant treatment with N-acetylcysteine. NF-kappaB, another redox-sensitive transcription factor, was also activated by leptin stimulation in an oxidant-dependent manner. Finally, activation of both AP-1 and NF-kappaB was associated with an enhanced expression of the monocyte chemoattractant protein-1 in HUVEC. These findings demonstrate that ROS are second messengers involved in leptin-induced signaling in endothelial cells. Thus, chronic oxidative stress in endothelial cells under hyperleptinemia may activate atherogenic processes and contribute to the development of vascular pathology.
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PMID:Leptin induces oxidative stress in human endothelial cells. 1038 13

Hyperleptinemia is considered to be one of predictors of early atherosklerosis complications. This stimulated us to investigate differences between leptinemia in persons with accelerated atherosclerosis and leptinemia in probands without atherosclerosis complications. The study also verified whether leptinemia and its relationship to other anthropometric and biochemical parameters can differ in hypolipemic-treated probands and hypolipemic-untreated individuals. We examined 89 probands with accelerated atherosclerosis. The controls were 20 persons without any signs of accelerated atherosclerosis. Probands with accelerated atherosclerosis had a slight hyperglycemia and were slightly obese, but they did not meet criteria of metabolic cardiovascular syndrome. No significant differences between both groups under study were found in terms of anthropometric and biochemical parameters (BMI, % body fat, glycemia, insulin, C-peptide, intact proinsulin, total proinsulin cholesterol, HDL, triglycerides, LDL, homeostatic model of insulin secretion and resistance). Leptin concentration was not different as well. Stratification into males and females showed that women had a significantly higher leptinemia and fat tissue mass. Other biochemical parameters were similar in both groups. We suppose that in individuals without signs of metabolic syndrome, leptinemia does not belong among predictors of accelerated atherosclerosis. The accelerated atherosclerosis persons were then divided into subgroups according to medication (28 probands--pravastatin Lipostat 20, 15 probands--phenofibrate Lipanthyl 200M, 9 probands--simvastatin Zocor 20, 47 probands--no hypolipemic medication). No significant differences between the groups were found in terms of the analysed anthropometric and biochemical parameters, except leptinemia. The pravastatin-medicated probands had a significantly lower leptinemia (significant at 99% significance level) which was evidently sex-related than other patients. The pravastatin-administered persons showed no correlation between leptinemia and body fat mass (in contrast to other groups where such a correlation was highly statistically significant). These findings can be explained by a still unclear effect of pravastatin on insulin metabolism and on other factors involved in leptin synthesis and elimination. Thus, a new therapeutic effect of pravastatin can be supposed. This may account for a highly favourable effect of pravastatin on reduced manifestations of atherosclerosis complications event at a low LDL cholesterol decrease (particularly in persons with metabolic cardiovascular syndrome).
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PMID:[Serum leptin, early atherosclerosis and hypolipidemia (a new, previously undescribed effect of pravastatin, a hypolipemic agent)]. 1042 91

Turkish men and women have about 20% lower mean levels of HDL-C and apoA-I than German individuals. To obtain some information on the metabolic basis of this difference, we compared anthropometric data as well as serum levels of leptin, insulin, testosterone (T), estradiol (E2), and sex hormone binding globuline (SHBG) in 289 German and 120 Turkish men as well as in 108 German and 182 Turkish women aged 20-60. Individuals who smoke, take hormones, have overt diabetes mellitus, BMI > 30 kg/m2, triglycerides > 400 mg/dl, or LDL-cholesterol > 200 mg/dl were excluded. In both sexes, Turks had significantly lower levels of HDL-C, apoA-I, Lp(a), and SHBG than Germans. Moreover, German men had a larger waist circumference, lower levels of E2 and a lower ratio of T/SHBG. German women also had a lower BMI, smaller waist circumference, lower insulin levels and higher T levels. Mean values of age, waist-hip-ratio (WHR), leptin, triglycerides, LDL-C, and apoB did not differ significantly among Germans and Turks. Upon univariate analysis HDL-C had inverse correlations with BMI, waist circumference, WHR, leptin, and insulin as well as positive correlations with SHBG in both sexes. Upon multivariate analysis, most of the different levels of HDL-C and apoA-I between Germans and Turks were explained by ethnicity, independently of obesity markers, insulin, and sex hormones.
Atherosclerosis 1999 Jul
PMID:Associations of obesity markers, insulin, and sex hormones with HDL-cholesterol levels in Turkish and German individuals. 1042 5

Leptin, the satiety hormone expressed almost exclusively in adipose tissue, is a marker of body fat accumulation in humans. Recent studies have shown that plasminogen activator inhibitor-1 (PAI-1), a prothrombotic factor associated with atherosclerosis complications, is also produced in adipose tissue. The objective of the present study was to determine whether PAI-1 antigen plasma concentrations are associated with leptin plasma levels or the body fat mass (FM) independently of the variables known to influence PAI-1 production. Sixty-one nondiabetic women aged 18 to 45 years with a wide range of values for the body mass index ([BMI] 18.1 to 37.7 kg/m2) were evaluated for (1) body FM and fasting plasma levels of (2) PAI-1 antigen, (3) PAI-1 activity, (4) leptin, (5) insulin, (6) blood glucose, and (7) lipids (cholesterol, high-density lipoprotein [HDL]-cholesterol, and triglycerides [TG]). Body FM and fat-free mass (FFM) were estimated during fasting conditions by the bioimpedance analysis (BIA) method using a tetrapolar device. Body fat distribution was evaluated by the waist circumference and the waist to hip ratio (WHR). FM was directly associated with both PAI-1 antigen (r = .585, P < .001) and PAI-1 activity (r = .339, P < .001). Seemingly, leptin was positively related to both PAI-1 antigen (r = .630, P < .001) and PAI-1 activity (r = .497, P < .001). Moreover, both PAI-I antigen and PAI-1 activity were directly correlated with FFM (r = .285, P < .05, and r = .336, P < .01, respectively), BMI (r = .594, P < .001, and r = .458, P < .001, respectively), and WHR (r = .510, P < .001, and r = .391, P < .005, respectively). Insulin was directly related to PAI-1 antigen (r = .540, P < .001), PAI-1 activity (r = .259, P < .05), leptin (r = .447, P < .001), and FM (r = .435, P < .001). The association between PAI-1 antigen (dependent variable) and leptin or FM was tested by a stepwise regression model simultaneously including leptin, FM, BMI, WHR, age, FFM, and fasting insulin, blood glucose, TG, cholesterol, and HDL-cholesterol as independent variables. PAI-1 antigen maintained a significant positive independent relationship only with leptin (t = 2.923, P < .01), insulin (t = 3.489, P < .001), and fasting blood glucose (t = 2.092, P < .05), and a negative independent relationship with HDL-cholesterol (t = -2.634, P < .05). In conclusion, the strong relationship between PAI-1 antigen and leptin irrespective of other variables known to influence these factors seems to indicate that leptin per se may potentially increase PAI-1 plasma concentrations in obese subjects.
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PMID:Plasma plasminogen activator inhibitor-I is associated with plasma leptin irrespective of body mass index, body fat mass, and plasma insulin and metabolic parameters in premenopausal women. 1045 58

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