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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 receptors are supposed to have signal effects and are located in most tissues in the organism but we failed to find literary data on concentration (measurement) of leptin receptors in the system circulation. We examined by the method of randomized selection the group of 20 patients with manifested atherosclerosis in whom BMI was calculated. Then we analyzed concentration of leptin receptor (double sandwich ELISA, standard recombinant human leptin), leptin, glucose, insulin, proinsulin, CRP and uric acid in the serum. The control group consisted of 103 probands without signs of atherosclerosis or other manifested diseases. The control group was subjected to determination of BMI, leptin and leptin receptor in the serum. Concentration of leptin receptor does not differ significantly between the patients with atherosclerosis and normal population. Probands with atherosclerosis showed a very close negative correlation between concentration of leptin receptor and leptinemia which is absent in normal population.
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PMID:Determination of leptin receptor in the serum and relations to laboratory and anthropological parameters in patients with atherosclerotic complications. 1074 33

Leptin is produced in adipose tissue and acts in the hypothalamus to regulate food intake. However, recent evidence also indicates a potential for direct roles for leptin in peripheral tissues, including those of the immune system. In this study, we provide direct evidence that macrophages are a target tissue for leptin. We found that J774.2 macrophages express the functional long form of the leptin receptor (ObRb) and that this becomes tyrosine-phosphorylated after stimulation with low doses of leptin. Leptin also stimulates both phosphoinositide 3-kinase (PI 3-kinase) activity and tyrosine phosphorylation of JAK2 and STAT3 in these cells. We investigated the effects of leptin on hormone-sensitive lipase (HSL), which acts as a neutral cholesterol esterase in macrophages and is a rate-limiting step in cholesterol ester breakdown. Leptin significantly increased HSL activity in J774.2 macrophages, and these effects were additive with the effects of cAMP and were blocked by PI 3-kinase inhibitors. Conversely, insulin inhibited HSL in macrophages, but unlike adipocytes, this effect did not require PI 3-kinase. These results indicate that leptin and insulin regulate cholesterol-ester homeostasis in macrophages and, therefore, defects in this process caused by leptin and/or insulin resistance could contribute to the increased incidence of atherosclerosis found associated with obesity and type 2 diabetes.
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PMID:Insulin and leptin acutely regulate cholesterol ester metabolism in macrophages by novel signaling pathways. 1133 38

Leptin, the product of ob gene, is an endocrine hormone that regulates adipose tissue mass. Recently, leptin has been found to generate a growth signal involving a tyrosine kinase-dependent intracellular pathway and promote angiogenic processes via activation of leptin receptor (Ob-R) in endothelial cells. However, it is not clear how leptin functions to promote multi-step processes involved in the neovascularization at the atherosclerotic plaque. We have examined the expression of matrix metalloproteinases (MMPs) and tissue inhibitors of metalloproteinases (TIMPs) and Ob-R in human atherosclerotic lesions, leptin-mediated angiogenesis in vivo and in vitro. Immunohistochemical analysis of human atherosclerotic aorta revealed an increased expression of Ob-R in the intima of neorevascularized regions and of both MMPs and TIMPs predominantly in the endothelial lining of intimal neovessels and macrophages/foam cells. In the rat corneal angiogenesis assay, leptin elicited a comparable sensitivity of angiogenic activity to those of vascular endothelial growth factor (VEGF). The immunohistological analysis of the leptin-treated rat cornea showed definitive rises in Ob-R, MMPs and TIMPs expression as well as those of VEGF receptor (VEGFR-1). Leptin (10-40 ng/ml) induced proliferation of the human umbilical vein endothelial cells (HUVECs) and elevation of MMP-2, MMP-9, TIMP-1, and TIMP-2 expression in a dose-dependent manner. Leptin also induced increases of MMP-2, MMP-9, TIMP-1, and Up-regulated the human coronary artery smooth muscle cells (HCASMCs). These findings suggest that leptin, a hormone with pluralistic properties including a mitogenic activity on vascular endothelial cells, plays a role in matrix remodeling by regulating the expression of MMPs and TIMPs. Taken together, our findings further provide evidences for leptin's role as an angiogenesis inducer in the normal organ (rat cornea) and in aberrant vasculature under duress like atherosclerosis.
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PMID:Potential role of leptin in angiogenesis: leptin induces endothelial cell proliferation and expression of matrix metalloproteinases in vivo and in vitro. 1146 Aug 88

The prevalence of obesity is rising at an alarming rate worldwide, with consequent increases in type 2 diabetes, hypertension and cardiovascular morbidity and mortality. Central neural mechanisms, via the activation of the sympathetic nervous system may contribute to obesity-related cardiovascular diseases through the promotion of hypertension, dysrhythmia and atherosclerosis. However, the mechanisms responsible for this sympatho activation have not been identified. Leptin is an adipocyte-derived hormone that promotes weight loss by reducing appetite and by increasing energy expenditure through sympathetic stimulation to thermogenic tissue. Leptin also produces sympathoactivation to kidneys, hindlimb and adrenal glands, suggesting that the obesity-associated increase in sympathetic nerve activity could be due in part to these sympathetic effects of leptin. However, most human obesity appears to be associated with leptin resistance. Recent studies indicate that leptin resistance may be selective, with preservation of adverse sympathetic effects despite the loss of the metabolic actions of leptin. The leptin receptor is expressed in several hypothalamic nuclei including the arcuate nucleus. The melanocortin system, neuropeptide Y and corticotrophin-releasing factor have emerged as principal neuropeptide mediators of leptin action in the arcuate nucleus. These neuropeptides exert varying effects by different pathways. Several other candidate hypothalamic pathways that can mediate the effects of leptin have been identified. The understanding of neuronal signaling pathways involved in leptin signaling and energy balance has opened new research possibilities for the treatment of obesity.
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PMID:Leptin and the central neural mechanisms of obesity hypertension. 1258 70

The metabolic syndrome in association with obesity is a major clinical problem inducing hypertension, diabetes mellitus, and atherosclerosis. Leptin induces angiogenesis by its proliferative effects on endothelial cells (ECs) via OB receptor (OB-Rb) gene. We evaluated the growth of ECs and intracellular signalings in response to leptin in vitro and the angiogenic effects of leptin in the cornea in vivo with and without adenovirus-mediated transfer of the OB-Rb gene in Zucker fatty (ZF) rats as a model for the metabolic syndrome. Recombinant adenovirus vector encoding rat OB-Rb (Ad.OB-Rb) or Escherichia coli. LacZ (Ad.LacZ) was transfected into cultured ECs from Zucker lean (ZL) rats and ZF rats. Leptin increased DNA synthesis dose-dependently in ECs from ZL rats but not ZF rats. Infection with Ad.OB-Rb, but not with Ad.LacZ, improved the growth effects of leptin in ECs from ZF rats. Leptin induced phosphorylation of Janus kinase (JAK)2, signal transducer and activator of transcription (STAT)3, and extracellular signal-regulated kinase (ERK) in ECs from ZL rats but not ZF rats. Infection with Ad.OB-Rb restored phosphorylation of JAK2 and STAT3 in ECs from ZF rats. Leptin induced angiogenesis in cornea from ZL rats, but not from ZF rats. Coadministration of leptin and Ad.OB-Rb induced angiogenesis in cornea from ZF rats. Ad.LacZ did not influence the angiogenic effects of leptin. The impaired endothelial function with the leptin resistance may be one of causes of the atherosclerosis in the metabolic syndrome.
Atherosclerosis 2003 Aug
PMID:Effects of leptin on endothelial function with OB-Rb gene transfer in Zucker fatty rats. 1292 73

From the perspective of a muscle physiologist, adipose tissue has long been perceived predominantly as a fuel reservoir that provides muscle and other tissues with NEFA when exogenous nutrients are insufficient for their energy needs. Recently, studies have established that adipose tissue is also an endocrine organ. Among the hormones it releases are adiponectin and leptin, both of which can activate AMP-activated protein kinase and increase fatty acid oxidation in skeletal muscle and probably other tissues. Deficiencies of leptin or leptin receptor, adiponectin and IL-6 are associated with obesity, insulin resistance and a propensity to type 2 diabetes. In addition, a lack of adiponectin has been linked to atherosclerosis. Whether this pathology reflects a deficient activation of AMP-activated protein kinase in peripheral tissues remains to be determined. Finally, recent studies have suggested that skeletal muscle may also function as an endocrine organ when it releases the cytokine IL-6 into the circulation during sustained exercise. Interestingly, one of the apparent effects of IL-6 is to stimulate lipolysis, causing the release of NEFA from the adipocyte. Thus, hormonal communications exist between the adipocyte and muscle that could enable them to talk to each other. The physiological relevance of this cross talk clearly warrants further study.
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PMID:Metabolic and hormonal interactions between muscle and adipose tissue. 1529 59

Adipose tissue has recently emerged as an active endocrine organ that secretes a variety of metabolically important substances, collectively called adipocytokines or adipokines. In this review we summarize the effects of the adipokines leptin, adiponectin, and resistin on the vasculature and their potential role for pathogenesis of vascular disease. Leptin is associated with arterial wall thickness, decreased vessel distensibility, and elevated C reactive protein (CRP) levels. Leptin possesses procoagulant and antifibrinolytic properties, and it promotes thrombus and atheroma formation, probably through the leptin receptors by promoting vascular inflammation, proliferation, and calcification, and by increasing oxidative stress. Research for development of pharmacologic antagonism for the leptin receptor is currently under way. Adiponectin inhibits the expression of the adhesion molecules ICAM-1, VCAM-1, and P selectin. Therefore, it interferes with monocyte adherence to endothelial cells and their subsequent migration to the subendothelial space, one of the initial events in the development of atherosclerosis. Adiponectin also inhibits the transformation of macrophages to foam cells in vitro and decreases their phagocytic activity. Resistin, discovered in 2001, represents the newest of the adipokines and was named for its ability to promote insulin resistance. Resistin increases the expression of the adhesion molecules VCAM-1 and ICAM-1, up-regulates the monocyte chemoattractant chemokine-1, and promotes endothelial cell activation via ET-1 release. Although many aspects of its function need further clarification, it appears that resistin will add significantly to our knowledge of the pathophysiology of vascular disease and the metabolic syndrome.
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PMID:Effects of adipocyte-derived cytokines on endothelial functions: implication of vascular disease. 1591 85

Circulating endothelial progenitor cells (EPCs) may be involved in the maintenance of vascular homeostasis and their impairment may be conducive to vascular disease. We studied the role of an adipocyte-derived hormone, leptin, in the regulation of human EPC function. EPCs were grown from human circulating mononuclear cells. The presence of the leptin receptor and the functional effects of leptin in EPCs were investigated. EPCs stained positive for endothelial cell markers (Flk-1 and Tie-2 receptors) and the hematopoietic CD34 marker. The presence of the long form of the leptin receptor in EPCs was confirmed by Western blotting and with immunofluorescence. Leptin, at a physiological concentration of 10 ng/ml, significantly increased tube formation from 2.1+/-2.2 to 12.4+/-4.9 tubes/25 mm2. At a higher concentration of 100 ng/ml of leptin, tube formation was reduced compared to the lower concentration. This higher concentration of leptin also inhibited EPC migration, decreasing it from 0.45+/-0.14 to 0.28+/-0.12 mm/48 h. Leptin did not have any effect on EPC proliferation. In summary, the leptin receptor is present in human EPCs and leptin may affect EPC function, both in physiological and in hyperleptinemic conditions. These findings are relevant to leptin-mediated regulation of vasculogenesis in humans, and the association between hyperleptinemia and obesity with cardiovascular disease.
Atherosclerosis 2005 Nov
PMID:Leptin receptor and functional effects of leptin in human endothelial progenitor cells. 1595 Sep 78

Leptin is an adipocyte-derived hormone that plays a major role in the regulation of energy homeostasis through its action in the central nervous system. Leptin also acts on several peripheral tissues, including the vascular endothelium. The leptin receptor has been identified in endothelial cells. Leptin action on the endothelium modulates several physiologic processes, with potential implications in pathophysiologic diseases associated with obesity. Leptin stimulation of angiogenesis has attracted attention because of its potential involvement in retinopathy and atherosclerosis. Leptin activation of endothelial oxidative stress also has implications in atherosclerosis and inflammation. However, data on the impact of the endothelial effect of leptin on arterial pressure are contrasting. Although some investigators have shown that leptin action on the endothelial nitric oxide system tends to decrease arterial pressure, others have shown no contribution from the endothelial effect of leptin to the control of arterial pressure. Further characterization of the endothelial effects of leptin will, it is hoped, help in the understanding of the different pathophysiologic diseases associated with obesity.
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PMID:Endothelial effects of leptin: implications in health and diseases. 1603 75

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