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Query: UMLS:C0028754 (obesity)
 124,988 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In Sprague-Dawley rats, fatty acid synthase (FAS) activity is suppressed by dietary fat. To test the hypothesis that a defect in regulation of de novo fatty acid synthesis exists in massive obesity, we investigated the effect of diet on FAS mRNA levels in genetically obese JCR:LA-corpulent (cp) rats. We also determined levels of mRNA encoding adipsin, a fat cell-derived protein possibly associated with lipid metabolism. Hepatic FAS mRNA levels were elevated five-fold in obese compared to lean cp rats and were unsuppressed by dietary fat. Dietary sucrose increased FAS mRNA levels in lean cp rats, but, in contrast to Sprague-Dawley rats, little deposition of lipid resulted. Adipsin mRNA levels were fivefold lower in obese cp and Sprague-Dawley rats than in lean cp rats and were unaffected by diet. We conclude that exaggerated de novo fatty acid synthesis may play a major role in the pathogenesis of obesity in obese JCR:LA-corpulent rats.
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PMID:Fatty acid synthase and adipsin mRNA levels in obese and lean JCR:LA-cp rats: effect of diet. 155 31

Adipsin gene expression is severely diminished in certain forms of genetic and acquired rodent obesity. Common to many of these models of obesity is decreased sympathetic nervous system (SNS) activity. In addition, treatment of MSG obese mice with the sympathomimetic drug mixture ephedrine and caffeine restores adipsin deficiency to normal, while reversing obesity. Based on these observations, we hypothesized that adipsin gene expression might be regulated through changes in SNS activity with deficient adipsin gene expression in obesity being the result of impaired SNS activity. In the present study we used three models to assess the role of the SNS in regulating adipsin gene expression. First we exposed mice to the cold (4 degrees C), a potent activator of SNS activity. Second, we chemically sympathectomized mice with 60H-dopamine. Third, we treated mice with BRL 26830A, an atypical beta adrenoreceptor agonist. In contrast to our initial hypothesis, these studies demonstrate that alterations of SNS activity do not affect adipsin gene expression in normal mice. Neither increased SNS activity secondary to cold exposure nor decreased SNS activity resulting from sympathectomy alter serum adipsin concentration or adipsin mRNA levels in white (WAT) and brown adipose tissue (BAT). Surprisingly, treatment of lean mice with BRL 26830A decreases both adipsin serum concentrations and adipsin mRNA levels, suggesting a potential role for atypical beta adrenoreceptors in pathways that suppress adipsin expression in vivo. The significance of this observation with respect to adipocyte physiology is unclear at present. Future studies will be aimed at defining the molecular mechanisms by which BRL 26830A suppresses adipsin gene expression and the physiological significance of this effect.
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PMID:Alterations in sympathetic nervous system activity do not regulate adipsin gene expression in mice. 164 81

Adipsin is a serine protease with complement factor D activity that is synthesized by adipocytes and secreted into the blood stream. Expression of adipsin is deficient in models of genetic (ob/ob, db/db) and acquired (monosodium glutamate-lesioned) obesity, but the cellular mechanisms responsible for this deficiency are unknown. Because hyperinsulinemia is frequently associated with obesity, we evaluated the effects of this hormone and insulin-like growth factor 1 (IGF-1) on adipsin secretion and adipsin messenger RNA (mRNA) levels in 3T3-F442A adipocytes. In the present study, we report that in fully differentiated adipocytes (after 11 days post confluence), insulin exposure progressively decreases adipsin secretion by 40%, 67%, and 78% after 2, 4, and 6 days of treatment. The inhibition of adipsin secretion by insulin is the result of a corresponding decrease in adipsin mRNA and is specific since two other differentiation-dependent fat cell mRNAs encoding aP2 (a fatty acid binding protein) and glycerophosphate dehydrogenase (GPD), are unaffected. Insulin suppresses adipsin gene expression via high affinity insulin receptors, because physiological levels of insulin produce this effect, and dose-response curves for insulin stimulation of 2-deoxyglucose uptake and glucose utilization are similar to insulin's effect on adipsin. In contrast, insulin when present during days 1-8 post confluence (during differentiation) markedly increases adipsin secretion and adipsin mRNA levels. This stimulation is due to the ability of insulin to accelerate differentiation as evidenced by corresponding increases in aP2 and GPD mRNAs as well. Insulin and IGF-1 are equipotent in this effect, suggesting that both insulin and IGF-1 receptors can mediate this response. In summary, during the differentiation of 3T3-F442A adipocytes, insulin stimulates adipsin gene expression by accelerating differentiation. As the cells become mature adipocytes, they acquire some differentiation-dependent factor, which couples insulin receptor stimulation to inhibition of adipsin gene expression. This model should aid our search for the molecular links between insulin receptor stimulation and altered gene expression.
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PMID:Differentiation dependent biphasic regulation of adipsin gene expression by insulin and insulin-like growth factor-1 in 3T3-F442A adipocytes. 224 32

Adipsin gene expression is greatly diminished in certain forms of genetic and acquired obesity. In the present study we evaluate the time course for the development of adipsin deficiency in obesity and its regulation by the sympathomimetic-thermogenic drug mixture ephedrine and caffeine. Previously, it was unknown whether adipsin deficiency occurred before or after the development of massive obesity. In the first series of experiments in which mice were treated with monosodium glutamate (MSG) for the first week of life, we demonstrate that adipsin deficiency occurs early in the development of MSG-induced obesity as evidenced by decreased circulating adipsin concentrations by 1 week of age and deficient adipsin mRNA levels in white adipose tissue (WAT) by 2 weeks. In db/db mice, diminished circulating adipsin was noted at 2 weeks of age. In both models, decreased adipsin gene expression precedes the development of marked obesity. Little is known about the factors which regulate adipsin gene expression in obesity. Common to the ob/ob, db/db and MSG models is diminished thermogenesis and sympathetic nervous system activity. In a second series of experiments we sought to determine whether adipsin deficiency in obesity could be corrected by treatment with ephedrine and caffeine (E+C), a sympathomimetic-thermogenic mixture previously shown to increase thermogenesis and reverse obesity in some models. In the present study, E+C treatment of MSG obese mice reversed obesity and markedly increased serum adipsin and adipsin mRNA levels in WAT and brown adipose tissue (BAT). In ob/ob mice, however, E+C treatment produced a negligible increase in adipsin mRNA levels in WAT and BAT as well as serum adipsin concentrations and this correlated with only a very small decrease in obesity. Thus, the ability of E+C to increase adipsin gene expression correlated with its ability to reverse obesity in these two models. Finally, the effect of E+C on adipsin gene expression may not be exerted directly on the fat cell since treatment of cultured 3T3-F442A adipocytes and isolated rat adipocytes in primary culture produced no effect on adipsin mRNA or secreted protein despite a lipolytic effect as measured by increased glycerol release. In summary, decreased adipsin gene expression occurs early in the development of MSG and db/db obesity and is markedly increased in the MSG model by the sympathomimetic-thermogenic drug mixture, E+C, which also reverses obesity. Elucidation of the factors responsible for these effects may enhance our understanding of fat cell gene regulation and obesity.
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PMID:Reduced adipsin expression in murine obesity: effect of age and treatment with the sympathomimetic-thermogenic drug mixture ephedrine and caffeine. 230 16

The nature of the primary biochemical lesions in genetically obese mice, which might prove to be useful models for human obesity, remains totally obscure. The recent finding that the expression of adipsin was virtually suppressed in both db/db and ob/ob adult mice has opened new perspectives, suggesting a potential role for this defect in the pathogenesis of obesity. To be of etiological significance, adipsin deficiency must be present very early in life when excess fat storage starts to develop. We show here that at 10 days of age db/db pups exhibit significantly overdeveloped adipose tissue as compared with lean (+/db) pups but similar levels of both adipose tissue adipsin mRNA and serum adipsin. Adipsin expression was still normal in obese mice 15 days old but frankly deficient at 30 days of age when hyperinsulinemia has developed. Thus the defect in adipsin expression in db/db mice is a secondary feature which cannot be ascribed a role in the onset of obesity.
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PMID:Impairment of adipsin expression is secondary to the onset of obesity in db/db mice. 240 73

Adipsin is a serine protease that is secreted by adipocytes into the bloodstream; it is deficient in several animal models of obesity, representing a striking example of defective gene expression in this disorder. Recombinant mouse adipsin was purified and its biochemical and enzymatic properties were studied in order to elucidate the function of this protein. Activated adipsin has little or no proteolytic activity toward most substrates but has the same activity as human complement factor D, cleaving complement factor B when it is complexed with activated complement component C3. Like authentic factor D, adipsin can activate the alternative pathway of complement, resulting in red blood cell lysis. Decreased (58 to 80 percent) complement factor D activity, relative to lean controls, was observed as a common feature of several experimental models of obesity, including the ob/ob, db/db, and monosodium glutamate (MSG)-injected mouse and the fa/fa rat. These results suggest that adipsin and the alternative pathway of complement may play an unexpected but important role in the regulation of systemic energy balance in vivo.
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PMID:Adipsin and complement factor D activity: an immune-related defect in obesity. 273 15

The mouse adipsin gene encodes a member of the serine protease family that is expressed predominantly in adipose tissue and is secreted into the bloodstream. Adipsin expression is sharply down-regulated in several models of genetic and acquired obesity, representing the first example of an adipocyte gene whose expression is greatly altered in this disorder. In this study, we have asked whether a DNA fragment from the adipsin gene can direct tissue-specific expression of a heterologous gene and mediate the suppression of this expression in genetic and chemically induced obesity. Transgenic mice have been constructed with 950 bases of DNA from the 5' flanking region of the adipsin gene linked to the bacterial chloramphenicol acetyltransferase (CAT) gene in a mouse strain bearing a recessive obesity gene (diabetes, db). By crossing db/+ transgenic mice with nontransgenic db/+ mice, we obtained progeny that allowed a direct comparison of CAT expression in the tissues of lean and obese littermates. The lean mice express CAT activity predominantly in adipose tissue, while the obese mice show a marked reduction in CAT expression relative to the lean controls. When similar experiments are performed with an adipsin-CAT fusion gene containing a heterologous AKV (AKR mouse leukemia virus) enhancer, the tissue specificity of CAT expression in lean mice is broadened to include the thymus, spleen, brain, and other tissues; down-regulation occurs in all of these tissues in mice homozygous for the obesity gene or in mice that have been injected with monosodium glutamate (MSG), which induces obesity. These results indicate that 950 bases of the 5' flanking region of the adipsin gene carry information that specifies both expression in adipose tissue and a response to a gene or chemical that induces obesity. These results also suggest that the trans-acting factors that are regulated aberrantly in these forms of obesity are not restricted to adipose tissue and could play a role in obesity-linked dysfunctions observed in other tissues as well.
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PMID:Obesity-linked regulation of the adipsin gene promoter in transgenic mice. 279 20

Adipsin expression at the protein and mRNA levels is greatly reduced in several distinct syndromes of obesity in the mouse: genetic obesity due to the db/db and ob/ob genes, and a chemically induced model secondary to neonatal exposure to monosodium glutamate. We considered first the possibility that the adipsin gene might be identical to the db or ob locus and the lowered expression of this protein might result from a mutation in this gene. We show here that the adipsin structural gene is located on chromosome 10 and hence is physically distinct from any obesity genes so far identified in the mouse. A major role for the adrenal gland and adrenal glucocorticoids in the aberrant regulation of adipsin in these models of obesity is indicated by several experiments. Adrenalectomy of the ob/ob mouse raises the circulating levels of adipsin protein and the amount of this mRNA in epididymal fat pads (5-fold), although neither is increased to the levels seen in lean controls. Exogenous administration of corticosterone completely blocks the effects of adrenalectomy on adipsin, suggesting that the effect of this endocrine ablation is through reduction of adrenal glucocorticoids. Corticosterone administration also causes suppression in the levels of adipsin mRNA and protein in lean mice, although this decrease is never as severe as that seen in obese mice. The effect of exogenous corticosterone in lean mice occurs within 2 days and hence is not secondary to the obesity which these hormones eventually elicit. These results indicate that glucocorticoids can regulate adipsin expression in vivo and strongly suggest that the hyperglucocorticoid state seen in certain obese models plays a significant role in lowering adipsin mRNA and protein levels. Quantitative analysis of these experiments suggests that other as yet unknown neuroendocrine factors also function to suppress adipsin in obesity.
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PMID:Adrenal glucocorticoids regulate adipsin gene expression in genetically obese mice. 291 85

Adipsin gene expression as assessed by mRNA amounts was examined in adipose tissue of genetically obese rats at the onset (16 days of age) or at later stages (30 and 60 days of age) of obesity. Amounts of mRNA were equivalent in obese and lean rats at 16 days of age. In adult rats, we observed a 2-fold decrease in adipsin mRNA in the obese rats compared with control lean rats, which was abolished by weaning the animals on a high-fat diet. Our data show that, in sharp contrast with genetically obese mice, adipsin mRNA is not suppressed in genetically obese Zucker rats.
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PMID:Adipsin mRNA amounts are not decreased in the genetically obese Zucker rat. 293 Apr 96

Adipsin, a serine protease homolog, is synthesized and secreted by adipose cells and is found in the bloodstream. The expression of adipsin messenger RNA (mRNA) and protein was analyzed in rodents during metabolic perturbations and in several experimental models of obesity. Adipsin mRNA abundance is increased in adipose tissue during fasting in normal rats and in diabetes due to streptozotocin-induced insulin deficiency. Adipsin mRNA abundance decreased during the continuous infusion of glucose, which induces a hyperglycemic, hyperinsulinemic state that is accompanied by an increased adipose mass; it is suppressed (greater than 100-fold) in two strains of genetically obese mice (db/db and ob/ob), compared to their congenic counterparts, and is also reduced when obesity is induced chemically by injection of monosodium glutamate into newborn mice. Circulating adipsin protein is decreased in these animal models of obesity, as determined by immunoblotting with antisera to adipsin. Little change in adipsin expression is observed in a model of obesity obtained by pure overfeeding of normal rats (cafeteria model). These data suggest a possible role for adipsin in the above-mentioned disordered metabolic states, and raise the possibility that adipsin expression may be used to distinguish obesities that arise from certain genetic or metabolic defects from those that result from pure overfeeding.
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PMID:Severely impaired adipsin expression in genetic and acquired obesity. 329 6


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