Elevated serum C-reactive protein and free fatty acids among nondiabetic carriers of missense mutations in the gene encoding lamin A/C (LMNA) with partial lipodystrophy.
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OBJECTIVE: Dunnigan-type familial partial lipodystrophy (FPLD) due to mutant LMNA is a monogenic form of insulin resistance. Affected subjects, especially women, are at increased risk of early coronary heart disease (CHD). Although common insulin resistance is associated with several biochemical perturbations, including elevated C-reactive protein (CRP), the biochemical profile in subjects with mutant LMNA is incompletely defined. METHODS AND RESULTS: We studied 35 nondiabetic adult FPLD subjects (of whom 24 were women) with either the LMNA R482Q or R482W missense mutations and 51 matched normal first-degree relatives (of whom 27 were women). Compared with normal controls, LMNA mutation carriers had significantly higher plasma insulin and more dyslipidemia, higher mean triglycerides and lower HDL cholesterol, significantly higher nonesterified free fatty acids and CRP, and significantly lower leptin and adiponectin than controls. Subgroup analyses showed that these differences were more pronounced in women. Other biomarkers such as resistin, fibrinogen, and plasminogen activator inhibitor-1 were not different between groups. CONCLUSIONS: LMNA mutations in nondiabetic patients with FPLD are associated with several metabolic and biochemical changes, particularly in women. The unfavorable profile might contribute to the increased susceptibility to CHD seen in LMNA mutation carriers. (+info)
Lipoapoptosis: its mechanism and its diseases.
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The balance between cell division and cell death determines the cell population of an organ. When cell death exceeds cell replacement in an organ, a functional deficit is created. A metabolic cause of programmed cell death, lipoapoptosis, has recently been identified to occur in obesity and aging. If nonadipose tissues are exposed to an excess of long-chain fatty acids, unless leptin action increases their oxidation sufficiently, unoxidized fatty acids enter nonoxidative pathways. While initially they are sequestered as harmless neutral fat, ultimately some will enter more toxic pathways. One of these, the de novo ceramide pathway, has been implicated in the lipoapoptosis of beta-cells and myocardiocytes of congenitally obese rats in which leptin action is defective. Here we review the mechanisms of lipoapoptosis and the diseases that result from this cause of a diminishing cell population of these organs. We suggest that some of the components of the metabolic syndrome of obese humans and the sarcopenia of aging may be result of failure of leptin liporegulation to prevent lipid overload of lean body mass and lipoapoptosis in certain organ systems. (+info)
Growth hormone receptor (GH)-expressing carcinoid tumors after recombinant human GH therapy for human immunodeficiency virus-related lipodystrophy.
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We describe a patient who had growth hormone receptor-expressing carcinoid tumors develop in the distal colon and rectum after he received recombinant human growth hormone therapy for human immunodeficiency virus-related lipodystrophy. This case report serves as a cautionary note regarding the use of potentially oncogenic recombinant human growth hormone therapy to treat human immunodeficiency virus-positive persons. (+info)
Inhibition of lipolysis improves insulin sensitivity in protease inhibitor-treated HIV-infected men with fat redistribution.
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BACKGROUND: Fatty acid concentrations are increased in patients with HIV and fat redistribution and may contribute to insulin resistance in this population. OBJECTIVE: We determined the effects of acute inhibition of lipolysis on insulin sensitivity in HIV-infected patients with fat redistribution who were receiving a protease inhibitor. DESIGN: Seven HIV-infected men [age: 45 +/- 2 y; body mass index (in kg/m(2)): 28.8 +/- 1.9] with a fasting insulin concentration > or= 104 pmol/L (15 micro IU/mL), combined visceral adiposity and peripheral lipoatrophy, and receiving a protease inhibitor were studied. Tolbutamide-modified frequently sampled intravenous-glucose-tolerance tests (FSIGTTs) were performed after randomized double-blind administration of acipimox (500 mg at -90 and 0 min), a potent inhibitor of lipolysis, and placebo. The subjects completed 2 FSIGTTs separated by 3-7 d. RESULTS: At baseline, fasting insulin and fatty acid concentrations were 27.6 +/- 5.0 micro IU/mL and 0.83 +/- 0.08 mmol/L (normal range: 0.1-0.6 mmol/L), respectively. Fatty acid concentrations were significantly reduced after acipimox compared with placebo (fatty acid area under the curve: acipimox = 73 +/- 8 compared with placebo = 122 +/- 12 mmol x 270 min/L, P = 0.002). Acipimox treatment resulted in a significant increase in the insulin sensitivity index (acipimox = 1.63 +/- 0.5 compared with placebo = 0.88 +/- 0.3 x 10(-4) x min(-1) x micro IU/mL, P = 0.015). CONCLUSIONS: Acute inhibition of lipolysis and reduction in fatty acid concentrations are associated with improved insulin sensitivity in patients with HIV lipodystrophy and hyperinsulinemia. Further studies are needed to determine whether long-term antilipolytic strategies to reduce fatty acid concentrations may be useful in treating the metabolic disturbances associated with HIV lipodystrophy. (+info)
Regulation of plasma PAI-1 concentrations in HAART-associated lipodystrophy during rosiglitazone therapy.
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OBJECTIVE: Patients with highly active antiretroviral therapy-associated lipodystrophy (HAART+LD+) have high plasminogen activator inhibitor-1 (PAI-1) concentrations for unknown reasons. We determined whether (1). plasma PAI-1 antigen concentrations are related to liver fat content (LFAT) independently of the size of other fat depots and (2) rosiglitazone decreases PAI-1 and LFAT in these patients. METHODS AND RESULTS: In the cross-sectional study, 3 groups were investigated: 30 HIV-positive patients with HAART+LD+, 13 HIV-positive patients without lipodystrophy (HAART+LD-), and 15 HIV-negative subjects (HIV-). In the treatment study, the HAART+LD+ group received either rosiglitazone (8 mg, n=15) or placebo (n=15) for 24 weeks. Plasma PAI-1 was increased in HAART+LD+ (28+/-2 ng/mL) compared with the HAART+LD- (18+/-3, P<0.02) and HIV- (10+/-3, P<0.001) groups. LFAT was higher in HAART+LD+ (7.6+/-1.7%) than in the HAART+LD- (2.1+/-1.1%, P<0.001) and HIV- (3.6+/-1.2%, P<0.05) groups. Within the HAART+LD+ group, plasma PAI-1 was correlated with LFAT (r=0.49, P<0.01) but not with subcutaneous or intra-abdominal fat or serum insulin or triglycerides. In subcutaneous adipose tissue, PAI-1 mRNA was 2- to 3-fold higher in the HAART+LD+ group than in either the HAART+LD- or HIV- group. Rosiglitazone decreased LFAT, serum insulin, and plasma PAI-1 and increased serum triglycerides but had no effect on intra-abdominal or subcutaneous fat mass or PAI-1 mRNA. CONCLUSIONS: Plasma PAI-1 concentrations are increased in direct proportion to LFAT in HAART+LD+ patients. Rosiglitazone decreases LFAT, serum insulin, and plasma PAI-1 without changing the size of other fat depots or PAI-1 mRNA in subcutaneous fat. These data suggest that liver fat contributes to plasma PAI-1 concentrations in these patients. (+info)
Pituitary tumor transforming gene-null male mice exhibit impaired pancreatic beta cell proliferation and diabetes.
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The mammalian securin, pituitary tumor transforming gene (PTTG), regulates sister chromatid separation during mitosis. Mice or cell lines deficient in PTTG expression, however, are surprisingly viable. Here we show that PTTG disruption in mice (PTTG-/-) severely impairs glucose homeostasis leading to diabetes during late adulthood, especially in males associated with nonautoimmune insulinopenia and reversed alphabeta cell ratio. Islet beta cell mass in PTTG-/- mice was already diminished before development of frank diabetes and only increased minimally during growth. BrdUrd incorporation of islet cells in PTTG-null mice was approximately 65% lower (P < 0.005) than in the WT pancreas, whereas apoptosis rates were similar. PTTG-/- beta cells had pleiotropic nuclei, suggesting defects in cell division. The results indicated that securin is indispensable for normal pancreatic beta cell proliferation. (+info)
Body habitus changes related to lipodystrophy.
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Changes in body fat in persons infected with the human immunodeficiency virus (HIV) have been associated with deleterious changes in blood lipids and insulin resistance, raising concern that these changes will increase the risk for accelerated atherosclerosis. Changes in body fat are often identified in advanced disease but may also occur early after HIV infection is detected. Conflicting evidence suggests that fat maldistribution may be related to use of protease inhibitors, nonnucleoside reverse transcriptase inhibitors, or a combination of these two classes of drugs, but the etiologies of the various changes in body fat remain uncertain. To date there have been no remedies for the loss of subcutaneous fat, but recent evidence has suggested that discontinuation of stavudine or zidovudine therapy may be associated with limited restoration of extremity fat. For fat accumulation, a number of strategies have been attempted, including treatment with human growth hormone, androgens, or metformin, and changes in diet and exercise. As in persons not infected with HIV, it is expected that the cornerstone of management, especially in the presence of central obesity, dyslipidemia, and insulin resistance, will include a diet low in saturated fat, with low-glycemic index carbohydrates, and high in fiber. Very limited evidence in persons infected with HIV has suggested that a supervised exercise program may be beneficial. (+info)
Insulin resistance and lipodystrophy in mice lacking ribosomal S6 kinase 2.
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The p90 ribosomal S6 kinase 2 (RSK2) is a serine/threonine kinase with high expression levels in adipose tissue. Numerous in vitro studies show that RSK2 is activated by a broad number of cellular stimuli and suggest that RSK2 is involved in the regulation of a variety of cellular processes. However, the physiological role of RSK2 still remains elusive. We therefore generated rsk2 knockout (KO) mice to better understand the function of RSK2 in vivo. Birth weights of RSK2 KO mice are normal, but the body weight is reduced with age, as compared with wild-type littermates. We found that the difference in body weight was largely caused by a specific loss of white adipose tissue that is accompanied by reduced serum levels of the adipocyte-derived peptide, leptin. KO mice also have impaired glucose tolerance and elevated fasting insulin and glucose levels that are restored following administration of low amounts of leptin, which do not affect food intake. We conclude that RSK2 plays a novel and an important role in regulation of adipose mass in mice and speculate that the reduction in fat tissue may negatively affect insulin sensitivity, as observed in human lipodystrophy, through reduced levels of adipocyte-derived factors, such as leptin. (+info)