Adipokines and the insulin resistance syndrome in familial partial lipodystrophy caused by a mutation in lamin A/C.

AIMS/HYPOTHESIS: Familial partial lipodystrophy (FPLD) and obesity are both associated with increased risks of type 2 diabetes and cardiovascular disease. Although adipokines have been implicated, few data exist in subjects with FPLD; therefore we investigated a family with FPLD due to a lamin A/C mutation in order to determine how abnormalities of the plasma adipokine profile relate to insulin resistance and the metabolic syndrome. METHODS: Plasma levels of adiponectin, leptin, resistin, IL-1beta, IL-6 and TNF-alpha in 30 subjects (ten patients, 20 controls) were correlated with indices of metabolic syndrome. RESULTS: Compared with controls, FPLD patients had significantly lower plasma levels of adiponectin (3.7+/-1.0 in FDLP cases vs 7.1+/-0.72 mug/ml in controls, p=0.02), leptin (1.23+/-0.4 vs 9.0+/-1.3 ng/ml, p=0.002) and IL-6 (0.59+/-0.12 vs 1.04+/-0.17 pg/ml, p=0.047) and elevated TNF-alpha (34.8+/-8.1 vs 13.7+/-2.7 pg/ml, p=0.028), whereas IL-1beta and resistin were unchanged. In both groups, adiponectin levels were inversely correlated with body fat mass (controls, r=-0.44, p=0.036; FDLP, r=-0.67, p=0.025), insulin resistance (controls, r=-0.62, p=0.003; FDLP, r=-0.70, p=0.025) and other features of the metabolic syndrome. TNF-alpha concentrations were positively related to fat mass (controls, r=0.68, p=0.001; FDLP, r=0.64, p=0.048) and insulin resistance (controls, r=0.86, p=0.001; FDLP, r=0.75, p=0.013). IL-6, IL-1beta and resistin did not demonstrate any correlations with the metabolic syndrome in either group. CONCLUSIONS/INTERPRETATION: Low adiponectin and leptin and high TNF-alpha were identified as the major plasma adipokine abnormalities in FPLD, consistent with the hypothesis that low adiponectin and high TNF-alpha production may be mechanistically related, and perhaps responsible for the development of insulin resistance and cardiovascular disease in FPLD.

Long-term treatment experience in a subject with Dunnigan-type familial partial lipodystrophy: efficacy of rosiglitazone.

Dunnigan-type familial partial lipodystrophy (FPLD) is caused by mutations in LMNA, the gene that encodes nuclear lamins A and C. FPLD is characterized by peripheral fat loss, excess central adiposity, insulin resistance, and hyperlipidaemia, which are difficult to treat. We present our 2 years' experience of treatment with rosiglitazone in a subject with FPLD. Insulin requirement decreased significantly from 240 IU/day to 76 IU/day (range 20-240 IU/day) and serum triglyceride concentration was lowered from 13.7 +/- 14.4 mmol/l to 4.5 +/- 4.3 mmol/l and remained stable. Mean HbA(1c) prior to rosiglitazone therapy was 9.4 +/- 1.32% and decreased to 7.4 +/- 0.6% during therapy with rosiglitazone. This case demonstrates the benefits of PPARgamma-agonists on glycaemic control and dyslipidaemia in a patient with FPLD. This in turn implies that PPARgamma may play a pathophysiological role in FPLD.

[Generalized congenital lipodystrophy: correlation with leptin and other biochemical parameters]. / Lipodistrofia generalizada congênita: correlação com leptina e outros aspectos bioquímicos.

PURPOSE: To correlate serum leptin and insulin levels, and the glucosic profile of 21 patients shared in diabetics and non diabetics with Congenital Generalized Lipodystrophy (CGL). METHODS: In a prospective study, were dosed serum leptin level with radioimmunoassay technique, fasting plasma glucose through of the glucoseoxidase-peroxidase reaction, the hemoglobin glycate using the technique microchromatography for ionic exchange resin and insulin through immunoassay system. The fructosamine concentration serum was determinated for reduction nitroblue tetrazolium method. The Student's test was used to compare results between the groups and the correlation "r" coefficient to analise the relation among the several variants studied, with significant level of 5% (p < 0.05). All the statistical procedures were performed using the Excel by Microsoft and the Statistic program for Windows by StatSoft, Inc. version 5.1 edition 97. RESULTS: Leptin decreased on the most patients, showing no statistically significant difference between the groups. Also there wasn't difference statistically significant (p = 0.9542) of the insulin's value between diabetics and non diabetics. CONCLUSION: The hyperinsulinism and the hypoleptinemia occurred independently of diabetes in the CGL's patients and this can be due to the natural history of disease, in which the raise insulin levels precede the initial diabetes mellitus and the low leptin levels were related to the lipoatrophy.

Lipodistrofia generalizada congênita: correlação com leptina e outros aspectos bioquímicos / Generalized congenital lipodystrophy: correlation with leptin and other biochemical parameters

PURPOSE: To correlate serum leptin and insulin levels, and the glucosic profile of 21 patients shared in diabetics and non diabetics with Congenital Generalized Lipodystrophy (CGL). METHODS: In a prospective study, were dosed serum leptin level with radioimmunoassay technique, fasting plasma glucose through of the glucoseoxidase-peroxidase reaction, the hemoglobin glycate using the technique microchromatography for ionic exchange resin and insulin through immunoassay system. The fructosamine concentration serum was determinated for reduction nitroblue tetrazolium method. The Student's test was used to compare results between the groups and the correlation [quot ]r[quot ] coefficient to analise the relation among the several variants studied, with significant level of 5% (p < 0.05). All the statistical procedures were performed using the Excel by Microsoft and the Statistic program for Windows by StatSoft, Inc. version 5.1 edition 97. RESULTS: Leptin decreased on the most patients, showing no statistically significant difference between the groups. Also there wasn't difference statistically significant (p = 0.9542) of the insulin's value between diabetics and non diabetics. CONCLUSION: The hyperinsulinism and the hypoleptinemia occurred independently of diabetes in the CGL's patients and this can be due to the natural history of disease, in which the raise insulin levels precede the initial diabetes mellitus and the low leptin levels were related to the lipoatrophy.

Lipoatrophic diabetes in an elderly woman: clinical course and serum adipocytokine concentrations.

Generalized lipodystrophy is a rare disorder of adipose tissue, whose etiology remains unknown. Pathophysiology of this disorder is characterized by generalized loss of body fat associated with an infrequent form of diabetes mellitus (lipoatrophic diabetes). Main features of this form of diabetes mellitus are the severe insulin resistance and the absence of ketoacidosis. Lipodystrophy can be congenital or acquired. In the acquired form, metabolic disturbances usually begin in the first years of life and the response to conventional treatment is very poor. Some alterations in serum adipocytokines have been described in this disease. We report the case of a 74-year-old woman with acquired generalized lipodystrophy who presented with low-normal serum concentrations of leptin, low adiponectin and resistin levels, and high serum levels of TNF alpha. Patient was initially treated with fenofibrate, metformin and high doses of subcutaneous insulin achieving an adequate metabolic control. During this period, serum adipocytokines were periodically measured. We comment on the different etiopathogenic mechanisms and the therapeutic modalities of this rare syndrome.

Response to treatment with rosiglitazone in familial partial lipodystrophy due to a mutation in the LMNA gene.

BACKGROUND: Familial partial lipodystrophy (FPLD) is a monogenic form of diabetes characterised by a dominantly inherited disorder of adipose tissue associated with the loss of subcutaneous fat from the limbs and trunk, with excess fat deposited around the face and neck. The lipodystrophy causes severe insulin resistance, resulting in acanthosis nigricans, diabetes, dyslipidaemia, and increased risk of cardiovascular disease. Preliminary results from animals and man suggest that increasing subcutaneous fat by treatment with thiazolidinediones should improve insulin resistance and the associated features of this syndrome. CASE REPORT: We report a 24-year-old patient with FPLD caused by a mutation in the LMNA gene (R482W) treated with 12 months of rosiglitazone. Subcutaneous fat increased following rosiglitazone treatment as demonstrated by a 29% generalised increase in skin-fold thickness. Leptin levels increased from 5.8 to 11.2 ng/ml. Compared with treatment on Metformin, there was an increase in insulin sensitivity (HOMA S% 17.2-31.6) but no change in glycaemic control. The lipid profile worsened during the follow-up period. CONCLUSION: This initial case suggests that, for modification of cardiovascular risk factors, there are no clear advantages in treating patients with FPLD with rosiglitazone despite increases in subcutaneous adipose tissue. Larger series will be needed to identify moderate beneficial effects and treatment may be more effective in patients with generalised forms of lipodystrophy.

Adrenalectomy improves diabetes in A-ZIP/F-1 lipoatrophic mice by increasing both liver and muscle insulin sensitivity.

The virtually fatless A-ZIP/F-1 mouse is profoundly insulin resistant, diabetic, and a good model for humans with severe generalized lipoatrophy. Like a number of other mouse models of diabetes, the A-ZIP/F-1 mouse has elevated serum corticosterone levels. Leptin infusion lowers the corticosterone levels, suggesting that leptin deficiency contributes to the hypercorticosteronemic state. To test the hypothesis that the increased glucocorticoids contribute to the diabetes and insulin resistance, we examined the effect of adrenalectomy on A-ZIP/F-1 mice. Adrenalectomy significantly decreased the blood glucose, serum insulin, and glycated hemoglobin levels. Hyperinsulinemic-euglycemic clamps were performed to characterize the changes in whole-body and tissue insulin sensitivity. The adrenalectomized A-ZIP/F-1 mice displayed a marked improvement in insulin-induced suppression of endogenous glucose production, indicating increased hepatic insulin sensitivity. Adrenalectomy also increased muscle glucose uptake and glycogen synthesis. These results suggest that the chronically increased serum corticosterone levels contribute to the diabetes of the A-ZIP/F-1 mice and that removal of the glucocorticoid excess improves the insulin sensitivity in both muscle and liver.

Surgical implantation of adipose tissue reverses diabetes in lipoatrophic mice.

In lipoatrophic diabetes, a lack of fat is associated with insulin resistance and hyperglycemia. This is in striking contrast to the usual association of diabetes with obesity. To understand the underlying mechanisms, we transplanted adipose tissue into A-ZIP/F-1 mice, which have a severe form of lipoatrophic diabetes. Transplantation of wild-type fat reversed the hyperglycemia, dramatically lowered insulin levels, and improved muscle insulin sensitivity, demonstrating that the diabetes in A-ZIP/F-1 mice is caused by the lack of adipose tissue. All aspects of the A-ZIP/F-1 phenotype including hyperphagia, hepatic steatosis, and somatomegaly were either partially or completely reversed. However, the improvement in triglyceride and FFA levels was modest. Donor fat taken from parametrial and subcutaneous sites was equally effective in reversing the phenotype. The beneficial effects of transplantation were dose dependent and required near-physiological amounts of transplanted fat. Transplantation of genetically modified fat into A-ZIP/F-1 mice is a new and powerful technique for studying adipose physiology and the metabolic and endocrine communication between adipose tissue and the rest of the body.

Normal reproductive function in leptin-deficient patients with lipoatropic diabetes.

To further examine the relationships between leptin and female reproductive axis, we conducted hormonal studies in two patients with lipoatropic diabetes that occurred before puberty. Despite complete atrophy of sc and visceral adipose tissue, menarche occurred in these two patients between 11-12 yr of age, followed by regular menstrual cycles. One patient had been pregnant three times, giving birth to children who did not develop the disease. In our two patients, repeated analysis revealed leptin levels below 1 ng/mL (normal range for 20 insulin-treated diabetic women, 2-23 ng/mL for body mass index of 14-39 kg/m2; personal data). We measured peripheral levels of estradiol, progesterone, FSH, LH, free testosterone, and androstenedione within the first 5 days of the menstrual cycle, and we tested the reactivity of pituitary after iv injection of 100 microg GnRH. The variation in body temperature in the morning before arising was also analyzed. We showed that 1) all measured levels of hormones were in the normal range for both patients; and 2) low levels of leptin did not impair the development of reproductive function in one patient and was associated with normal gonadal function in both patients. We conclude that puberty and fertility can occur despite chronic low serum levels of leptin. This suggests that leptin is not fundamental to the maintenance of normal reproductive function in humans.

Insulin-resistant diabetes during growth hormone therapy in a child with SHORT syndrome.

We report the case of a 13-year-old boy with SHORT syndrome, including lipoatrophy and insulin resistance, who developed diabetes mellitus while receiving growth hormone therapy. The diabetes persisted after cessation of exogenous growth hormone but oral hypoglycaemic therapy was successful and could be discontinued eight months later.

Metabolic studies in lipoatrophic diabetes: mechanism of hyperglycemia and evidence of resistance to insulin of lipid metabolism.

We determined in 5 control subjects and in one patient with total congenital lipoatrophy (LA) the effect of insulin infusion on glucose flux and some aspects of lipid metabolism. In the post-absorptive state LA had moderate hyperglycemia (9.2 versus 3.80 +/- 0.07 mmol.l-1) and hyperinsulinemia (19 vs 12 +/- 3 mU.l-1) and a massive increase in glucose production (7.51 mg.kg.-1.min-1) and disappearance (7.40 mg.kg-1.min-1) rates (control subjects: 2.29 +/- 0.14 mg.kg-1 min-1). Raising peripheral insulin levels to 28 +/- 3 mU.l-1 suppressed endogenous glucose production in the control subjects whereas in LA significant (2.01 mg.kg-1.min-1) production persisted even when peripheral insulinemia was raised to 58 mU.l-1. Insulin infusion in control subjects increased progressively glucose utilization to a final value of 15.7 +/- 0.7 mg.kg-1.min-1 (corresponding plasma insulin: 482 +/- 44 mU.l-1). Insulin infusion in LA initially lowered glucose level near to normal values and exogenous glucose was infused for an insulin infusion rate of 10 mU.kg-1.min-1; at this insulin infusion rate glucose utilization rate (6.52 mg.kg-1.min-1) was decreased relative to control subjects in spite of higher insulin levels (750 mU.l-1). NEFA, glycerol and ketone bodies (KB) levels were decreased to undetectable levels by insulin infusion in the normal subjects whereas NEFA and glycerol were decreased only in part and KB were not modified in LA. In addition glycerol and KB appearance rates determined in LA were not suppressed by insulin infusion as expected.(ABSTRACT TRUNCATED AT 250 WORDS)

Partial lipoatrophy with insulin resistant diabetes and hyperlipidaemia (Dunnigan syndrome).

A family is presented in which at least five members in three generations suffered a characteristic syndrome of generalised lipoatrophy, sparing the head and neck, and muscle hypertrophy variably associated with high plasma insulin and lipid levels and insulin resistant diabetes. This pedigree contains the first documented affected male with the syndrome. The diagnosis is of practical importance since close medical supervision of asymptomatic gene carriers is likely to improve their prognosis. The findings in this family have relevance also to the study of insulin and lipid metabolism.

Insulin resistance in total lipodystrophy: evidence for a pre-receptor defect in insulin action.

The cause of insulin resistance in lipodystrophic diabetes is unknown but has generally been ascribed to dysfunction at either the receptor or post receptor level. In a 14 year-old girl with total acquired lipodystrophy, subcutaneous and intravenous insulin requirements approximated 600 units daily. However, circulating total and free insulin levels were not increased, and during testing by the euglycemic clamp method, the glucose response to increasing free insulin concentrations was within the range found in eight subjects with insulin-dependent diabetes. Insulin clearance during the euglycemic clamp was 43, 98, 115, and 116 mL/kg/min at each of four insulin infusion rates compared to means of 13, 13, 12, and 11 in the control subjects with diabetes. No detectable degrading activity was present in serum, and serum inhibited insulin degradation normally. Binding of insulin to IgG, IgM, and IgE was not increased, insulin binding to monocytes and erythrocytes was not sufficiently abnormal to account for the the insulin resistance, and insulin receptor increased insulin clearance or accelerated degradation of insulin by tissues.

Very low-density lipoprotein metabolism in an unusual case of lipoatrophic diabetes.

Complete acquired lipoatrophic diabetes (LD) is characterized by nonketotic insulin-resistant diabetes, elevated very low-density lipoprotein (VLDL) triglyceride (TG) levels, and absent subcutaneous fat. We studied a young child in whom LD atypically developed after the onset of type 1 diabetes mellitus. On uncontrolled home diet the patient had triglyceride levels over 1,000 mg/dL on multiple occasions. In order to demonstrate the effects of caloric and dietary-fat restriction on VLDL metabolism, 3H-glycerol and autologous 125I-VLDL were used to quantitate the turnover of VLDL-TG and VLDL-apolipoprotein B (apo B) during two periods of caloric restriction. Consumption of a 900-kcal 40-g fat diet resulted in a plasma triglyceride level of 1383 mg/dL (ten-fold elevation). This hypertriglyceridemia was associated with markedly increased production rates of both VLDL-TG (73.7 mg/kg/h) and VLDL-apo B (126.9 mg/kg/d). Consumption of a 900-kcal 25-g fat diet resulted in a plasma TG level of 663 mg/dL. This reduction in plasma TG was associated with a 40% decrease in VLDL-TG production rate (PR) (45.1 mg/kg/h). There was no change in the production rate (PR) of VLDL-apo B. The hypertriglyceridemia in this patient was due to marked over production of VLDL. Furthermore, the studies demonstrate: (1) the independent benefits of caloric and dietary-fat restriction in the treatment of LD, and (2) that fat restriction lowered plasma triglyceride by its effect on the VLDL-TG production rate.

Downregulation occurs normally in cultured Epstein-Barr virus-transformed lymphocytes from patients with extreme insulin resistance. Discrepancy between downregulation in vivo and in vitro.

Levels of fasting plasma insulin are generally inversely correlated with 125I-insulin binding to circulating blood cells. In disease states associated with hyperinsulinemia (e.g., obesity and non-insulin-dependent diabetes mellitus), 125I-insulin binding is usually low. In contrast, 125I-insulin binding to circulating cells may be normal in patients with certain forms of extreme insulin resistance despite marked hyperinsulinemia. To explain this paradox, it has been proposed that postbinding defects in insulin action may give rise to defects in downregulation. We have employed cultured Epstein-Barr virus (EBV)-transformed lymphocytes from eight patients with extreme insulin resistance to address the question of whether there is a defect in the downregulation process in vitro. In this cell type, insulin leads to a decrease in the number of insulin receptors on the cell surface by accelerating the rate of degradation of insulin receptors. We could not detect any abnormality in in vitro down-regulation with cultured EBV-transformed lymphocytes from insulin-resistant patients. The apparent discrepancy between the in vivo and in vitro studies raises the possibility that some factor in the patient's internal milieu may prevent insulin-induced downregulation. An alternative possible explanation might be that the mechanism of downregulation in vitro differs from the mechanism whereby receptor number is regulated in vivo in insulin's target cells.