Increased insulin sensitivity and responsiveness of glucose metabolism in adipocytes from female versus male rats.

Guerre-Millo, Michéle; Leturque, Armelle; Girard, Jean; Lavau, M

doi:10.1172/jci111932

Cited by 43 publications

(32 citation statements)

References 40 publications

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“…For each experiment, subcutaneous inguinal adipose tissues, the only fat depots to be developed in young rats, were removed from several animals and pooled according to the rat genotype. Adipose cells were isolated by the collagenase method of Rodbell (17) and glucose transport was measured by using 6 14C glucose (50,uM), as previously described (18). Adipose cell size was determined by a microphotographic method (19).…”

Section: Methodsmentioning

confidence: 99%

Differential regulation of adipose tissue glucose transporters in genetic obesity (fatty rat). Selective increase in the adipose cell/muscle glucose transporter (GLUT 4) expression.

Hainault¹,

Guerre-Millo²,

Guichard³

et al. 1991

J. Clin. Invest.

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Adipocytes from young obese Zucker rats exhibit a hyperresponsive insulin-mediated glucose transport, together with a marked increase in cytochalasin B binding as compared with lean rat adipocytes. Here, we examined in these cells the expression of two isoforms of glucose transporter, the erythroid (GLUT 1) and the adipose cell/muscle (GLUT 4) types, in rats aged 16 or 30 d, i.e., before and after the emergence of hyperinsulinemia. GLUT 1 protein and mRNA levels were identical in the two genotypes at both ages. In contrast, the levels of GLUT 4 protein in obese rat adipocytes were 2.4-and 4.

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Section: Methodsmentioning

confidence: 99%

Differential regulation of adipose tissue glucose transporters in genetic obesity (fatty rat). Selective increase in the adipose cell/muscle glucose transporter (GLUT 4) expression.

Hainault¹,

Guerre-Millo²,

Guichard³

et al. 1991

J. Clin. Invest.

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“…Human 1,2 as well as animal studies [3][4][5][6][7] demonstrate less severe obesity-related metabolic disorders including peripheral tissue insulin resistance and dyslipidemia (i.e., the components of metabolic syndrome), and/or later onset of these adverse phenotypes in female than in male subjects. However, mechanisms underlying a relatively low susceptibility of females to metabolic syndrome remain largely unknown.…”

Section: Introductionmentioning

confidence: 99%

“…However, studies in humans [38][39][40] as well as in mice 19 suggest that lower adipose tissue macrophage infiltration 19 and/or smaller fat cell size 19,40 in female subjects could contribute to the sex differences in propensity to the disorders of the metabolic syndrome. In this study performed in mice, we tested a hypothesis that because of a higher stimulation of lipogenesis and a stronger antilipolytic effect of insulin in female adipocytes, especially those in gWAT, 4,7 (1) prolonged HF feeding may eventually result in larger fat cells in female than in male animals, and that (2) glycemic control may be less affected by excessive adiposity in female than in male mice, even in the presence of larger adipocytes in the females. During the course of a long-term (35 weeks) HF feeding, body weights of male and female mice reached their maxima at a similar level.…”

Section: Introductionmentioning

confidence: 99%

Sex differences during the course of diet-induced obesity in mice: adipose tissue expandability and glycemic control

et al. 2011

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Objective: Adverse effects of obesity on glucose homeostasis are linked to low-grade adipose tissue inflammation and accumulation of lipids in non-adipose tissues. The goal of this study was to evaluate the role of adipose tissue plasticity in a less severe deterioration of glucose homeostasis in females compared with males during the course of high-fat (HF) feeding in mice. Design: Mice of the C57BL/6N strain were fed either a chow or obesogenic HF diet for up to 35 weeks after weaning. Metabolic markers and hormones in plasma, glucose homeostasis, adipocyte size and inflammatory status of gonadal (gWAT) and subcutaneous (scWAT) adipose depots and liver steatosis were evaluated at 15 and 35 weeks of HF feeding. Results: HF-fed males were heavier than females until week B20, after which the body weights stabilized at a similar level (55-58 g) in both sexes. Greater weight gain and fat accumulation in females were associated with larger adipocytes in gWAT and scWAT at week 35. Although adipose tissue macrophage infiltration was in general less frequent in scWAT, it was reduced in both fat depots of female as compared with male mice; however, the expression of inflammatory markers in gWAT was similar in both sexes at week 35. In females, later onset of the impairment of glucose homeostasis and better insulin sensitivity were associated with higher plasma levels of adiponectin (weeks 0, 15 and 35) and reduced hepatosteatosis (weeks 15 and 35). Conclusions: Compared with males, female mice demonstrate increased capacity for adipocyte enlargement in response to a long-term HF feeding, which is associated with reduced adipose tissue macrophage infiltration and lower fat deposition in the liver, and with better insulin sensitivity. Our data suggest that adipose tissue expandability linked to adiponectin secretion might have a role in the sex differences observed in obesity-associated metabolic disorders.

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“…However the isolated brown adipocytes are metabolically much more active than the isolated white adipocytes. Indeed, in the absence or presence of insulin, the amount of glucose oxidized or incorporated into fatty acids, is 2-30-fold higher in brown adipocytes than in white adipocytes [18,26,271. In brown adipocytes the activity of lipogenesis is very high, and lactate production represents a large proportion of the amount of glucose utilized [26,28,29].…”

Section: Discussionmentioning

confidence: 99%

Effects of insulin and norepinephrine on glucose transport and metabolism in rat brown adipocytes

Ebner

Burnol

Ferré

et al. 1987

European Journal of Biochemistry

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Glucose is an important fuel for rat brown adipose tissue in vivo and its utilization is highly sensitive to insulin. In this study, the different glucose metabolic pathways and their regulation by insulin and norepinephrine were examined in isolated rat brown adipocytes, using [6-'4C]glucose as a tracer. Glucose utilization was stimulated for insulin concentrations in the range of 40-1000 pU/ml. Furthermore, the addition of adenosine deaminase (200 mU/ml) or adenosine (10 pM) did not alter insulin sensitivity of glucose metabolism. The major effect of insulin (1 mU/ml) was a respective 7-fold and 5-fold stimulation of lipogenesis and lactate synthesis, whereas glucose oxidation remained very low. The 5-fold stimulation of total glucose metabolism by 1 mU/ml of insulin was accompanied by an 8-fold increase in glucose transport. In the presence of norepinephrine (8 pM), total glucose metabolism was increased 2-fold. This was linked to a 7-fold increase of glucose oxidation, whereas lipogenesis was greatly inhibited (by 72%). In addition, norepinephrine alone did not modify glucose transport. The addition of insulin to adipocytes incubated with norepinephrine, induced a potentiation of glucose oxidation, while lipogenesis remained very low. In conclusion, in the presence of insulin and norepinephrine glucose is a oxidative substrate for brown adipose tissue. However the quantitative importance of glucose as oxidative fuel remains to be determined.Brown adipose tissue (BAT) was primarily considered as a site for thermogenesis during cold exposure [I]. More recently, brown fat has also been involved as a possible regulator of the energy balance. Indeed, thermic activity of BAT is increased by chronic overfeeding [2] and in obese rodents, the diet-induced thermogenesis is decreased [3 -51. BAT lipid metabolism has been widely investigated since fatty acids are known to be the major oxidative substrate for non-shivering thermogenesis, and also to be implicated in the regulation of proton conductance in brown adipose mitochondria [6 -81. Glucose metabolism in BAT was considered more recently. The possibility of a high glucose utilization by this tissue was first suggested by the fact that enzymes of glycolysis have a high activity in BAT [9]. Subsequently, it has been shown that glucose utilization in rat BAT, when expressed per unit wet weight, is in the same range of values as in skeletal muscle and white adipose tissue [lo-121. Moreover, BAT glucose utilization is extremely sensitive to insulin. In the presence of physiological hyperinsulinemia, BAT glucose utilization can represent 10% of the total glucose turnover rate [12]. It has also been shown that in conditions of decreased insulin sensitivity, glucose utilization by BAT was altered [12]. More particularly, a defect in BAT glucose utilization is one of the primary metabolic alterations present during the appearance of obesity in the young obese Zucker rat [13]. This suggests that glucose utilization in BAT might be an important factor in the regulation of th...

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Increased insulin sensitivity and responsiveness of glucose metabolism in adipocytes from female versus male rats.

Cited by 43 publications

References 40 publications

Differential regulation of adipose tissue glucose transporters in genetic obesity (fatty rat). Selective increase in the adipose cell/muscle glucose transporter (GLUT 4) expression.

Differential regulation of adipose tissue glucose transporters in genetic obesity (fatty rat). Selective increase in the adipose cell/muscle glucose transporter (GLUT 4) expression.

Sex differences during the course of diet-induced obesity in mice: adipose tissue expandability and glycemic control

Effects of insulin and norepinephrine on glucose transport and metabolism in rat brown adipocytes

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