Lena Strindberg

Human adipose tissue glucose uptake determined using [18F]-fluoro-deoxy-glucose ([18F]FDG) and PET in combination with microdialysis

Abstract.Aims/hypothesis: To determine the lumped constant (LC), which accounts for the differences in the transport and phosphorylation between [18F]-2-fluoro-2-deoxy-d-glucose ([18F]FDG) and glucose, for [18F]FDG in human adipose tissue. Methods: [18F]FDG-PET was combined with microdialysis. Seven non-obese (29 ± 2 years of age, BMI 24 ± 1 kg/m2) and seven obese (age 32 ± 2 years of age, BMI 31 ± 1 kg/m2) men were studied during euglycaemic hyperinsulinaemia (1 mU/kg · min–1 for 130 min). Abdominal adipose tissue [18F]FDG uptake (rGUFDG) and femoral muscle glucose uptake were measured using [18F]FDG-PET. Adipose tissue perfusion was measured using [15O]-labelled water and PET, and interstitial glucose concentration using microdialysis. Glucose uptake (by microdialysis, rGUMD) was calculated by multiplying glucose extraction by regional blood flow. The LC was determined as the ratio of rGUFDG to rGUMD. Results: Rates of adipose tissue glucose uptake (rGUMD) were 36 % higher in the non-obese than in the obese patients (11.8 ± 1.7 vs 7.6 ± 0.8 μmol/kg · min–1, p < 0.05, respectively) and a correlation between rGUMD and rGUFDG was found (r = 0.82, p < 0.01). The LC averaged 1.14 ± 0.11, being similar in the obese and the non-obese subjects (1.01 ± 0.15 vs 1.26 ± 0.15, respectively, NS). Muscle glucose uptake was fourfold to fivefold higher than adipose tissue glucose uptake in both groups. Conclusion/interpretation: [18F]FDG-PET seems a feasible tool to investigate adipose tissue glucose metabolism in human beings. Direct measurements with [18F]FDG-PET and microdialysis suggest a LC value of 1.14 for [18F]FDG in human adipose tissue during insulin stimulation and the LC does not appear to be altered in insulin resistance. Furthermore, the obese patients show insulin resistance in both adipose tissue and skeletal muscle. [Diabetologia (2001) 44: 2171–2179]

Impaired delivery of insulin to adipose tissue and skeletal muscle in obese women with postprandial hyperglycemia.

CONTEXT An impaired transfer of insulin from the circulation to the interstitial fluid has been suggested to contribute to insulin resistance. OBJECTIVE The objective of the study was to address whether the delivery of insulin from the circulation to adipose tissue and skeletal muscle is impaired in obese women with postprandial hyperglycemia compared with lean healthy controls. DESIGN, SETTING, AND PARTICIPANTS Seven obese nondiabetic women with postprandial hyperglycemia and nine lean healthy women were recruited. The interstitial insulin concentration in adipose tissue and muscle tissue was measured by the microdialysis technique during an oral glucose tolerance test (75 g). In parallel, arterial insulin levels were measured. We used ¹³³Xe clearance and plethysmography to monitor blood flow. Subcutaneous needle biopsies were taken to obtain fat cell size. RESULTS After oral glucose ingestion, mean arterial insulin levels were higher in obese women than in the lean group. However, interstitial insulin levels in sc adipose tissue and forearm muscle were similar in both groups. Accordingly, the proportion of circulating insulin being transported across the vascular endothelium to the interstitial fluid in adipose tissue and in muscle tissue was significantly lower in the obese compared with the lean group. CONCLUSIONS Obese subjects with postprandial hyperglycemia need higher circulating insulin levels than lean controls to attain similar interstitial insulin levels in adipose tissue and skeletal muscle, indicating an impaired transfer of insulin across the endothelium.

Cyclic adenosine monophosphate-phosphodiesterase inhibitors reduce skeletal muscle protein catabolism in septic rats

ABSTRACT We have previously shown that catecholamines exert an inhibitory effect on muscle protein degradation through a pathway involving the cyclic adenosine monophosphate (cAMP) cascade in normal rats. In the present work, we investigated in vivo and in vitro effects of cAMP-phosphodiesterase inhibitors on protein metabolism in skeletal muscle from rats submitted to a model of acute sepsis. The in vivo muscle protein metabolism was evaluated indirectly by measurements of the tyrosine interstitial concentration using microdialysis. Muscle blood flow (MBF) was monitored by ethanol perfusion technique. Sepsis was induced by cecal ligation and puncture and resulted in lactate acidosis, hypotension, and reduction in MBF (−30%; P < 0.05). Three-hour septic rats showed an increase in muscle interstitial tyrosine concentration (˜150%), in arterial plasma tyrosine levels (˜50%), and in interstitial-arterial tyrosine concentration difference (˜200%; P < 0.05). Pentoxifylline (50 mg/kg of body weight, i.v.) infusion during 1 h after cecal ligation and puncture prevented the tumor necrosis factor &agr; increase and significantly reduced by 50% (P < 0.05) the interstitial-arterial tyrosine difference concentration. In situ perfusion with isobutylmethylxanthine (IBMX; 10−3 M) reduced by 40% (P< 0.05) the muscle interstitial tyrosine in both sham-operated and septic rats. Neither pentoxifylline nor IBMX altered MBF. The addition of IBMX (10−3 M) to the incubation medium increased (P < 0.05) muscle cAMP levels and reduced proteolysis in both groups. The in vitro addition of H89, a protein kinase A inhibitor, completely blocked the antiproteolytic effect of IBMX. The data show that activation of cAMP-dependent pathways and protein kinase A reduces muscle protein catabolism during basal and septic state.

Effects of Intrabrachial Metacholine Infusion on Muscle Capillary Recruitment and Forearm Glucose Uptake during Physiological Hyperinsulinemia in Obese, Insulin-Resistant Individuals

CONTEXT Impairment of insulin-mediated capillary recruitment in skeletal muscle contributes to a hampered glucose uptake in obesity. OBJECTIVE The objective of this study was to evaluate whether metacholine (MCh), a nitric oxide vasodilator, potentiates muscle capillary recruitment and forearm glucose uptake (FGU) during physiological hyperinsulinemia. DESIGN The double-forearm technique [i.e. infused vs. control (Ctrl) forearm] was combined with im microdialysis during an oral glucose tolerance test in 15 nondiabetic, obese subjects divided into a group of insulin-resistant (IR) (n = 7) and insulin-sensitive (n = 8) individuals. RESULTS After the oral glucose tolerance test, forearm blood flow in the Ctrl forearm was unchanged, whereas it increased about 3-fold (P < 0.0001 vs. baseline) in response to MCh. Capillary permeability surface area product for glucose (PS(glu)) (capillary recruitment), FGU, and interstitial insulin concentrations increased significantly over time (P < 0.001) in both forearms. Compared with insulin-sensitive, the IR subjects exhibited lower PS(glu) (P < 0.001) and FGU (P < 0.01) in the Ctrl arm, whereas this difference was insignificant in the MCh arm despite the blunted forearm blood flow increase. Moreover, in IR individuals MCh significantly (P < 0.05) ameliorated the delayed onset of insulin action, i.e. the FGU response to hyperinsulinemia. Finally, we found PS(glu) to be a strong and independent predictor of FGU response (adjusted R(2) 0.72; P < 0.0001). CONCLUSIONS MCh-induced vasodilation may improve the microvascular and metabolic responses to physiological hyperinsulinemia in obese, IR individuals. Further studies are required to unravel whether stimulation of nitric oxide production in skeletal muscle may represent an attractive therapeutic approach to bypassing cellular resistance to glucose disposal.

The Selective Phosphodiesterase-5 Inhibitor Tadalafil Induces Microvascular and Metabolic Effects in Type 2 Diabetic Postmenopausal Females

OBJECTIVE The objective of the study was to explore the acute in vivo effects of the selective phosphodiesterase-5 inhibitor tadalafil on local microcirculation and regional metabolism in skeletal muscle and adipose tissue (AT). DESIGN, SETTING, AND PARTICIPANTS We studied eight postmenopausal female patients with type 2 diabetes (T2D) and eight nondiabetic controls (Ctrl) in the postabsorptive state and 180 min after the administration of tadalafil 10 mg. Intramuscular and sc microdialysis were combined with measurements of forearm (FBF) and AT blood flow as well as with arterial and deep venous blood sampling. Muscle capillary recruitment, as ascertained by the permeability surface area product for glucose (PS(glu)), forearm glucose uptake (FGU), interstitial lactate, and glycerol concentrations, was measured. RESULTS When compared with Ctrl, T2D patients exhibited lower (P = 0.01) PS(glu) but similar FGU and FBF. After tadalafil, PS(glu) (P = 0.01) and muscle interstitial-arterial (I-A) lactate concentration gradient (P < 0.01) increased significantly in both groups, whereas FBF, FGU, and I-A glycerol remained unchanged. In AT, tadalafil did not significantly affect local blood flow, whereas the sc interstitial (I) lactate and I-A lactate concentrations increased (P < 0.01), and the I-A glycerol decreased in both groups. Finally, in multivariate analysis the PS(glu) was a strong and independent predictor of muscle glucose disposal (β: 0.737 and 0.963, P < 0.05, in Ctrl and T2D, respectively). CONCLUSIONS Tadalafil emerges as an acutely acting modulator of microvascular recruitment and glucose metabolism in skeletal muscle and adipose tissue. We suggest that selective phosphodiesterase-5 blockade may provide a path forward to new therapeutics in the setting of insulin resistance.

Microdialysis and proteomics of subcutaneous interstitial fluid reveals increased galectin-1 in type 2 diabetes patients

OBJECTIVE To identify a potential therapeutic target for type 2 diabetes by comparing the subcutaneous interstitial fluid from type 2 diabetes patients and healthy men. METHODS Proteomics was performed on the interstitial fluid of subcutaneous adipose tissue obtained by microdialysis from 7 type 2 diabetes patients and 8 healthy participants. 851 proteins were detected, of which 36 (including galectin-1) showed significantly altered expression in type 2 diabetes. We also measured galectin-1 expression in: (1) adipocytes isolated from adipose tissue biopsies from these participants; (2) subcutaneous adipose tissue of 24 obese participants before, during and after 16weeks on a very low calorie diet (VLCD); and (3) adipocytes isolated from 6 healthy young participants after 4weeks on a diet and lifestyle intervention to promote weight gain. We also determined the effect of galectin-1 on glucose uptake in human adipose tissue. RESULTS Galectin-1 protein levels were elevated in subcutaneous dialysates from type 2 diabetes compared with healthy controls (p<0.05). In agreement, galectin-1 mRNA expression was increased in adipocytes from the type 2 diabetes patients (p<0.05). Furthermore, galectin-1 mRNA expression was decreased in adipose tissue after VLCD (p<0.05) and increased by overfeeding (p<0.05). Co-incubation of isolated human adipocytes with galectin-1 reduced glucose uptake (p<0.05) but this was independent of the insulin signal. CONCLUSION Proteomics of the interstitial fluid in subcutaneous adipose tissue in vivo identified a novel adipokine, galectin-1, with a potential role in the pathophysiology of type 2 diabetes.

Postprandial effects of the phosphodiesterase‐5 inhibitor tadalafil in people with well‐controlled Type 2 diabetes mellitus: a randomized controlled trial

Type 2 diabetes mellitus is a serious global health problem that is hard to treat in the long term, prompting great efforts to find new drug targets. Little attention has been paid, however, to the metabolic significance of the microcirculation in insulin-sensitive tissues, despite the fact that microvascular insulin resistance and endothelial dysfunction are closely associated and have been shown to precede Type 2 diabetes [1]. Endothelial nitric oxide plays a major role in mediating the beneficial effects of insulin on capillary recruitment and muscle glucose uptake [2] and in suppression of inflammatory pathways, including those activated by a high-fat diet [3]. Nitric oxide acts by increasing intracellular levels of cyclic guanosine monophosphate (cGMP), and treatments that amplify nitric oxide-cGMP signalling could thus be expected to improve peripheral microcirculation and glucose uptake. cGMP is hydrolysed by phosphodiesterase-5, and evidence from animal models and men with erectile dysfunction suggests that phosphodiesterase-5 inhibition may promote metabolic benefits [4]. We previously showed that acute treatment with the phosphodiesterase-5 inhibitor tadalafil induces increased capillary recruitment and muscle glucose uptake in people with Type 2 diabetes in the fasting state [5]. In the present study, we investigated whether tadalafil induces positive vascular, metabolic and antiinflammatory effects in the hyperinsulinaemic state after a mixed meal in people with Type 2 diabetes. Between 2008 and 2011, we recruited men and women with well-controlled Type 2 diabetes. Participants were randomized to receive either placebo (n = 10) or 20 mg tadalafil (n = 10) 30 min before they received a mixed meal (Fig. S1). We followed the participants before (baseline) and for up to 180 min after the meal using plethysmography for blood flow measurements, intramuscular microdialysis for interstitial glucose concentrations, and venous and arterial blood sampling for circulating concentrations of glucose,

Decreased Permeability Surface Area for Glucose in Obese Women with Postprandial Hyperglycemia: No Effect of Phosphodiesterase-5 (PDE-5) Inhibition

Insulin-mediated microvascular recruitment is recognized as a potential mechanism contributing to insulin resistance. In this study, we compared a marker of microvascular function, the permeability surface area for glucose (PS(glu)), and forearm glucose uptake after an OGTT in obese women with impaired glucose metabolism and healthy lean nondiabetic women, with the aim to characterize whether decreased permeability surface area for glucose or decreased glucose uptake may contribute to postprandial hyperglycemia in the obese group. In addition, we evaluated whether the phosphodiesterase-5 (PDE-5) inhibitor tadalafil, in a randomized double blind placebo controlled design, might attenuate postprandial glucose levels in obese women. For these purposes, intramuscular microdialysis, blood sampling from arterial and venous blood of the forearm, and measurements of forearm blood flow were performed. The results showed an impaired permeability surface area for glucose (IAUC PS(glu) 31±13 vs. 124±31; p<0.05) in obese when compared with lean participants, but no differences in forearm glucose uptake appeared between the groups. Furthermore, a single dose of tadalafil 10 mg showed no improvement of the permeability surface area for glucose, glucose uptake, or circulating glucose levels in obese participants. In conclusion, the postprandial PS(glu) response was impaired in obese women showing postprandial hyperglycemia, indicating a compromised microcirculation. However, we were unable to demonstrate any acute effect on either vascular function or glucose uptake of the phosphodiesterase-5 (PDE-5) inhibitor tadalafil.