Effects of pioglitazone versus glimepiride exposure on hepatocellular fat content in type 2 diabetes.

AIMS: Thiazoledinediones decrease blood glucose by their insulin-sensitizing properties. Here, we examined whether pioglitazone plus nateglinide (PIO) interferes with hepatocellular lipid (HCL) content and/or improves insulin sensitivity in well-controlled non-obese patients with type 2 diabetes mellitus (T2DM). METHODS: Sixteen patients [body mass index (BMI): 28 ± 1 kg/m(2) ; HbA1c: 7.1 ± 0.6%] were studied in a randomized, double-blind, 12-week parallel group trial, whereas matched healthy humans [non-diabetic control subjects (CON), BMI: 26 ± 1 kg/m(2)] were studied once. Treatment with pioglitazone (30 mg/day) plus nateglinide (PIO arm) to control for glimepiride-induced insulin secretion was compared to treatment with glimepiride (2 mg/day) plus placebo (GLI arm). Multinuclei magnetic resonance spectroscopy (MRS) was combined with pancreatic normoglycaemic-two-step-insulin clamps and stable isotopes to assess glucose turnover, glucose transport/phosphorylation, HCL and intramyocellular lipid (IMCL) contents, non-esterified fatty acids (NEFA) and adipokines. RESULTS: At baseline, HCL was approximately 5.6-fold higher in T2DM (p < 0.05 vs. CON). This was paralleled by approximately doubled leptin : adiponectin ratios (p < 0.05). HCL decreased by approximately 39% (p < 0.05) after PIO and only tended to decrease after GLI (p = 0.12). Treatment with PIO did not affect leptin : adiponectin ratios, but slightly improved (p < 0.05) insulin-mediated NEFA suppression, which related to lower HCL. PIO further prevented the insulin-induced increase in IMCL content of soleus and tibialis anterior muscles. Peripheral and hepatic insulin sensitivity, glucose transport and glycaemic control did not change in both groups. CONCLUSION: Short-term, low-dose thiazolidendione treatment improves insulin sensitivity of lipolysis and HCL, without affecting muscle and liver insulin sensitivity. It appears that metabolic PIO action in T2DM is primarily mediated via a decline in HCL associated with greater sensitivity of lipolysis to insulin.

Precision and accuracy of blood glucose measurements using three different instruments.

AIMS: Assessment of insulin sensitivity by dynamic metabolic tests such as the hyperinsulinemic euglycemic clamp critically relies on the reproducible and fast measurement of blood glucose concentrations. Although various instruments have been developed over the last decades, little is known as to the accuracy and comparability. We therefore compared the best new instrument with the former gold standard instruments to measure glucose concentrations in metabolic tests. METHODS: Fasting blood samples of 15 diabetic and 10 healthy subjects were collected into sodium-fluoride tubes, spiked with glucose (0, 2.8, 6.9 and 11.1 mmol/l) and measured either as whole blood (range 3.3-26.3 mmol/l) or following centrifugation as plasma (range 3.9-32.0 mmol/l). Plasma samples were analyzed in the YSI-2300 STAT plus (YSI), EKF Biosen C-Line (EKF) and the reference method, Beckman Glucose analyzer-II (BMG), whole blood samples in EKF instruments with YSI as reference method. RESULTS: The average deviation of the EKF from the reference, BMG, was 3.0 ± 3.5% without any concentration-dependent variability. Glucose measurements by YSI were in good agreement with that by BMG (plasma) and EKF (plasma and whole blood) up to concentrations of 13.13 mmol/l (0.5 ± 3.7%), but deviation increased to -6.2 ± 3.8% at higher concentrations. Precision (n = 6) was ±2.2% (YSI), ±3.9% (EKF) and ±5.2% (BMG). CONCLUSIONS: The EKF instrument is comparable regarding accuracy and precision to the reference method BMG and can be used in metabolic tests, while the YSI showed a systematic shift at higher glucose concentrations. Based on these results we decided to replace BMG with EKF instrument in metabolic tests.

Impaired insulin stimulation of muscular ATP production in patients with type 1 diabetes.

OBJECTIVE: in type 2 diabetic patients and their first-degree relatives, insulin resistance (IR) is associated with impairment of insulin-stimulated myocellular glucose-6-phosphate (g6p) and unidirectional flux through ATP synthase (fATP), suggesting the presence of inherited abnormal mitochondrial oxidative fitness. We hypothesized that patients with long-standing type 1 diabetes may also exhibit insulin resistance as well as lower fATP. DESIGN: this single-centre trial was registered at ClinicalTrials.gov (NCT00481598). SUBJECTS: we included eight nonobese type 1 diabetic patients (mean diabetes duration: 17 years) with near-target glycaemic control [haemoglobin A1c (HbA1c): 6.8 ± 0.4%] during treatment with continuous subcutaneous insulin infusion pumps and eight healthy volunteers (HbA1c: 5.4 ± 0.2%) of comparable age, body mass and level of physical activity. OUTCOME MEASURES: myocellular fATP, g6p and intramyocellular lipid content (IMCL) were measured with (1) H/(31) P magnetic resonance spectroscopy during fasting and hyperinsulinaemic-euglycaemic clamp tests. RESULTS: fasting fATP, g6p and IMCL did not differ between groups. During stimulation by insulin, type 1 diabetic patients exhibited approximately 50% (P < 0.001) lower whole-body glucose disposal along with approximately 42% (P = 0.003) lower intramyocellular g6p and approximately25% (P = 0.024) lower fATP. Insulin-stimulated fATP correlated positively with whole-body insulin sensitivity (R = 0.706, P = 0.002) and negatively with HbA1c (R = -0.675, P = 0.004). CONCLUSIONS: despite documented near-target glycaemic control for 1 year, nonobese patients with long-standing type 1 diabetes can exhibit insulin resistance. This associates with lower insulin-stimulated flux through muscular ATP synthase which could result from glucose toxicity.

Acute elevation of plasma lipids does not affect ATP synthesis in human skeletal muscle.

Prolonged elevation of plasma triglycerides and free fatty acids (FFA) reduces insulin-stimulated glucose disposal and myocellular flux through ATP synthase (fATPase). However, the early effects of lipids per se on fATPase are as yet unclear. Thus, this study examined glucose disposal and fATPase during 3 h of FFA elevation in the presence of low plasma insulinemia. Euglycemic pancreatic clamps with low-dose insulin supplementation (6 mU.m body surface area(-2).min(-1)) were performed in eight healthy men with (LIP) or without (CON) lipid infusion to measure whole body glucose disposal. (31)P/(1)H magnetic resonance spectroscopy of calf muscle was applied to quantify fATPase and concentrations of glucose 6-phosphate (G6P), inorganic phosphate (P(i)), phosphocreatine (PCr), ADP, pH, and IMCL before and during the clamps. Lipid infusion increased plasma FFA approximately twofold and decreased glucose disposal by approximately 50% (110-180 min: LIP 0.87 +/- 0.45 vs. CON 1.75 +/- 0.42 mg.kg(-1).min(-1), P = 0.002; means +/- SD). Intramyocellular G6P tended to rise only under control conditions, whereas PCr, ADP, pH, and IMCL remained unchanged from fasting in LIP and CON. Although P(i) concentrations increased by approximately 18%, fATPase remained unchanged from fasting during the clamps (LIP 10.2 +/- 2.2 vs. CON 10.5 +/- 2.6 micromol.g muscle(-1).min(-1), P = not significant). We conclude that 3 h of lipid elevation fail to affect ATP synthesis despite marked reduction of whole body glucose uptake. This suggests that lipid-induced insulin resistance results primarily from mechanisms decreasing glucose uptake rather than from direct interference of fatty acid metabolites with mitochondrial function.

Reduction of both number and proliferative activity of human endothelial progenitor cells in obesity.

OBJECTIVE: Circulating endothelial progenitor cells (EPCs), responsible for neoangiogenesis and vascular repair, negatively correlate with vascular dysfunction and atherosclerotic risk factors. Because obesity may have a crucial role in the development of endothelial dysfunction, this study evaluated the number and proliferative activity of circulating human EPCs in obese (body mass index (BMI)=48+/-9, n=45) compared with lean (23+/-2, n=45) volunteers. METHODS: EPCs were quantified after isolation of peripheral blood mononuclear cells (PBMCs) using fluorescence-activated cell sorting analyses. In addition, plated PBMCs developed colony-forming units (CFUs) from which 'outgrowth' endothelial cells (OECs) sprouted and differentiated into mature endothelial cells. Growth rates were monitored by periodical microscopic evaluation. Cell-cycle protein expression was determined by western blot analyses. RESULTS: BMI negatively correlated (P<0.01) with the number of CD34(+)/CD133(+)/KDR(+) (r=-0.442), CD34(+)/KDR(+) (r=-0.500) and CD133(+)/KDR(+) (r=-0.282) EPCs. Insulin, leptin, HbA(1c), high-sensitivity C-reactive protein and hypertension, as well as diminished high-density lipoprotein and apolipoprotein A1, were not only associated with obesity but also with significantly reduced EPC levels. Applying selective culture conditions, EPC-CFUs differentiated into OECs that proliferated more slowly when derived from obese compared with lean subjects (obese: 19.9+/-2.2% vs lean: 30.9+/-3.2% grown area per week, P<0.01). The reduced proliferation was reflected by decreased (P<0.05, n=24 for each group) expression of cell-cycle-promoting cyclins and E2F-1, by hypophosphorylation of retinoblastoma protein and by increased (P<0.05, n=24 for each group) expression of the cell-cycle inhibitor p21(WAF-1/Cip1). CONCLUSIONS: Reduced numbers of EPCs along with their premature senescence, as shown in this study, could function as early contributors to the development and progression of vascular dysfunction in obesity.

Glucose turnover and intima media thickness of internal carotid artery in type 2 diabetes offspring.

BACKGROUND: First-degree offspring (OFF) of type 2 diabetic (T2DM) patients bear a approximately 40% lifetime risk of developing T2DM. They are insulin resistant and carry a risk of premature atherosclerosis, the extent of which can be estimated by intima media thickness (IMT) of the carotid artery (CA). Thus, this study examines parameters of glucose and lipid metabolism, insulin sensitivity, beta cell function (BCF) and IMT with their interrelationships in middle-aged OFF. MATERIALS AND METHODS: T2DM-OFF (n = 18, 14f/4m, 45.6 +/- 2.1 years, BMI: 26 +/- 1 kg m(-2)) were compared with 18 matching humans without a family history of diabetes (CON; 14f/4m, 44.5 +/- 2.1 years, BMI: 24 +/- 1 kg m(-2); each P > 0.30), all with normal glucose tolerance as tested by three-hour (75 g) oral glucose tolerance tests (OGTT). Two-hour hyperinsulinaemic (40 mU min(-1).m(-2))isoglycaemic clamp tests were performed with simultaneous measurement of endogenous glucose (D-[6,6-(2)H(2)]glucose) production (EGP). IMT [internal (ICA), common CA, and bulb] were measured sonographically. BCF was assessed by Adaptation Index (AI). RESULTS: Before and during OGTT, both groups were similar in plasma glucose, insulin, C-peptide and free fatty acids (FFA), whereas OFF showed ~30% lower (P < 0.03) fasting plasma triglycerides before OGTT. During hyperinsulinaemic clamps, insulin sensitivity was approximately 38% lower (P < 0.03) in OFF who showed higher plasma FFA (44 +/- 9 micromol L(-1)) than CON (26 +/- 3 micromol L(-1), P < 0.05) after 90 min. EGP was similar in both groups. OFF had 38% (P < 0.007) reduced AI. ICA-IMT was approximately 18% higher in OFF (P < 0.002), but did not correlate with insulin sensitivity. CONCLUSION: The data obtained show middle-aged T2DM-OFF with normal glucose tolerance displaying reduced total insulin sensitivity and impaired beta cell function, which relates to impaired insulin-dependent suppression of plasma FFA and increased ICA-IMT.

Effect of rosiglitazone on visfatin and retinol-binding protein-4 plasma concentrations in HIV-positive patients.

Thiazolidinediones (TZD) may improve insulin resistance in patients with diabetes and HIV. The novel adipocytokines visfatin and retinol-binding protein-4 (RBP-4) have been proposed to influence the development of impaired glucose tolerance. The impact of TZD on these cytokines is yet unknown. In this randomized, double-blind, placebo-controlled parallel group study, 37 lean HIV-positive subjects aged 19-50 years were treated with 8 mg/day rosiglitazone (n=20) or placebo (n=17) for 6 months. Insulin sensitivity was estimated from the homeostasis model assessment (HOMA) index. Fasting visfatin, RBP-4, leptin, and adiponectin plasma concentrations were analyzed by immunoassays. Rosiglitazone had no effect on impaired insulin sensitivity, but increased median plasma visfatin from 6.2 ng/ml (95% CI: 5.9; 6.5) to 13.7 ng/ml (12.6; 19.1) (P<0.001) and adiponectin from 3.2 ng/ml (2.2; 4.0) to 4.0 ng/ml (3.3; 8.5; P<0.001). RBP-4 was lowered from 21.0 ng/ml (19.6; 23.1) to 16.3 ng/ml (15.2; 17.0; P<0.001), and leptin concentrations were unchanged. Adipocytokine concentrations were stable in subjects receiving placebo, where a deterioration in insulin sensitivity was detectable (P<0.05). Changes in visfatin and RBP-4 were correlated in subjects receiving rosiglitazone (r=-0.64, P<0.01) but not placebo (r=0.12, P=0.15). TZD treatment affects circulating adipocytokine concentrations in subjects with HIV. Reductions in RBP-4 and increases in visfatin may contribute to the pharmacodynamic action of TZD on glucose homeostasis. Quantification of adipocytokines might be useful to assess TZD treatment effectiveness in insulin-resistant subjects with HIV.

Stimulation of gonadal steroid synthesis by chronic excess of adrenocorticotropin in patients with adrenocortical insufficiency.

Analysis of 24-h urinary steroid excretion was performed by capillary gas chromatography in six patients (five men, one woman) with adrenocortical insufficiency. Ten healthy subjects (five men, five women) served as controls. A complete absence of all 21-hydroxylated steroid metabolites was seen in patients with adrenocortical insufficiency, whereas the excretion of several steroids lacking hydroxylation in the 21-position (pregnenolone, pregnenetriol, and 11-ketoandrosterone) was markedly increased. In addition, the presence of 11 beta-hydroxyandrosterone was confirmed by mass-spectrometry in the urine of three patients. This pattern of steroid excretion was unchanged in patients with adrenocortical insufficiency, both after stimulation by 1-24 adrenocorticotropin (ACTH) and after short-term (3-d) suppression with dexamethasone. We conclude that patients with adrenocortical insufficiency present a pattern of steroid excretion characterized by the absence of 21-hydroxylated metabolites. In the absence of functional adrenocortical tissue, long-term pathologically elevated concentrations of ACTH apparently stimulate early steps of steroid synthesis, most likely in the gonads. In addition, the presence of 11-hydroxylated steroid metabolites (11-ketoandrosterone, 11 beta-hydroxyandrosterone) in the urine of patients with adrenocortical insufficiency demonstrates that chronic ACTH excess in this disorder may induce some activity of 11 beta-hydroxylase, an enzyme not found in the gonads under physiological conditions.

SNP analysis to dissect human traits.

The analysis of complex human diseases has been spurred by the number of published genomic sequence variants - many identified in the course of sequencing the human genome. But, to be useful for genetic analysis, variants have to be mapped accurately, their frequencies in various populations determined, and automated high-throughput assay techniques developed. Recently proposed methods address these issues: the use of 'reduced representation shotgun' methods for more efficient detection of single nucleotide polymorphisms (SNPs), the employment of high-throughput genotyping techniques, the development of SNP maps that incorporate information about linkage disequilibrium, and the use of SNPs in identifying susceptibility genes for common illnesses.

Carrier frequency of congenital adrenal hyperplasia (21-hydroxylase deficiency) in a middle European population.

Based on newborn screening data, the carrier frequency of congenital adrenal hyperplasia (CAH) in the general population has been estimated to be 1:55. The higher CAH frequency (particularly of milder forms of the disease) reported for certain populations including Yugoslavs (1.6%) relates to population genetic and hormonal data. However, so far, true carrier frequency for CAH due to 21-OH deficiency has not been determined by comprehensive mutation analysis of the 21-OH gene (CYP21A2) in an unselected European population. This study used CYP21A2 genotyping (sequence/Southern blot analysis) to determine CAH carrier frequency in a middle European (Austrian) population. The study included 100 migrants from the former Yugoslavia and 100 individuals of non-Yugoslavian origin. None of these individuals showed clinical hyperandrogenism or had a family history of CAH. Genotyping 400 unrelated alleles from 200 clinically unaffected individuals, this study revealed a carrier frequency of 9.5%, including so-called "classic" (5.5%) and "nonclassic" (4%) CYP21A2-gene aberrations. The observed heterozygosity for CAH in Yugoslavs was not different (P = 0.8095) from that in non-Yugoslavs. In conclusion, the observed CAH carrier frequency of 9.5% suggests a higher prevalence of CAH heterozygosity in a middle European population than hitherto estimated independently of the individuals' Yugoslav or non-Yugoslav origin.

The effect of growth hormone on splanchnic glucose and substrate metabolism following oral glucose loading in healthy man.

Elevated plasma concentrations of growth hormone impair glucose tolerance and insulin sensitivity of peripheral tissues. To study the effect of short-term exposure to growth hormone concentrations elevated into the upper physiologic range (7-10 ng/ml) on splanchnic carbohydrate metabolism, both splanchnic glucose output (SGO) and substrate exchange after ingestion of a 75-g glucose load were determined by means of the liver vein catheter technique in six healthy volunteers after growth hormone administration. Growth hormone was infused at a rate of 2 micrograms/kg X h starting 120 min before and continuing for 150 min following the glucose load. Control studies without growth hormone administration were performed in seven subjects. SGO was 104 +/- 10 (SEM) mg/min in the postabsorptive state and increased to 43.4 +/- 2.2 g during the 150-min period following glucose ingestion. Growth hormone infusion did not alter basal SGO (130 +/- 14 mg/min), nor the splanchnic exchange of lactate, pyruvate, and free fatty acids, whereas basal production of beta-OH-butyrate was increased twofold; following glucose ingestion a higher proportion of the given glucose load escaped the splanchnic bed after growth hormone exposure (66.9 +/- 6.8 g/150 min; P less than 0.005). The insulin production rate (basal 14 +/- 2 mU/min; following oral glucose 7.0 +/- 0.8 U/150 min) as calculated from C-peptide release from the splanchnic area was unaltered by growth hormone exposure in the basal state (14 +/- 3 mU/min), but augmented after glucose ingestion (14.8 +/- 1.5 U/150 min).(ABSTRACT TRUNCATED AT 250 WORDS)

Metabolic effects of fish-oil supplementation in patients with impaired glucose tolerance.

To determine the impact of fish-oil supplementation on glucose and lipid metabolism in patients with impaired glucose tolerance (IGT), 30 ml fish oil containing 3.8 g eicosapentaenoic acid (EPA; 20:5 omega 3) and 2.5 g docosahexaenoic acid (DHA; 22:5 omega 3) were given to eight obese subjects with IGT (mean +/- SD age 50.3 +/- 8.0 yr) in addition to their regular diet for 2 wk. Studies were performed in randomized order versus an isocaloric control period with a washout phase of 3 wk. Hyperinsulinemic clamp examinations (1 and 10 mU.kg-1.min-1) were performed. Glucose disposal rate (M value) rose from basal 14.3 +/- 5.1 to 17.9 +/- 4.4 mumol.kg-1.min-1 after fish oil (P less than 0.001) during the 1-mU clamp, whereas no change was seen during the 10-mU clamp (without fish oil, 42.2 +/- 8.9 mumol.kg-1.min-1; with fish oil, 45.1 +/- 9.8 mumol.kg-1.min-1;NS). Basal hepatic glucose output remained unaffected by fish oil, whereas fractional glucose clearance after intravenous glucose loading (2.4 mmol/kg body wt, t = 30 min) tended to increase (K value: without fish oil, 2.15 +/- 1.02%/min; with fish oil, 2.74 +/- 1.26%/min; NS). Neither the fasting concentrations of glucose and insulin nor induced glycemia and insulin response during intravenous glucose loading calculated as incremental area under the curve changed after fish-oil supplementation.(ABSTRACT TRUNCATED AT 250 WORDS)

Elevated islet amyloid pancreatic polypeptide and proinsulin in lean gestational diabetes.

Recent research indicates that islet amyloid pancreatic polypeptide (IAPP) might have a regulatory effect on beta-cell insulin processing and secretion. To study such interaction in more detail, IAPP secretion and kinetics and the serum concentrations of proinsulin were assessed both before and after delivery in lean pregnant women with gestational diabetes mellitus (GDM patients) in comparison to those with normal glucose tolerance (NGT) and to nonpregnant healthy lean (control) and obese insulin-resistant women during oral glucose tolerance tests. Kinetic analysis of IAPP was performed with mathematical modeling, providing indirect estimates of its secretion and fractional clearance. Total insulin secretion per 180 min was elevated by 30% in GDM patients (35 +/- 3 pmol/l) versus control subjects (27 +/- 1 pmol/l) (P < 0.05), but increased even more (190-250%) in obese insulin-resistant women, compared with all other groups (68 +/- 7 pmol/l, P < 0.0005). Pregnancy induced a more marked fourfold increase in apparent total IAPP secretion rate (TIR) (GDM patients, 172 +/- 31 pmol x 1(-1) x 3 h(-1); NGT subjects, 166 +/- 31 pmol x 1(-1) x 3 h(-1); control subjects, 40 +/- 1 pmol 1(-1) x 3 h(-1)) and a twofold rise in its fractional clearance versus control subjects (P < 0.01), whereas in GDM patients a 30% increase of IAPP secretion and a decreased clearance was found, compared with obese insulin-resistant women (TIR, 112 +/- 14 pmol x 1(-1) x 3 h(-1)). The increase in IAPP secretion in both pregnant groups was much higher than that of the insulin groups, resulting in a marked change of the IAPP-insulin cosecretion factor when compared with lean or obese nonpregnant women (P < 0.0005). Associated serum proinsulin and the postprandial (total divided by 180 min) proinsulin-to-insulin ratio were greater in GDM patients versus NGT and control subjects (0.11 +/- 0.01 vs. 0.07 +/- 0.01 and 0.08 +/- 0.01 pmol/l, P < 0.05), while the fasting proinsulin-to-insulin ratio was only increased in GDM patients versus control subjects (0.22 +/- 0.03 vs. 0.13 +/- 0.01 pmol/l, P < 0.05). After delivery, total IAPP secretion (52.4 +/- 1.5 pmol/l) was completely normalized in the GDM group, as were the clearance rate and the IAPP-insulin cosecretion factor. Similarly, serum proinsulin concentrations returned to normal, whereas proinsulin-to-insulin ratios remained elevated. In conclusion, IAPP hypersecretion is characteristic for pregnancy and might partially decrease hyperinsulinemia in pregnancy by inhibiting insulin secretion. Increased proinsulin concentrations and a raised proinsulin-to-insulin ratio, which did not abate following delivery, are specific to GDM and might thus serve as its marker and potentially even identify subjects at high risk for the development of NIDDM.

Effect of insulin antibodies on insulin pharmacokinetics and glucose utilization in insulin-dependent diabetic patients.

To determine the impact of insulin-binding antibodies on total (TIRI) and free insulin (FIRI) as well as on insulin sensitivity, 10 insulin-dependent diabetic patients (IDDM) with poststimulatory C-peptide less than 100 pmol/L and an insulin binding capacity (IBC) between less than 1 and 294 micrograms/L serum were studied during and after a 1-h nonprimed, constant-rate insulin infusion (study 1: 0.057 U/kg body wt, study 2: 0.286 U/kg body wt). Euglycemia was maintained by variable glucose infusion. Control studies were performed in 5 healthy subjects. Basal TIRI (mU/L) was lowest in healthy subjects (16 +/- 1 [SE]) and elevated in diabetic patients (IBC less than 25 micrograms/L: 72 +/- 11, IBC greater than 25 micrograms/L: 1772 +/- 842), whereas serum concentrations of FIRI were considerably smaller but still two- to threefold greater (P less than 0.01) in the patients than in healthy subjects (13 +/- 1). After intravenous (i.v.) insulin administration, almost identical increments in serum TIRI were seen in healthy subjects and in diabetic patients with low IBC (less than 25 micrograms/L), whereas those with high IBC (greater than 25 micrograms/L) had a heterogeneous response.(ABSTRACT TRUNCATED AT 250 WORDS)

Effects of free fatty acid elevation on postabsorptive endogenous glucose production and gluconeogenesis in humans.

Effects of free fatty acids (FFAs) on endogenous glucose production (EGP) and gluconeogenesis (GNG) were examined in healthy subjects (n = 6) during stepwise increased Intralipid/heparin infusion (plasma FFAs 0.8+/-0.1, 1.8+/-0.2, and 2.8+/-0.3 mmol/l) and during glycerol infusion (plasma FFAs approximately 0.5 mmol/l). Rates of EGP were determined with D-[6,6-2H2]glucose and contributions of GNG from 2H enrichments in carbons 2 and 5 of blood glucose after 2H2O ingestion. Plasma glucose concentrations decreased by approximately 10% (P < 0.01), whereas plasma insulin increased by approximately 47% (P = 0.02) after 9 h of lipid infusion. EGP declined from 9.3+/-0.5 (lipid) and 9.0+/-0.8 pmol x kg(-1) x min(-1) (glycerol) to 8.4+/-0.5 and 8.2+/-0.7 micromol x kg(-1) x min(-1), respectively (P < 0.01). Contribution of GNG similarly rose (P < 0.01) from 46+/-4 and 52+/-3% to 65+/-8 and 78+/-7%. To exclude interaction of FFAs with insulin secretion, the study was repeated at fasting plasma insulin (approximately 35 pmol/l) and glucagon (approximately 90 ng/ml) concentrations using somatostatin-insulin-glucagon clamps. Plasma glucose increased by approximately 50% (P < 0.005) during lipid but decreased by approximately 12% during glycerol infusion (P < 0.005). EGP remained unchanged over the 9-h period (9.9+/-1.2 vs. 9.0+/-1.1 micromol x kg(-1) x min(-1)). GNG accounted for 62+/-5 (lipid) and 60+/-6% (glycerol) of EGP at time 0 and rose to 74+/-3% during lipid infusion only (P < 0.05 vs. glycerol: 64+/-4%). In conclusion, high plasma FFA concentrations increase the percent contribution of GNG to EGP and may contribute to increased rates of GNG in patients with type 2 diabetes.

Measurement of fractional whole-body gluconeogenesis in humans from blood samples using 2H nuclear magnetic resonance spectroscopy.

Several problems limit quantification of gluconeogenesis. We applied in vitro 2H-nuclear magnetic resonance (NMR) spectroscopy to simultaneously measure 2H in all glucose carbons for direct assessment of gluconeogenesis. This method was compared with 2H measurement in carbons 5 and 2 using gas chromatography-mass spectrometry (hexamethylenetetramine [HMT]) and with in vivo 13C magnetic resonance spectroscopy (MRS). After 14 h of fasting, and following 2H2O ingestion, blood was obtained from nine healthy and seven type 2 diabetic subjects. Glucose was purified, acetylated, and analyzed for 2H in carbons 1-6 with 2H-NMR. Using 5:2 ratios, gluconeogenesis increased (P < 0.05) over time and mean gluconeogenesis was lower in control subjects than in type 2 diabetic patients (63 +/- 3 vs. 75 +/- 2%, P < 0.01). 13C-MRS revealed higher hepatic glycogenolysis in control subjects (3.9 +/- 0.4 vs. 2.3 +/- 0.2 micromol.kg(-1).min(-1)) yielding mean contribution of gluconeogenesis of 65 +/- 3 and 77 +/- 2% (P < 0.005). Measurement of gluconeogenesis by 2H-NMR correlated linearly with 13C-MRS (r = 0.758, P = 0.0007) and HMT (r = 0.759, P = 0.0007). In an additional protocol, 2H enrichments demonstrated a fast decline of gluconeogenesis from approximately 100 to approximately 68% (P < 0.02) within 4 h of galactose infusion after 40-44 h of fasting. Thus, in vitro 2H-NMR offers an alternative approach to determine fractional gluconeogenesis in good agreement with standard methods and allows monitoring of rapid metabolic alterations.

Insulin production rate in normal man as an estimate for calibration of continuous intravenous insulin infusion in insulin-dependent diabetic patients.

This study examines the feasibility of deriving the 24-h insulin requirement of insulin-dependent diabetic patients who were devoid of any endogenous insulin release (IDD) from the insulin-production rate (IPR) of healthy man (basal, 17 mU/min; stimulated 1.35 U/12.5 g glucose). To this end, continuous intravenous insulin infusion (CIVII) was initiated at a precalculated rate of 41.2 +/- 4.6 (SD) U/24 h in IDD (N - 12). Blood glucose profiles were compared with those obtained during intermittent subcutaneous (s.c.) insulin therapy (IIT) and those of healthy controls (N = 7). Regular insulin (Hoechst CS) was infused with an adapted Mill Hill Infuser at a basal infusion rate of 1.6 U/h (6:00 a.m. to 8:00 p.m.), and of 0.8 U/h from 8:00 p.m. to 6:00 a.m. Preprandial insulin (3.2-6.4 U) was added for breakfast, lunch, and dinner. Daily individual food intake totaled 7688 +/- 784 kJ (1836 +/- 187 kcal)/24 h including 184 +/- 37 g of glucose. Proper control of blood glucose (BG) (mean BG 105 +/- 10 mg/dl; mean amplitude of glycemic excursions 54 +/- 18 mg/dl; and 1 h postprandial BG levels not exceeding 160 mg/dl) and of plasma concentrations of beta-hydroxybutyrate and lactate was maintained by 41.4 +/- 4.4 U insulin/24 h. Although BG values only approximated the upper normal range as seen in healthy controls, they were well within the range reported by others during CIVII. Therefore, we conclude that in adult IDD completely devoid of endogenous insulin (1) the IPR of normal man can be used during CIVII as an estimate for the patient's minimal insulin requirement per 24 h, and (2) this approach allows for a blood glucose profile close to the upper range of a normal control group. Thus, deriving a patient's daily insulin dose from the insulin production rate of healthy man may add an additional experimental protocol which aids in making general calculations of a necessary insulin dose instead of using trial and error or a closed-loop insulin infusion system.

Glucose metabolism in pregnancy at high altitude.

OBJECTIVE: To assess insulin sensitivity and beta-cell function associated with lower maternal fasting plasma glucose levels at high altitude compared with sea level. RESEARCH DESIGN AND METHODS: We studied 215 pregnant women at 8-42 weeks of gestation in Peru. The women were recruited from Cerro de Pasco, which is situated 4,370 m (14,340 feet) above sea level, and Lima, which is at sea level. We also examined 53 nonpregnant control subjects (22 in Cerro de Pasco and 31 in Lima). Fasting plasma glucose, insulin, C-peptide, and proinsulin concentrations were measured in samples obtained from the antecubital vein between 8:00 a.m. and 10:00 a.m. after an overnight period of fasting for 10-14 h Insulin resistance and beta-cell function were calculated using homeostasis model assessment. RESULTS: Fasting C-peptide levels and beta-cell function were similar, fasting concentrations of insulin and proinsulin were lower, and insulin sensitivity was higher at high altitude compared with sea level. CONCLUSIONS: Maternal fasting plasma glucose that is lower at high altitude than at sea level in the presence of similar insulin secretion is associated with higher peripheral insulin sensitivity. This may partly explain the lower birth weights at high altitudes.

Insulin-like growth factor-I inhibits insulin and amylin secretion in conscious rats.

Human recombinant insulin-like growth factor-I (IGF-I) exerts insulin-like antidiabetic properties in vitro and in vivo. To determine the effects of IGF-I infusion on insulin and amylin release, plasma glucose of freely moving undisturbed rats was constantly maintained at 13.9 mmol/liter by variable glucose infusion for 120 min in three groups of fasted Sprague-Dawley rats (hyperglycemic clamp technique). Group A, vehicle infusion (control group); group B, bolus 0.39 nmol plus 0.39 nmol/h IGF-I continously; and group C, bolus 1.96 nmol plus 1.96 nmol/h IGF-I continuously. During the steady-state phase of the experiment, IGF-I dose dependently reduced plasma insulin (pmol/liter: A, 718 +/- 58; B, 613 +/- 35, NS vs. A; C, 408 +/- 21, P < 0.01 vs. A; dose-response effect: P < 0.0001), plasma amylin (pmol/liter: A, 10.2 +/- 0.6; B, 8.8 +/- 0.5, NS vs. A; C, 5.8 +/- 0.4, P < 0.01 vs. A; dose-response effect: P < 0.0001), and net glucose uptake (mumol/kg.min: A, 188 +/- 12; B, 160 +/- 12, NS vs. A; C, 134 +/- 7, P < 0.01 vs. A; dose-response effect: P < 0.0025). At the same time, the ratio of plasma insulin/plasma amylin (mol/mol: A, 72 +/- 6; B, 71 +/- 5; C, 74 +/- 9; NS), the ratio of net glucose uptake/plasma insulin (mumol/kg.min per pmol/liter: A, 0.28 +/- 0.03; B, 0.27 +/- 0.02; C, 0.36 +/- 0.04; NS), and glycogen content of liver, heart, and various hindlimb muscles remained unaffected. The results demonstrate that IGF-I is a potent inhibitor of insulin and amylin release in healthy rats exposed to hyperglycemia and suggest that IGF-I infusion inhibits hormone secretion from pancreatic beta cells at infusion rates that do not affect insulin-stimulated glucose uptake by peripheral tissues.

Effect of endothelin-1 in man: impact on basal and adrenocorticotropin-stimulated concentrations of aldosterone.

The effect of exogenous endothelin-1 [2 pmol (5 ng)/kg.min for 15 min, followed by 1 pmol (2.5 ng)/kg.min for 105 min] on basal and ACTH (250 micrograms, i.v.)-stimulated plasma concentrations of aldosterone, cortisol, testosterone, corticosterone, and 18-hydroxycorticosterone was investigated in a group of healthy male volunteers (n = 6). Plasma concentrations of aldosterone remained unchanged during a placebo experiment (i.e. in the absence of both exogenous ACTH and of endothelin-1). In the absence of exogenous ACTH, the i.v. administration of endothelin-1 did not influence plasma concentrations of aldosterone. The i.v. administration of 0.25 mg ACTH induced a rise in plasma concentrations of aldosterone from a basal value of 152.6 +/- 38.8 to 362.6 +/- 77.7 pmol/L. This ACTH-induced rise was markedly augmented (P < 0.01) by the concomitant administration of endothelin-1, when peak plasma concentrations of aldosterone of 632.5 +/- 230.2 pmol/L were observed. Basal and ACTH-stimulated concentrations of cortisol, corticosterone, and 18-hydroxycorticosterone were unchanged by the concomitant infusion of endothelin-1. Thus, exogenous endothelin-1 influences adrenal function in healthy men by selectively augmenting the ACTH-induced secretion of aldosterone.