UMLS:C0011860 - FACTA Search

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Query: UMLS:C0011860 (type 2 diabetes)
57,723 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Platelet levels of 19 amino acids were measured in 20 outpatients with type 1 (age [mean +/- SE], 35.5 +/- 2.0 years) and 27 with type 2 (age, 58.4 +/- 1.4 years) diabetes, and 20 young (age 33.7 +/- 1.3 years) and 20 older (age 57.4 +/- 1.5 years) healthy volunteers. Platelet levels of most amino acids tended to be lower in patients with type 1 diabetes than in healthy controls. In particular, asparagine, glycine, taurine, alanine, valine, cysteine, leucine, phenylalanine, and lysine levels, expressed as nmol/10(8) platelets, were significantly lower. Only taurine significantly decreased in patients with type 2 diabetes, whereas threonine, alanine, and isoleucine increased.
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PMID:Preliminary report: Amino acid profile in platelets of diabetic patients. 1143 75

Patients with type 2 diabetes (DM) demonstrate inadequate insulin release, elevated gluconeogenesis, and diminished nonoxidative glucose disposal. Similar metabolic changes occur during systemic injury caused by infection, trauma, or cancer. Described here are metabolic changes occurring in 16 DM and 11 lung cancer patients (CA) and 13 normal volunteers (NV). After a 10-h overnight fast, all subjects had fasting hormone and substrate concentrations determined, along with rates of glucose production, leucine appearance (LA), and leucine oxidation (LO). Fasting insulin (data not shown) and C-peptide concentrations were elevated in DM and CA compared with weight-matched NV (0.72 +/- 0.09 and 0.64 +/- 0.08 vs. 0.51 +/- 0.03 mg/l, P < 0.05). C-reactive protein concentration was elevated in CA compared with DM and NV (23.3 +/- 6.0 vs. 4.2 +/- 1.4 and 2.1 +/- 0.5 mg/l, P < 0.01). All counterregulatory hormones were normal except for serum cortisol (11.4 +/- 1.0 and 12.1 +/- 1.0 vs. 8.9 +/- 0.7 microg/dl, DM and CA vs. NL, respectively, P < 0.05). Glucose production was increased in DM and CA compared with NV (4.22 +/- 0.6 and 3.53 +/- 0.3 vs. 2.76 +/- 0.2 mg x kg lean body wt(-1) x min(-1), P < 0.01). LO and LA were increased in DM and CA compared with NV (LO: 27.3 +/- 1.5 and 19.7 +/- 1.5 vs. 12.5 +/- 1.1 mmol x kg lean body wt(-1) x min(-1), P < 0.05; LA: 91.9 +/- 6.6 and 90.7 +/- 7.0 vs. 79.1 +/- 6.0 mmol. kg lean body wt(-1) x min(-1), P < 0.01). DM share similar metabolic derangements with CA. The increase in LA may be secondary to an increased glucose production where amino acids are mobilized to provide the liver with adequate substrate to make glucose. The increase in glucose production may also be part of the injury response, or it may represent a form of insulin resistance that exists in both the DM and (non-DM) CA patients.
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PMID:Type 2 diabetic patients may have a mild form of an injury response: a clinical research center study. 1200 58

Evidence from both human genetic studies and characterization of peroxisome proliferator-activated receptor gamma (PPARgamma) knockout mice suggested that the prime function of PPARgamma is fat formation and that its role in insulin sensitization might be secondary to this function. The thrifty function of PPARgamma was most likely evolutionary beneficial, but might in "times of plenty" contribute to the pathogenesis of disorders, such as obesity, insulin resistance, type 2 diabetes, and hyperlipidemia, often commonly referred to as "syndrome X". This role of PPARgamma in these diseases also questions the eventual therapeutic benefits of pure PPARgamma activation, which is associated with an increase in adipose tissue mass. We characterized a new chemical class of PPARgamma agonists, that is, FMOC-l-leucine (FLL). FLL induces a different conformation of PPARgamma relative to classical PPARgamma ligands. Mass spectrometry indicates that two molecules of FLL bind to a single PPARgamma molecule, making its mode of receptor interaction distinctive. FLL recruits a different set of coactivators and activates PPARgamma with a lower potency, but a similar maximal efficacy, relative to known PPARgamma ligands. In contrast, FLL is a more effective insulin sensitizer than current PPARgamma agonists, an effect potentially linked to its weak adipogenic activity. These data make a strong point for potential therapeutic benefits of PPARgamma modulation rather than activation.
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PMID:PPARgamma, an X-ceptor for Xs. 1207 32

Improvement of glycemic status by insulin is associated with profound changes in amino acid metabolism in type 1 diabetes. In contrast, a dissociation of insulin effect on glucose and amino acid metabolism has been reported in type 2 diabetes. Type 2 diabetic patients are reported to have reduced muscle oxidative enzymes and VO(2max). We investigated the effect of 11 days of intensive insulin treatment (T(2)D+) on whole-body amino acid kinetics, muscle protein synthesis rates, and muscle functions in eight type 2 diabetic subjects after withdrawing all treatments for 2 weeks (T(2)D-) and compared the results with those of weight-matched lean control subjects using stable isotopes of the amino acids. Whole-body leucine, phenylalanine and tyrosine fluxes, leucine oxidation, and plasma amino acid levels were similar in all groups, although plasma glucose levels were significantly higher in T(2)D-. Insulin treatment reduced leucine nitrogen flux and transamination rates in subjects with type 2 diabetes. Synthesis rates of muscle mitochondrial, sarcoplasmic, and mixed muscle proteins were not affected by glycemic status or insulin treatment in subjects with type 2 diabetes. Muscle strength was also unaffected by diabetes or glycemic status. In contrast, the diabetic patients showed increased tendency for muscle fatigability. Insulin treatment also failed to stimulate muscle cytochrome C oxidase activity in the diabetic patients, although it modestly elevated citrate synthase. In conclusion, improvement of glycemic status by insulin treatment did not alter whole-body amino acid turnover in type 2 diabetic subjects, but leucine nitrogen flux, transamination rates, and plasma ketoisocaproate level were decreased. Insulin treatments in subjects with type 2 diabetes had no effect on muscle mitochondrial protein synthesis and cytochrome C oxidase, a key enzyme for ATP production.
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PMID:Synthesis rate of muscle proteins, muscle functions, and amino acid kinetics in type 2 diabetes. 1214 50

Insulin-induced glucose disposal is impaired in Type 2 diabetes mellitus (T2DM). To determine whether insulin-induced suppression of protein breakdown also is impaired, we measured leucine flux (an index of protein breakdown) in diabetic and nondiabetic subjects during a hyperinsulinemic euglycemic clamp. To avoid the confounding effects of a difference in baseline glucose, glucose concentration in the diabetic subjects was normalized by means of an overnight insulin infusion. Despite higher plasma insulin levels (33.5+/-0.05 vs 132+/-2.7 pmol/l, p<01) diabetic subjects had similar amino acid concentrations and leucine flux (96.9+/-5.8 vs 93.4+/-3.7 micromol/kg/h) as nondiabetic subjects. Infusion of insulin (0.5 mU/kg/min) increased insulin levels (p<0.01) to identical levels in both groups (218+/-16 vs 222+/-19), but the glucose infusion required to maintain euglycemia was higher (p<0.01) in nondiabetic than in diabetic subjects, indicating insulin resistance to glucose disposal in the diabetic subjects. In contrast, leucine flux (81.3+/-4.8 vs 81.6+/-3.4 micromol/kg/h) reached identical levels in both groups. The individual and total amino acid levels also were comparable in both groups. We conclude that suppression of whole body protein turnover in response to an acute increase in insulin is normal in people with T2DM. However, chronic adaptation to high insulin levels occurs, thereby enabling protein breakdown and amino acid concentration to remain within the normal range in people with T2DM.
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PMID:Insulin effect on leucine kinetics in type 2 diabetes mellitus. 1217 27

Psammomys obesus, an animal model of type 2 diabetes, shows rapid and marked depletion of pancreatic insulin content as hyperglycemia develops when fed a high-calorie diet. P. obesus islets do not increase proinsulin gene expression when exposed to high glucose, which may be related to absence of the conserved form of the transcription factor insulin promoter factor 1/pancreatic-duodenal homeobox 1. The present study assesses the importance of regulation of proinsulin gene expression by glucose for insulin production. Islets of diabetes-prone P. obesus and diabetes-resistant Wistar rats, cultured at various glucose concentrations for up to 24 h, were analyzed for proinsulin mRNA by quantitative RT-PCR, proinsulin biosynthesis by leucine incorporation into proinsulin, and insulin content and secretion by RIA. No increase in proinsulin mRNA was observed in P. obesus islets during 24-h exposure to increasing concentrations of glucose. In contrast, rat islets exposed to high glucose responded with a 2- to 3-fold stimulation of proinsulin mRNA. The failure of P. obesus islets to increase proinsulin mRNA was accompanied by a reduced proinsulin biosynthetic response: after 24 h, maximal proinsulin biosynthesis was blunted, associated with depletion of islet insulin content. Inhibition of glucose-stimulated proinsulin gene transcription in rat islets by actinomycin D did not affect the early proinsulin biosynthetic response, which, however, was reduced to the level of P. obesus islets after 24 h in culture. We conclude that stimulation of proinsulin gene transcription by glucose is necessary for maintaining proinsulin biosynthesis and hence conserving pancreatic insulin stores, under conditions of sustained secretory drive, but not for short-term regulation of proinsulin biosynthesis Our findings support the hypothesis that inadequate regulation of proinsulin gene expression by glucose contributes to the failure of P. obesus to cope with the increased demand for insulin associated with caloric excess, leading to depletion of insulin stores and diabetes.
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PMID:Glucose-regulated proinsulin gene expression is required for adequate insulin production during chronic glucose exposure. 1219 32

Phospholipase A2, Group IVA (PLA2G4A) belongs to the class of cytosolic calcium-dependent phospholipases (cPLA2s) that preferentially cleave arachidonic acid (AA) from membrane glycerophospholipids. AA and AA metabolites play key roles in glucose disposal and insulin secretion. PLA2G4A is located on Chromosome 1q, where a number of groups have reported linkage to type 2 diabetes mellitus. We have screened the PLA2G4A gene and identified a C-->G variant, which predicts a phenylalanine to leucine substitution. In logistic regression analyses adjusted for age, sex, ethnicity, and birth year, we found a trend toward association between this SNP and diabetes [OR=1.53 (0.97-2.40); p=0.06]. Individuals with the variant genotype had lower mean basal endogenous glucose output (1.8+/-0.03 vs. 1.9+/-0.01 mg/kgEMBS/min; p=0.04) and lower mean basal glucose oxidation (1.2+/-0.11 vs. 1.4+/-0.03 mg/kgEMBS/min; p=0.005) compared to individuals with the wild-type genotype. During a low dose insulin infusion, non-diabetic individuals with the variant genotype had a lower mean glucose oxidation (1.9+/-0.11 vs. 2.0+/-0.03 mg/kgEMBS/min; p=0.04) and total glucose turnover rate (2.5+/-0.22 vs. 2.6+/-0.06 mg/kgEMBS/min; p=0.01) compared to subjects with the wild-type genotype. In addition, under basal conditions, individuals with the variant genotype had a higher mean lipid oxidation rate compared to individuals with the wild-type genotype (0.77+/-0.25 vs. 0.67+/-0.23 mg/kgEMBS/min; p=0.02). These results provide evidence supporting a role for the eicosanoid biosynthesis pathway in type 2 diabetes mellitus pathophysiology.
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PMID:Association of a F479L variant in the cytosolic phospholipase A2 gene (PLA2G4A) with decreased glucose turnover and oxidation rates in Pima Indians. 1276 47

Fibrinogen is an acute-phase reactant and an independent cardiovascular risk factor. Insulin without amino acid replacement acutely suppressed fibrinogen production in nondiabetic and type 1 diabetic individuals. Fibrinogen production and plasma concentration increase in insulin-resistant type 2 diabetes. It is not known whether altered response to insulin contributes to hyperfibrinogenemia in type 2 diabetes. Fibrinogen fractional (FSR) and absolute (ASR) synthesis rates were measured using a leucine isotopic model in type 2 diabetic men (n = 7; age = 51 +/- 3 years; BMI = 26.7 +/- 1 kg/m(2)) compared with matched nondiabetic subjects under basal conditions and following a 4-h euglycemic-, euaminoacidemic-hyperinsulinemic clamp. Basal fibrinogen concentration (+35%, P < 0.05) and ASR (+35%, P < 0.05) were greater in the diabetic subjects. Following clamp, fibrinogen FSR and ASR were unchanged in the control subjects. In contrast, fibrinogen FSR and ASR increased by 41 and 43%, respectively (P < 0.05), in the diabetic subjects. Thus, fibrinogen production is acutely increased by insulin when euglycemia and euaminoacidemia are maintained in type 2 diabetic individuals but not in nondiabetic individuals. Enhanced fibrinogen production by insulin is likely to be a key alteration contributing to hyperfibrinogenemia and therefore cardiovascular risk in type 2 diabetes. Unchanged fibrinogen production in nondiabetic individuals suggests a role of plasma amino acids in regulating fibrinogen production in humans.
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PMID:Insulin acutely increases fibrinogen production in individuals with type 2 diabetes but not in individuals without diabetes. 1282 56

The dyslipidemia and insulin resistance of type 2 diabetes can be improved by aerobic exercise. The effect of 6 months supervised exercise on very low-density lipoprotein (VLDL) apolipoprotein B metabolism was investigated in patients with type 2 diabetes. Moderately obese patients (n = 18) were randomized into supervised (n = 9) and unsupervised (n = 9) exercise groups. All patients were given a training session and a personal exercise program and asked to exercise four times per week at 70% maximal oxygen uptake for 6 months. Patients in the supervised group had a weekly session with an exercise trainer. VLDL apolipoprotein (apo)B metabolism was measured with an infusion of 1-(13)C leucine before and after 6 months of the exercise program. Supervised exercise for 6 months resulted in a significant within-group decrease in percent hemoglobin A1c (P < 0.001), body fat (P < 0.004), nonesterified fatty acid (P < 0.04), and triglycerides (P < 0.05) and an increase in insulin sensitivity (P < 0.01). There was a decrease in VLDL apoB pool size (160.8 +/- 42.6 to 84.9 +/- 23.2 mg, P < 0.01) and VLDL apoB secretion rate (11.3 +/- 2.6 to 5.5 +/- 2.0 mg/kg.d, P < 0.05) with no change in fractional catabolic rate. In a between-group comparison, the decrease in VLDL apoB secretion rate in the supervised group did not achieve significance. This study demonstrates that in type 2 diabetes, a supervised exercise program reduces VLDL apoB pool size, which may be due to a decrease in VLDL apoB secretion rate.
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PMID:The effect of a six-month exercise program on very low-density lipoprotein apolipoprotein B secretion in type 2 diabetes. 1476 82

Mutations in the transcription factor IPF1/PDX1 have been associated with type 2 diabetes. To elucidate beta-cell dysfunction, PDX1 was suppressed by transduction of rat islets with an adenoviral construct encoding a dominant negative form of PDX1. After 2 days, there was a marked inhibition of insulin secretion in response to glucose, leucine, and arginine. Increasing cAMP levels with forskolin and isobutylmethylxanthine restored glucose-stimulated insulin secretion, indicating normal capacity for exocytosis. To identify molecular targets implicated in the altered metabolism secretion coupling, DNA microarray analysis was performed on PDX1-deficient and control islets. Of the 2640 detected transcripts, 70 were up-regulated and 56 were down-regulated. Transcripts were subdivided into 12 clusters; the most prevalent were associated with metabolism. Quantitative reverse transcriptase-PCR confirmed increases in succinate dehydrogenase and ATP synthase mRNAs as well as pyruvate carboxylase and the transcript for the malate shuttle. In parallel there was a 50% reduction in mRNA levels for the mitochondrially encoded nd1 gene, a subunit of the NADH dehydrogenase comprising complex I of the mitochondrial respiratory chain. As a consequence, total cellular ATP concentration was drastically decreased by 75%, and glucose failed to augment cytosolic ATP, explaining the blunted glucose-stimulated insulin secretion. Rotenone, an inhibitor of complex I, mimicked this effect. Surprisingly, TFAM, a nuclear-encoded transcription factor important for sustaining expression of mitochondrial genes, was down-regulated in islets expressing DN79PDX1. In conclusion, loss of PDX1 function alters expression of mitochondrially encoded genes through regulation of TFAM leading to impaired insulin secretion.
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PMID:Oligonucleotide microarray analysis reveals PDX1 as an essential regulator of mitochondrial metabolism in rat islets. 1515 93

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