UMLS:C0011849 - FACTA Search

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Query: UMLS:C0011849 (diabetes)
277,896 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We studied metabolic pool size of polyphosphoinositides and phosphatidate of erythrocyte membranes from normal and diabetic subjects using 32P for 20-h incubation, a sufficiently long period to reach isotopic equilibrium between monoesterphosphate bond and gamma-phosphate of ATP. Phosphatidylinositol 4-monophosphate (PtdIns4P), phosphatidylinositol 4,5-bisphosphate (PtdIns(4,5)P2) and phosphatidate were the phospholipids labelled. Metabolic pools of individual phospholipids were estimated, based on their proportionate and absolute radioactivity. A significant decline in radioactivity of phosphatidate and PtdIns(4,5)P2 was seen in erythrocytes from the diabetic subjects, indicating suppression of the metabolically labile pool of these two phospholipids. There was no significant change in PtdIns4P radioactivity between the groups. The direct effect of insulin on phosphorylation of polyphosphoinositides and phosphatidate was also evaluated by a short incubation period of erythrocyte membranes with [gamma-32P]-ATP. Added insulin increased the incorporation of 32P into phosphatidate in a dose-dependent manner that reached a steady state at 2 nM. We conclude that the metabolically labile pool size of phosphatidate is decreased and that of polyphosphoinositides is altered in erythrocyte membranes from diabetic patients.
Diabetes Res Clin Pract 1992 May
PMID:Changes in polyphosphoinositides and phosphatidic acid of erythrocyte membranes in diabetes. 131 89

Transient exposure of rat pancreatic B-cell to 50 mM K+ ([K+50]) makes exocytosis unresponsive to further depolarization, i.e., stimulation with 100 mM K+ or 1 uM glyburide, which closes the ATP-sensitive K+ (K+ATP) channel, simultaneously with [K+50] does not produce any greater insulin secretion compared with [K+50] alone. In sharp contrast, 16.7 mM glucose ([G16.7]) applied simultaneously with [K+50] elicits an insulin response markedly greater than that produced by [K+50] alone, which is not attenuated by 100 uM diazoxide, an inhibitor of K+ATP channel closure. [G16.7]-induced insulin secretion at the basal K+ concn of 4.7 mM was greatly (93%) suppressed by 100 uM diazoxide. Insulin secretion induced by [K+50] plus [G16.7] ([K+50 + G16.7]) was markedly suppressed (70%) by 1 uM nifedipine, a Ca(2+)-channel blocker and was completely abolished by 2 mM 2-cyclohexen-1-one, which reportedly decreases reduced glutathione level and blocks glucokinase. This finding indicates that insulin release induced by [K+50 + G16.7] is not due to leakage produced by toxic stimuli but to activation of exocytosis. When graded concentrations (25 and 50 mM) of K+ were applied simultaneously with [G16.7] in the presence of 100 uM diazoxide, insulin response was clearly dependent on K+ concentration, indicating that the physiological range of membrane depolarization also activates the glucose-responsive effector. Membrane depolarization/Ca2+ influx directly stimulates hormone exocytosis on one hand and activates the K+ATP channel-independent glucose-responsive effector or effectors on the other in the B-cell. The nature of the glucose-responsive effector or effectors remains to be established.
Diabetes 1992 Apr
PMID:Dual functional role of membrane depolarization/Ca2+ influx in rat pancreatic B-cell. 131 55

The specific activity of Na(+)-K(+)-ATPase in the renal medulla and cortex of 50-day-old streptozotocin (STZ)-induced diabetic mice was increased 58% and 50%, respectively, as compared to controls. Km values of Na+ and K+ for this enzyme were unaltered, while that of ATP was decreased in diabetic mice. The Na(+)-K(+)-ATPase in control medulla and cortex was activated by both cholera and pertussis toxins, while this effect was abolished in diabetics. Since dibutyryl cAMP stimulates cortical Na(+)-K(+)-ATPase activity in control mice, the activation effect of cholera toxin on this enzyme might be due to its interaction with a Gs-protein and the persistent stimulation of adenylate cyclase activity, while the effect of pertussis toxin might be due to its masking of the inhibitory action of a Gi-protein on adenylate cyclase activity. However, the protein kinase C (PKC)-associated Na(+)-K(+)-ATPase might also be quiescent in diabetes, because the stimulating effect of phorbol 12,13-dibutyrate (PDBu) and phorbol 12-myristate 13-acetate (PMA) on this enzyme was abolished in diabetic cortex. In addition, nicardipine and ouabain were found to have differential effects on this enzyme derived from control and diabetic mice.
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PMID:Differentiation of renal Na(+)-K(+)-ATPase in control and streptozotocin-induced diabetic mice by G-protein acting toxins and phorbol esters. 132 74

The activity of Ca(++)-Mg++ ATP-ase present in erythrocyte membranes was determined in basal conditions and following stimulation with calmodulin in 8 women with insulin-dependent diabetes and in 9 healthy women. The isolation of erythrocyte membranes and the determination of activity of Ca(++)-Mg(++)-ATP-ase were carried out according to the method of Gietzen et al. A decrease in the activity of Ca(++)-Mg(++)-ATP-ase in basal conditions was found in fractions with the highest erythrocyte content obtained from diabetic patients. After stimulation with calmodulin the activity of Ca(++)-Mg(++)-ATP-ase in all the fractions was lower in diabetic patients than in the controls. Low activities of the enzyme were accompanied by high values of HbA1c. The results suggest that glycosylation of the ATP-ase or/and calmodulin may be the main cause of the observed fall in the enzyme activity in diabetes. Also the disturbances concerning the cumulation of intracellular calcium may be related to the changes caused by glycosylation of Ca(++)-Mg(++)-ATP-ase or/and calmodulin.
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PMID:[Activity of Ca(+2)Mg(+2) --ATPase in erythrocyte membranes of women with diabetes mellitus type I]. 134 22

Tocopherol has been shown to have antiplatelet effects in insulin-dependent diabetes mellitus. However, its antiplatelet effect in non-insulin-dependent diabetes mellitus (NIDDM) remains to be established. In this report, the antiplatelet effect of tocopherol was assessed in a randomized, double-blind and crossover study of 15 NIDDM subjects. Each subject received tocopherol (dl-alpha-tocopherol nicotinate, 200 mg, tid) and a placebo for two six-week treatment periods separated by a three-week period in between for wash-out. The mechanisms of the antiplatelet effect of tocopherol were also studied in vitro. A significant decrease in platelet reactivity was observed after tocopherol treatment as compared with the pretest, and the magnitude of the decrease during tocopherol treatment was significantly evident when compared with that of the placebo treatment, as assessed by collagen (5, 10 micrograms/mL)-induced platelet aggregation of whole blood. A dose-dependent reduction in both ADP-and collagen-induced platelet aggregation was observed with tocopherol from 0.1 to 3.0 mM in vitro. No corresponding changes in ATP secretion and thromboxane synthesis were observed. Tocopherol also significantly inhibited fibrinogen-induced aggregation of elastase-treated platelets at a concentration of 0.1 mM. We demonstrated that platelet aggregation of whole blood ex vivo, among 15 NIDDM subjects was suppressed in tocopherol treatment, so tocopherol may have an antiplatelet effect in NIDDM subjects. The inhibitory effect of the platelet aggregation of tocopherol may be partially accomplished through interference with fibrinogen binding towards its receptor.
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PMID:Effect of tocopherol on platelet aggregation in non-insulin-dependent diabetes mellitus: ex vivo and in vitro studies. 135 87

Adrenal growth occurs in experimental diabetes, and evidence exists for increased adrenal function. The concentration of PPRibP has been examined in the rat adrenal gland at various times after induction of diabetes with STZ, in view of the key role it plays in the synthesis of Purs and Pyrs. The PPRibP level was exceptionally high in the adrenal gland and increased faster than the rate of growth during the initial rapid growth phase--the first 7 days after STZ was given; PPRibP synthetase showed a parallel increase. Formation of R5P via the oxidative and nonoxidative segments of the PPP also was measured. The oxidative enzymes, G-6-PD and 6-PGD, increased in parallel with growth during the early phase, but showed a more marked rise during the secondary, slower, growth phase seen 6 wk after STZ was given, when this may be associated with the known sustained rise in plasma corticosteroids. The nonoxidative enzymes of the PPP, an alternate route for the production of R5P, showed smaller changes. The specifically high adrenal concentration of PPRibP may be related to the high Km for PPRibP (250 microM) of the first enzyme of the de novo pathway of Pur synthesis, as such synthesis may be required in the rat to replace the net loss of ATP associated with catecholamine secretion. Factors controlling PPRibP synthetase and their potential relative importance in the adrenal gland have been considered.
Diabetes 1992 Nov
PMID:Phosphoribosyl pyrophosphate formation in the rat adrenal gland in relation to adrenal growth in experimental diabetes. 138 69

Herein, we review the applicability to human beta-cells of an electrophysiologically based hypothesis of the coupling of glucose metabolism to insulin secretion. According to this hypothesis, glucose metabolism leads to the generation of intracellular intermediates (including ATP), which leads to closure of ATP-sensitive K+ channels. Channel closure results in membrane depolarization, the onset of electrical activity, and voltage-dependent Ca2+ entry. The resultant rise in cytosolic Ca2+ leads to Ca(2+)-dependent exocytosis of insulin granules. We found that most of the published experimental evidence for human beta-cells supports this hypothesis. In addition, we present three other emerging lines of evidence in support of this hypothesis for human islet beta-cells: 1) the effects of pHi-altering maneuvers on insulin secretion and electrical activity; 2) preliminary identification of LVA and HVA single Ca2+ channel currents; and 3) validation of the feasibility of Cm measurements to track insulin granule exocytosis. On the basis of this last new line of evidence, we suggest that combinations of Cm measurements and electrical activity/membrane current measurements may help define the roles of diverse electrical activity patterns, displayed by human beta-cells, in stimulus-induced insulin secretion.
Diabetes 1992 Oct
PMID:Electrophysiology of stimulus-secretion coupling in human beta-cells. 139 96

Xerostomia, the subjective feeling of dry mouth, affects millions of people particularly the elderly. It is invariably associated with hypofunction of the salivary glands. The amount, rate of secretion, and composition of saliva are regulated by both sympathetic and parasympathetic receptor systems whose stimulation transmits signals through intracellular messengers (cations, nucleotides, phospholipid derivatives) to structures and enzymes within the cell. Salivary glands express a variety of cell-surface receptors including adrenergic (alpha and beta), muscarinic-cholinergic, substance P, vasoactive intestinal peptide hormone, and ATP receptors. Ascorbate which is present in salivary acinar cells in relatively high concentrations, is closely involved in many cellular functions including the metabolism of pyrimidines, intracellular calcium, the catecholamines and other neurotransmitters which regulate salivary gland exocytosis. Ascorbate-dependent carboxyl-terminal peptide alpha-amidation enzyme similar to the pituitary peptidyl-glycine alpha-amidating monooxygase, is also present in salivary glands. It is therefore not fortuitous that the seemingly unrelated numerous factors like aging, drug ingestion, pregnancy, smoking, ionizing radiation, stress, and various pathological states such as cancer, autoimmune disorders, diabetes mellitus, and hypertension often implicated in the causation of xerostomia, all promote increased tissue requirement for and/or depletion of ascorbate.
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PMID:Ascorbate status and xerostomia. 143 93

Erythrocytes from young type I diabetic patients (n = 11), incubated in their plasma in anaerobic conditions, exhibited higher glucose consumption than cells from controls (n = 11). This increased metabolic activity is believed to reflect erythrocyte alterations dependent on the degree of metabolic control, as glucose consumption was significantly correlated to glycosylated haemoglobin (HbA1) and to glucose levels (P < 0.05 and P < 0.01 respectively). Red cell hexokinase (HK) and pyruvate kinase (PK) activities were similar in both groups whereas phosphofructokinase (PFK) activity was slightly higher in patients' cells (P < 0.05). No difference was found between patients and controls for red cell ATP and 2.3 diphosphoglycerate (2.3 DPG) levels. However, the concentrations of these glycolytic products seem also closely related to the glucose homeostasis in diabetes. Indeed, within the diabetic group, ATP levels showed a negative relationship with glucose level (P < 0.05) and 2.3 DPG a positive relationship with HbA1 (P < 0.05). In conclusion, higher glycolytic activity is present in young diabetic red cells. This activity as well as ATP and 2.3 DPG levels are related to the degree of short- or long-term diabetic control. These findings stress the importance of a careful metabolic control to avoid haematological disturbances.
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PMID:Erythrocyte metabolic alterations in type I diabetes: relationship to metabolic control. 144 91

Crosstalk between intracellular signalling systems is recognized as the principal means by which a cell orchestrates coordinate responses to stimulation by neurotransmitters, hormones or growth factors. The functional consequences of crosstalk are evident at multiple levels within a given signalling cascade, including the regulation of receptor-ligand interactions, guanine nucleotide-binding proteins, enzyme activities, ion channel function and gene expression. Here we focus on the pancreatic beta-cells of the islets of Langerhans to illustrate the important role crosstalk plays in the regulation of glucose-induced insulin secretion. Recent studies indicating a synergistic interaction in beta-cells between the glucose-regulated ATP-dependent signalling system and the hormonally regulated cAMP-dependent signalling system are emphasized. This interaction gives beta-cells the ability to match the ambient concentration of glucose to an appropriate insulin secretory response, a process we refer to as the induction of glucose competence. The glucose competence concept may provide new insights into the etiology and treatment of non-insulin-dependent diabetes mellitus (Type II diabetes).
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PMID:Signal transduction crosstalk in the endocrine system: pancreatic beta-cells and the glucose competence concept. 145 7

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