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)

In the tryptophan-niacin conversion, 2-amino-3-carboxymuconate-6-semiardehyde decarboxylase (ACMSD; formerly termed picolinic carboxylase) is an important enzyme regulating the generation of quinolinate. In a series of experiments, we investigated alterations of ACMSD expression in rats by feeding a high protein diet and by inducing diabetes with streptozotocin (STZ). Male Sprague-Dawley rats (5-wk-old) were fed a diet containing 40% casein for 11 d, and hepatic ACMSD activity and mRNA expression were determined at intervals. The enzyme activity had increased at d 2, and it continued to increase through d 11. ACMSD mRNA expression had increased at d 1 and the elevated levels were maintained through d 11. Shifting from the 40% casein diet to a 20% casein diet restored hepatic ACMSD activity and mRNA expression to normal levels within 5 d and 2 d, respectively. In another series of experiments, male Wistar rats were injected with STZ (50 mg/kg) and the time-course (d 0, 1, 2, 4, 8 and 14) of the change in hepatic ACMSD activity and mRNA expression were examined. The activity increased dramatically after d 4, while mRNA expression was significantly elevated at d 2, followed by slight increases through d 14. Insulin administration (2 U/12 h) reduced the elevated ACMSD activity and fully suppressed the elevated ACMSD mRNA expression due to STZ injection. These results indicated that the fluctuation of hepatic ACMSD mRNA expression was followed by that of ACMSD activity.
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PMID:Expression of rat hepatic 2-amino-3-carboxymuconate-6-semialdehyde decarboxylase is affected by a high protein diet and by streptozotocin-induced diabetes. 1204 25

Diabetic ketoacidosis (DKA) is a severe metabolic disturbance of insulin-dependent diabetes mellitus (IDDM) which has a significant effect on amino acid metabolism. Amino acids serve as precursors for various neurotransmitters which are involved in affective disorders, and patients with IDDM are known to have an increased prevalence of affective disorders. We monitored the plasma concentrations of 23 amino acids in six adolescents prior to treatment of DKA and at 6, 24 and 120 hours after initiation of treatment. The well-known increase in the concentrations of the glucogenic amino acids and the decrease in the branched-chain amino acids were observed in response to treatment of DKA. Low levels of tryptophan were found prior to treatment of DKA. Treatment increased the plasma tryptophan levels, but the mean concentration remained low throughout the sampling period. Only the glutamate-derived amino acids (glutamate, proline and glutamine) from the Krebs cycle pool were significantly affected by treatment. Glutamine declined initially, but recovered as the plasma pH normalized. Our results indicate that DKA causes a depletion of plasma tryptophan. This depletion may predispose some patients with IDDM to have affective disorders secondary to a neurotransmitter imbalance.
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PMID:Diabetic ketoacidosis depletes plasma tryptophan. 1210 94

The complications (thromboembolism and jaundice), averse effects (metabolic disorders, hypertension and bleeding) and the risks (cancer and teratologic effects) of oral contraceptives are summarized and compared to those of other methods. Venous thrombosis is more frequent than arterial thrombosis; both are rare but can be severe; risk is decreased with minidose pills. Cholostatic jaundice is likely only in those with history of such jaundice in pregnancy. Decreased oral glucose tolerance similar to diabetes of pregnancy, similarly, is more common with high dose pills. Triglycerides, pre-beta lipoproteins and t otal cholesterol levels are increased to the upper limit of normal, but stabilize after 3 months of pill intake in normal women. Mixed hyperlipidemia in some women can be detected by the cholesterol to triglycerides ratio after 8 and 12 hours of fasting. Other possible side effects are hypertension, elevated thyroid hormone, depression due to abnormal tryptophan metabolism, acne, cholasma, varices, spotting, amenorrhea. The risk of cancer is still unknown, but that of chromosomal defects in unfounded. To avoid these complications, the physician must observe the contraindications of history of thromboembolism, heart disease, jaundice, hypertension and cancer, and follow patients regularly by gynecologic exam, glucose tolerance and blood lipid tests and take blood pressure. In comparison, diaphragms give 15% failure rates, and copper IUDs less than 1%, but about 10% expulsions and 10% removals for bleeding.
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PMID:[Complications of contraception]. 1225 11

The intrinsic fluorescence from the human lens on excitation in the UV region, referred to as blue lens autofluorescence, increases with age or in the presence of diabetes. The present study reveals that the relative contribution of compounds responsible for the blue autofluorescence appears to be a constant with age. Three potential candidates for the blue fluorescence were also studied with respect to fluorescence spectroscopic properties. These were argpyrimidine and pentosidine, both advanced glycation end products, and 3-hydroxykynurenine (3-OH-kynurenine), a photooxidative derivative of tryptophan. It was shown that the spectral properties of argpyrimidine and pentosidine are compatible with the observed blue fluorescence of the human lens, whereas the fluorescence from 3-OH-kynurenine is negligible.
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PMID:Time-resolved and steady-state fluorescence spectroscopic studies of the human lens with comparison to argpyrimidine, pentosidine and 3-OH-kynurenine. 1246 52

In the course of the present research in school children with insulin-dependent diabetes mellitus, we observed that the free fraction of L-tryptophan, the free fraction of L-tryptophan/total L-tryptophan, and the free fraction of L-tryptophan/neutral amino acids ratios, are significantly reduced. The decrease of free fraction of L-tryptophan in plasma with a concomitant decrease of the free fraction of L-tryptophan/neutral amino acids ratio suggest a decrease in the transport of the precursor amino acid to the brain and in the serotonin synthesis rate, similar to that observed in diabetic animals. This finding may be of relevance in the pathophysiology and in the clinical picture, which could be related to an alteration of serotonin metabolism and neurotransmission in the brain and may be possibly related to neuropsychiatric disorders in diabetic school children. Thus we propose that the free fraction of L-tryptophan and the free fraction of L-tryptophan/neutral amino acids ratios may be clinically useful as indicators of brain serotonergic activity in these patients. In our laboratory, we are currently obtaining additional data on the functional role of the brain serotonergic system in humans to further support the relevance of our results.
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PMID:Serotonin-related tryptophan in children with insulin-dependent diabetes. 1265 15

The predisposition of nonobese diabetic (NOD) mice to develop autoimmunity reflects deficiencies in both peripheral and central tolerance. Several defects have been described in these mice, among which aberrant antigen-presenting cell function and peroxynitrite formation. Prediabetes and diabetes in NOD mice have been targeted with different outcomes by a variety of immunotherapies, including interferon (IFN)-gamma. This cytokine may be instrumental in specific forms of tolerance by virtue of its ability to activate immunosuppressive tryptophan catabolism. Here, we provide evidence that IFN-gamma fails to induce tolerizing properties in dendritic cells from highly susceptible female mice early in prediabetes. This effect is associated with impaired tryptophan catabolism, is related to transient blockade of the Stat1 pathway of intracellular signaling by IFN-gamma, and is caused by peroxynitrite production. However, the use of a peroxynitrite inhibitor can rescue tryptophan catabolism and tolerance in those mice. This is the first report of an experimental autoimmune disease in which defective tolerance is causally linked to impaired tryptophan catabolism.
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PMID:A defect in tryptophan catabolism impairs tolerance in nonobese diabetic mice. 1283 83

Elemental chromium (Cr) is an essential micronutrient. It is required for optimal insulin activity and normal carbohydrate and lipid metabolism. Tri-valent chromium (Cr3+) is recommended for the treatment of diabetes and obesity. There is evidence that Cr3+ may have antidepressant properties, possibly by enhancement of monoamine function through its ability to increase amino acid transport to the brain. The aim of the present study was to investigate further the possible effects of Cr3+ treatment on peripheral amino acid availability and brain monoamine function in the rat. We undertook three studies in rats. The first was a time-course study in which animals were administered single doses of 50 mg/kg of Cr3+ picolinate and the second a dose-response study in which animals were given either 20 or 50 mg/kg Cr3+ picolinate versus vehicle alone via the intra-peritoneal route. In the third, animals were fed a diet containing Cr3+ picolinate (100 mg/kg) or a similar control diet for two weeks and were then sacrificed. Blood was sampled and brains were removed for later analysis. Results from the Cr3+ time-course study defined an optimal time for sampling of two hours after dosing. Results from the second study showed dose-related responses to Cr3+ treatment for a number of measured biochemical parameters including serum corticosterone. In the sub-chronic treatment study Cr3+ significantly increased serum free tryptophan (TRP), non-esterified free fatty acids (NEFFAs), corticosterone, together with brain TRP, serotonin (5-hydroxytryptamine, 5-HT), noradrenaline (NA) and pineal melatonin. From other studies in our laboratory we have shown that Cr3+ treatment can modify brain 5-HT function, perhaps by altering the sensitivity of central 5-HT2A receptors. The peripheral effect of Cr3+ picolinate treatments and their consequential central effect on increased serotonergic and noradrenergic function may suggest that Cr3+ could have some antidepressant-like actions. Future studies to confirm this are to be done.
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PMID:Effects of treatment with chromium picolinate on peripheral amino acid availability and brain monoamine function in the rat. 1535 78

Aminoacetone (AA) is a threonine and glycine metabolite overproduced and recently implicated as a contributing source of methylglyoxal (MG) in conditions of ketosis. Oxidation of AA to MG, NH4+, and H2O2 has been reported to be catalyzed by a copper-dependent semicarbazide sensitive amine oxidase (SSAO) as well as by copper- and iron ion-catalyzed reactions with oxygen. We previously demonstrated that AA-generated O2*-. and enoyl radical (AA*) induce dose-dependent Fe(II) release from horse spleen ferritin (HoSF); no reaction occurs under nitrogen. In the present study we further explored the mechanism of iron release and the effect of AA on the ferritin apoprotein. Iron chelators such as EDTA, ATP and citrate, and phosphate accelerated AA-promoted iron release from HoSF, which was faster in horse spleen isoferritins containing larger amounts of phosphate in the core. Incubation of apoferritin with AA (2.5-50 mM, after 6 h) changes the apoprotein electrophoretic behavior, suggesting a structural modification of the apoprotein by AA-generated ROS. Superoxide dismutase (SOD) was able to partially protect apoferritin from structural modification whereas catalase, ethanol, and mannitol were ineffective in protection. Incubation of apoferritin with AA (1-10 mM) produced a dose-dependent decrease in tryptophan fluorescence (13-30%, after 5 h), and a partial depletion of protein thiols (29% after 24 h). The AA promoted damage to apoferritin produced a 40% decrease in apoprotein ferroxidase activity and an 80% decrease in its iron uptake ability. The current findings of changes in ferritin and apoferritin may contribute to intracellular iron-induced oxidative stress during AA formation in ketosis and diabetes mellitus.
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PMID:Aminoacetone induces loss of ferritin ferroxidase and iron uptake activities. 1470 1

Autoimmune diseases including insulin-dependent diabetes mellitus (IDDM) are characterized by the loss of tolerance to self determinants, activation of autoreactive lymphocytes, and subsequent damage to target organs. Recent evidence suggests that the development of autoimmune diabetes in the nonobese diabetic mouse (NOD), an animal model of IDDM, is under the control of dendritic cells. The potent antigen-presenting capacity of dendritic cells can be strongly influenced by the cell maturation state and by the cytokine milieu, and in fact these cells may acquire disparate functional abilities, from immunity to tolerance. We have previously demonstrated that, in the DBA/2 mouse, IFN-gamma potentiates the tolerogenic potential of a subset of splenic dendritic cells via activation of the enzyme indoleamine 2,3-dioxygenase (IDO) and production of tryptophan catabolites capable of inducing apoptosis in T cells. In the present study, we wanted to examine whether dendritic cells from NOD mice could be subjected to regulation by proinflammatory cytokines in the same fashion as in conventional mice. We found that IFN-gamma does not potentiate the tolerogenic effects of dendritic cells from NOD mice at four weeks of age. This finding correlates with a low expression of IDO activity, thus suggesting that poor expression of IDO by dendritic cells may play a role in the development of diabetes.
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PMID:Tryptophan catabolism in nonobese diabetic mice. 1520 15

Enzyme activities along the kynurenine pathway were assayed in the tissues of New Zealand white rabbits made diabetic with alloxan treatment and hypercholesterolemic with a high-cholosterol diet. Activities are expressed as nmoles of product forming per min per mg of protein and per g of fresh tissue. Liver tryptophan 2,3-dioxygenase (TDO) was present only in holoenzyme form. This activity decreased in diabetic-hyperlipidemic and hyperlipidemic rabbits in comparison with healthy animals. Small intestine indole 2,3-dioxygenase was markedly higher than liver TDO in all rabbit groups, but did not show any significant difference in the values among the three groups. Mitochondrial kynurenine 3-monooxygenase activity was higher in liver than in kidney, but were unchanged with respect to controls. Kynureninase showed similar specific activities in the liver and kidney among groups, whereas the activity per g of fresh tissue was significantly lower in the liver of hyperlipidemic and kidney of diabetic-hyperlipidemic rabbits than in healthy animals. Kynurenine-oxoglutarate transaminase and kynureninase showed lower values in kidney, but not in liver, of diabetic-hyperlipidemic rabbits. However, 3-hydroxyanthranilate 3,4-dioxygenase activity was reduced in both liver and kidney of diabetic-hypercholesterolemic and hyperlipidemic rabbits compared with controls. Instead, aminocarboxymuconate-semialdehyde decarboxylase (picolinic carboxylase) activity was significantly higher in diabetic-hyperlipidermic rabbits in comparison with hyperlypidemic and control rabbits. Therefore, in diabetic rabbits, there is an alteration of tryptophan metabolism at the level of 3-hydroxyanthranilic acid --> nicotinic acid step, which has the effect of reducing the biosynthesis of NAD in diabetes.
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PMID:Metabolism of tryptophan along the kynurenine pathway in alloxan diabetic rabbits. 1520 55

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