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)

The aim of this investigation was to assess the influence of peanut (Arachis hypogaea) consumption on oxidant-antioxidant status and lipid profile in Streptozotocin (STZ) induced diabetic rats. 32 rats were divided into 4 groups as control, control+peanut, diabetic, diabetic+peanut. Control and diabetic groups were fed on standard rat chow whereas control+peanut and diabetic+peanut were fed on standard rat chow supplemented with 0.63 g % peanut for 12 weeks. Serum glucose levels, lipids, Glutathione (GSH), lipid peroxidation (LPO) and atherogenic index (AI) levels were determined at the end of the experiment. In the diabetic group TG (Triglyceride), TC (Total cholesterol), LDL-C (LDL-cholesterol) levels and atherogenic indexes increased significantly whereas HDL-C (HDL-cholesterol) level decreased significantly compared to the control group. The supplementation with peanut in the diabetic group led to significantly higher HDL-C levels and lower AI levels compared to diabetic group. Peanut consumption increased GSH levels significantly both in control and diabetic groups. In conclusion, this study shows that peanut consumption may improve oxidant-antioxidant status in healthy and diabetic status without increasing blood lipids. Moreover, increased HDL-C levels and decreased AI levels in diabetic rats indicate that, peanut consumption may have protective effects against cardiovascular complications of diabetes.
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PMID:Peanut (Arachis hypogaea) consumption improves glutathione and HDL-cholesterol levels in experimental diabetes. 1772 28

Glutathione is a small tripeptide to maintain overall reducing environment in vivo. Reduced endogenous glutathione level has been associated with aging, obesity and diabetes. In this study, the direct impact of low endogenous glutathione level on energy homeostasis is investigated at molecular level. Depletion of endogenous glutathione in rat primary hepatocytes by BSO, an inhibitor of gamma-glutamylcysteine synthase, leads to reduced mRNA levels of several key enzymes in energy homeostasis, including phosphoenolpyruvate carboxylkinase (PEPCK), the rate-limiting enzyme in gluconeogenesis. Supplementation of various reducing reagents, including N-acetylcysteine, DTT and glutathione, reverses the inhibitory effect of BSO on PEPCK mRNA level. The suppressive effect of BSO on PEPCK mRNA level is also reversed through co-treatment with either SB210290, a specific p38 kinase inhibitor, or wortmannin and LY294002, the well-established PI-3 kinase inhibitors, suggesting the involvement of these kinases in this process. These observations correlate well with the observations that reduced endogenous glutathione level and reduced gluconeogenesis coincide with aging process, implying a causal relationship between these changes in aged population. More importantly, this study suggests that endogenous glutathione level tightly associates with energy homeostasis at molecular level, identifying reduced endogenous glutathione level as a potential contributing factor to dysregulated metabolic processes in aging, obese and diabetic populations. In addition, the different responses of PEPCK expression to the alteration of endogenous glutathione level in rat hepatoma cells from primary hepatocytes raises caution against using established cell lines in examining the dysregulated metabolic process related to altered endogenous glutathione level.
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PMID:Suppression of phosphoenolpyruvate carboxykinase gene expression by reduced endogenous glutathione level. 1796 99

Reduced glutathione (L-gamma-glutamyl-L-cysteinyl-glycine, GSH) is the prevalent low-molecular-weight thiol in mammalian cells. It is formed in a two-step enzymatic process including, first, the formation of gamma-glutamylcysteine from glutamate and cysteine, by the activity of the gamma-glutamylcysteine synthetase; and second, the formation of GSH by the activity of GSH synthetase which uses gamma-glutamylcysteine and glycine as substrates. While its synthesis and metabolism occur intracellularly, its catabolism occurs extracellularly by a series of enzymatic and plasma membrane transport steps. Glutathione metabolism and transport participates in many cellular reactions including: antioxidant defense of the cell, drug detoxification and cell signaling (involved in the regulation of gene expression, apoptosis and cell proliferation). Alterations in its concentration have also been demonstrated to be a common feature of many pathological conditions including diabetes, cancer, AIDS, neurodegenerative and liver diseases. Additionally, GSH catabolism has been recently reported to modulate redox-sensitive components of signal transduction cascades. In this manuscript, we review the current state of knowledge on the role of GSH in the pathogenesis of human diseases with the aim to underscore its relevance in translational research for future therapeutic treatment design.
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PMID:The central role of glutathione in the pathophysiology of human diseases. 1815 46

Glutathione S-transferases protect cells against exogenous and endogenous oxidative stress. Type 2 diabetes is associated with an increased production of reactive oxygen species and a reduction in antioxidant defenses. This study investigated whether GSTA1*A/*B and GSTP1Ile105Val polymorphisms could affect the risk for type 2 diabetes. A cross-sectional case-control analysis included 468 (326 men and 142 women) Japanese participants in a health screening program. The prevalence of type 2 diabetes was 11.3% (63 subjects: 52 male and 11 female). The frequency of GSTA1*B allele carriers was higher in diabetes than in non-diabetes, though the difference was not statistically significant (adjusted OR, 1.8; 95% CI, 0.9-3.4). The risk among the GSTA1*B allele carriers was significantly increased by current-smoking status (adjusted OR, 3.7; 95% CI, 1.1-12.7; vs. never-smoking non-carriers), whereas the smoking status was not an independent risk factor. The GSTP1 genotype alone or in combination with the smoking status did not affect the risk for diabetes. This is the first report to show that the GSTA1*B allele is a potential risk factor for smoking-related type 2 diabetes.
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PMID:Glutathione S-transferase A1 polymorphism as a risk factor for smoking-related type 2 diabetes among Japanese. 1843 May 27

Glutathione (GSH) is a ubiquitous intracellular peptide with diverse functions that include detoxification, antioxidant defense, maintenance of thiol status, and modulation of cell proliferation. GSH is synthesized in the cytosol of all mammalian cells in a tightly regulated manner. The major determinants of GSH synthesis are the availability of cysteine, the sulfur amino acid precursor, and the activity of the rate-limiting enzyme, glutamate cysteine ligase (GCL). GCL is composed for a catalytic (GCLC) and modifier (GCLM) subunit and they are regulated at multiple levels and at times differentially. The second enzyme of GSH synthesis, GSH synthase (GS) is also regulated in a coordinated manner as GCL subunits and its up-regulation can further enhance the capacity of the cell to synthesize GSH. Oxidative stress is well known to induce the expression of GSH synthetic enzymes. Key transcription factors identified thus far include Nrf2/Nrf1 via the antioxidant response element (ARE), activator protein-1 (AP-1) and nuclear factor kappa B (NFkappaB). Dysregulation of GSH synthesis is increasingly being recognized as contributing to the pathogenesis of many pathological conditions. These include diabetes mellitus, pulmonary fibrosis, cholestatic liver injury, endotoxemia and drug-resistant tumor cells. Manipulation of the GSH synthetic capacity is an important target in the treatment of many of these disorders.
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PMID:Regulation of glutathione synthesis. 1860 45

Glutathione (GSH) is a tripeptide composed of glutamate, cysteine, and glycine. It is present in practically all cells and has several important roles, such as preventing the oxidation of the sulfhydryl groups of proteins within a cell. Evidence for GSH deficiency or depletion has been found in a variety of diseases and toxicity-related studies, including diabetes and induction of oxidative stress to form reactive oxygen species which cause DNA, lipid, and protein oxidations. A simple, selective, and sensitive analytical method for measuring low levels of GSH in biological fluids would therefore be desirable to conduct GSH deficiency or depletion-related mechanistic toxicity studies. Here a method for both low- and high-level quantitation of GSH from cultured cells and rat liver tissues via liquid chromatography/positive electrospray ionization tandem mass spectrometry (LC/ESI-MS/MS) has been developed. The lower limit of quantitation (LOQ) of the method was 5 ng/mL. The method is linear over a wide dynamic concentration range of 5.0 to 5000.0 ng/mL, with a correlation coefficient R2 > 0.99. The intra-day assay precision relative standard deviation (RSD) values for all quality control (QC) samples were < or =16.31%, with accuracy values ranging from 94.13 to 97.80%. The inter-day assay precision RSD values for all QC samples were < or =15.94%, with accuracy values ranging from 94.51 to 100.29%. With this method, low levels of GSH from diethyl maleate (DEM)-treated mouse lymphoma cells, and GSH in rat liver tissues, were quantified.
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PMID:Quantitation of glutathione by liquid chromatography/positive electrospray ionization tandem mass spectrometry. 1893 28

Blood glutathione concentrations represent a measure of protection against oxidative damage. In earlier studies, we observed that, in adolescents with poorly controlled type 1 diabetes mellitus (T1DM), blood glutathione is significantly depleted because of increased rates of glutathione utilization. To determine whether increased availability of cysteine - one of the three constitutive amino acids of glutathione - would attenuate the alterations in glutathione metabolism, ten 16 +/- 1 yr-old adolescents with poorly controlled T1DM [hemoglobin A1c (HbA1c): 9.9 +/- 1.3%] received 5-h infusions of l-[3,3-(2)H(2)] cysteine and d-[6,6-(2)H(2)]glucose on two occasions, 3 wk apart, after a 10-d oral supplementation with (i) N-acetylcysteine (NAC, 30-45 mg/kg/d) or (ii) L-alanine, in randomized order, and with a 3-wk 'washout' interim period. Blood glucose was maintained in the same hyperglycemic range on both infusion study days, using intravenous insulin. Glutathione fractional synthesis rate (FSR) was determined from (2)H(2)-cysteine incorporation into blood glutathione. NAC supplementation failed to raise erythrocyte cysteine concentrations (23 +/- 6 vs. 17 +/- 1 micromol/L, p = 0.853) and did not alter erythrocyte glutathione concentrations (838 +/- 106 vs. 793 +/- 111 micromol/L, p = 0.220) or glutathione FSR (96 +/- 20 vs. 89 +/- 19%/d, p = 0.974). We conclude that in adolescents with poorly controlled T1DM, dietary cysteine supplementation alone cannot correct glutathione status. In the presence of relative insulinopenia, either higher amino acid doses or aggressive insulin therapy may be needed to achieve this goal. This would require further study.
Pediatr Diabetes 2008 Dec
PMID:Poorly controlled type 1 diabetes is associated with altered glutathione homeostasis in adolescents: apparent resistance to N-acetylcysteine supplementation. 1906 92

Hepatic ABC efflux transporters control the cellular uptake (in basolateral membranes) and excretion (in apical membranes) of many substrates. Since type-1 diabetes mellitus (T1DM) is associated with altered hepatobiliary excretion of many endogenous and exogenous substances, we examined key hepatic ABC transporters and levels of the endogenous substrate glutathione in rats with acute streptozotocin-induced T1DM. Renal transporters and inflammatory markers were also examined. Abcb1, Abcc1-4, and Abcg2 were measured using qRT-PCR. Glutathione was measured in liver tissue, plasma, and urine. Inflammatory markers, including C-reactive protein (CRP), were measured in plasma via ELISA. In diabetic rats, Abcb1a, Abcc2, and Abcg2 (apical) were decreased, while Abcc4 (basolateral) was increased. Abcb1a and Abcc2 inversely correlated with plasma CRP. Diabetic and control rats exhibited similar hepatic glutathione, but levels in diabetic plasma were lower. When standardized to urinary output, diabetic rats excreted 6.7-fold more glutathione in urine than controls. Renal transporter levels were normal in diabetic rats. Results show apical transporters involved in hepatobiliary excretion are downregulated in T1DM, possibly through an inflammation-mediated process. Findings suggest that there may be a vectorial shift from hepatic to renal excretion for some substrates in T1DM.
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PMID:Impact of acute streptozotocin-induced diabetes on ABC transporter expression in rats. 1993 32

The aqueous and ethanolic extracts of Achyranthes rubrofuca leaves (AR) were studied for their hypoglycemic activity. Thirty animals were taken and they were divided into five groups. First group acts as control, remaining 4 groups were induced diabetics by administering alloxan (120 mg/kg i.p). Second group serves as diabetes control, third group treated with Glibenclamide (5 mg/kg), fourth and fifth group were given aqueous and ethanolic extracts of leaves (200 mg/kg/body weight/day/po for 28 days) to rats. The anti hyperglycemic activity by AR was compared with the group treated with the standard oral hypoglycemic agent. Treatment with aqueous and ethanolic extract of AR caused a significant change when compared to the untreated animals with respect to body weight, blood glucose level, and lipid profile. Aqueous extract showed slightly better activity than ethanolic extract but it may not be statistically significant. There is significant increases in the pancreatic enzyme like SOD, CAT and Glutathione expression when compare with the untreated group. Decreases in LPO level is observed in the group treated with extracts when compare with control groups animals. The histopathological studies also show the regenerative effect of pancreas, supported the above activities of AR leaves.
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PMID:Anti diabetic effect of Achyranthes rubrofusca leaf extracts on alloxan induced diabetic rats. 2145 69

Glutathione (GSH) conjugating enzymes, glutathione S-transferases (GSTs), are present in different subcellular compartments including cytosol, mitochondria, endoplasmic reticulum, nucleus and plasma membrane. The regulation and function of GSTs have implications in cell growth, oxidative stress as well as disease progression and prevention. Of the several mitochondria localized forms, GSTK (GST kappa) is mitochondria-specific since it contains N-terminal canonical and cleavable mitochondria targeting signals. Other forms like GST alpha, mu and pi purified from mitochondria are similar to the cytosolic molecular forms or 'echoproteins'. Altered GST expression has been implicated in hepatic, cardiac and neurological diseases. Mitochondria-specific GSTK has also been implicated in obesity, diabetes and related metabolic disorders. Studies have shown that silencing the GSTA4 (GST alpha) gene resulted in mitochondrial dysfunction, as was also seen in GSTA4 null mice, which could contribute to insulin resistance in type 2 diabetes. This review highlights the significance of the mitochondrial GST pool, particularly the mechanism and significance of dual targeting of GSTA4-4 under in vitro and in vivo conditions. GSTA4-4 is targeted in the mitochondria by activation of the internal cryptic signal present at the C-terminus of the protein by protein-kinase-dependent phosphorylation and cytosolic heat shock protein (Hsp70) chaperone. Mitochondrial GST pi, on the other hand, has been shown to have two uncleaved cryptic signals rich in positively charged amino acids at the N-terminal region. Both physiological and pathophysiological implications of GST translocation to mitochondria are discussed in the review.
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PMID:Dual localization of glutathione S-transferase in the cytosol and mitochondria: implications in oxidative stress, toxicity and disease. 2192 24

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