Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

Diabetes mellitus can lead to functional and structural deficits in both the peripheral and central nervous system. The pathogenesis of these deficits is multifactorial, probably involving, among others, microvascular dysfunction and oxidative stress. The present study examined the effects of 12 weeks of treatment with a conjugate of the essential fatty acid gamma-linolenic acid and the anti-oxidant alpha-lipoic acid (GLA-LA) on functional deficits in the peripheral and central nervous system in streptozotocin-diabetic rats. Treatment was initiated 16 weeks after diabetes induction. Sciatic nerve motor and sensory conduction velocity, brainstem auditory evoked potentials and visual evoked potentials were measured in control, untreated and GLA-LA treated diabetic rats. Also, long-term potentiation, a form of synaptic plasticity used as a model for learning and memory at the cellular level, was examined in hippocampal slices. GLA-LA treatment (50 mg/kg/day) did not reverse established deficits in nerve conduction velocity or in evoked potential latencies in diabetic rats. However, GLA-LA treatment did improve long-term potentiation in the hippocampus. It is concluded that GLA-LA, which is known to improve early deficits in peripheral nerve conduction in diabetic rats, is unable to reverse late deficits. However, the compound does reverse established deficits in long-term potentiation, suggesting that at least part of its activity is specifically directed at synaptic plasticity.
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PMID:The effect of gamma-linolenic acid-alpha-lipoic acid on functional deficits in the peripheral and central nervous system of streptozotocin-diabetic rats. 1113 14

Data suggesting the involvement of increased oxidative stress in the pathophysiology of diabetes has raised interest in the potential therapeutic benefit of antioxidants. Although beneficial metabolic effects of antioxidant supplementation have been suggested, an antioxidant mode of action, particularly in skeletal muscle, has not been documented. In the present study, we evaluate the metabolic effects of a gamma-linolenic acid-alpha-lipoic acid conjugate (GLA-LA) in streptozotocin-induced diabetic rats, and assess its potential mode of action by comparing its effects with equimolar administration of LA and GLA alone. Ten days of oral supplementation of 20 mg/kg body weight GLA-LA, but not LA or GLA alone, caused a mild reduction in fasting blood glucose concentration as compared with vehicle-treated diabetic rats (375 +/- 11 vs. 416 +/- 16 mg/dl, p = 0.03), with no change in fasting plasma insulin levels. A peripheral insulin-sensitizing effect could be observed with GLA-LA, LA, and GLA treatments, as demonstrated by a significant (p < 0.04) 23%, 13%, and 10% reduction, respectively, in the area under the glucose curve following an intravenous insulin tolerance test. This effect was associated with a 67% and 50% increase in GLUT4 protein content in the membranes of gastrocnemius muscle of GLA-LA and LA-treated animals, respectively; however, no change was observed with GLA treatment alone. Interestingly, both GLA-LA and LA treatments corrected a diabetes-related decrease in the gastrocnemius muscle low-molecular-weight reduced thiols content. These data demonstrate insulin-sensitizing properties of the GLA-LA conjugate by distinct mechanisms attributable to each of its components, which are associated with antioxidant effects.
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PMID:Metabolic effects of gamma-linolenic acid-alpha-lipoic acid conjugate in streptozotocin diabetic rats. 1123 49

Experimental diabetes in rats is associated with excessive electrolyte loss in the urine, which is further accentuated by pregnancy, particularly of Ca. Supplementation with essential fatty acids and antioxidants has proven beneficial in treating several types of complications, including nephropathy. The present study investigated the effect of gamma-linoleic acid (GLA; 500 mg/kg per day; group DG) and ascorbate (290 mg/kg per day; group DA), alone and in combination (group DGA), as well as ascorbyl-GLA (790 mg/kg per day; group DASG), on urinary electrolyte output and skeletal composition in pregnant streptozotocin-diabetic rats. Urine was collected in metabolism cages before and throughout pregnancy. Diabetic rats (DP) increased their urine volume as compared with control (CP) throughout the experiment, reaching an output of more than 13 times that of the control group by the end of pregnancy (CP 24+/-4, DP 316+/-21, DG 223+/-21, DA 221+/-14, DASG 163+/-17, DGA 220+/-19 ml urine/24 h). Concomitant with increased urine volume was a reduction of urinary Na (CP 47+/-14, DP 22+/-5 mmol/l), K (CP 210+/-34, DP 31+/-1 mmol/l) and Mg (CP 14+/-1, DP 3.8+/-0.2 mmol/l) concentration, but not of Ca concentration (CP 5.4+/-1.5, DP 6.3+/-0.6 mmol/l), and hence total Ca loss was relatively most severe. All the treatments reduced urine volume with no effects on electrolyte concentration as compared with DP, with no significant difference between the treatments. A reduced bone size and bone Ca content was partially ameliorated by the diet supplementation. We have concluded that GLA and ascorbate, alone or in combination, prevent urinary electrolyte loss in pregnant rats and do so by reducing urine production.
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PMID:gamma-Linoleic acid and ascorbic acid ameliorate the effects of experimental diabetes on electrolyte and bone homeostasis in pregnant rats. 1201 Jun 35

Galactose-fed dogs develop retinal capillary changes similar to diabetic retinopathy with pericyte degeneration as the initial lesion. This is followed by the formation of microaneurysms, hemorrhages, and some areas of acellularity. To investigate the mechanisms for selective pericyte degeneration, retinal capillary pericytes and endothelial cells isolated from beagle dog retina were cultured for 2 weeks in Dulbecco's modified Eagle's medium (DMEM) containing 50 mM D-galactose. Apoptosis was detected in pericytes but not endothelial cells by in situ terminal deoxynucleotidyl transferase (TdT)-mediated biotin-dUTP nick end labelling (TUNEL) staining and the DNA fragmentation assay on agarose gel electrophoresis. This apoptosis was prevented by the addition of the aldose reductase inhibitor AL 1576 to the culture medium containing galactose. Apoptosis was not observed when pericytes were similarly cultured in control DMEM medium. These data support the premise that the selective degeneration of retinal capillary pericytes observed in galactose-fed dogs is linked to increased aldose reductase activity in these cells.
J Diabetes Complications
PMID:Selective pericyte degeneration in the retinal capillaries of galactose-fed dogs results from apoptosis linked to aldose reductase-catalyzed galactitol accumulation. 1220 82

Diabetes activates all three groups of MAP kinases in sensory ganglia. Inhibition of this activation for the ERK and p38 groups prevents nerve damage, and agents that improve neuronal function in diabetic rats-antioxidants and aldose reductase inhibitors-also inhibit activation of ERK and p38 in dorsal root ganglia (DRG). However, these same treatments consistently increase activation of JNK. Thus, in DRG from rats with streptozotocin (STZ)-induced diabetes of 12-week duration, the p54/56 isoforms of JNK were activated by 2.75 compared to controls (P <.05). In DRG from diabetic rats treated with a gamma-linolenic acid and alpha-lipoic acid diester (GLA/LA), the activity of the p54/56 isoform was 3.75 that of controls and the p46 isoform was also increased to 1.75 that of controls (both P <.05 compared to both controls and untreated diabetics). We therefore tested the hypothesis that JNK activation is protective. Exposure of rats to diabetes increased activation of JNK in DRG, but treatment with GLA/LA increased this effect (P <.05). Specific inhibition of JNK in primary cultures of DRG neurons using a peptide inhibitor of JNK (JNKi1, 159-600-R100, 7.5 micro M, Alexis Biochemicals) increased the release of LDH and reduced MTT staining; both findings indicate an increase in neuronal damage. Taken together these findings indicate that multiple isoforms of JNK were activated in sensory neurons of diabetic rats, probably by a combination of raised glucose and oxidative stress, and that this activation of JNK serves to protect the neurons from damage.
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PMID:Activation of JNK in sensory neurons protects against sensory neuron cell death in diabetes and on exposure to glucose/oxidative stress in vitro. 1503 1

Dietary carbohydrate activates the sympathetic nervous system (SNS). As the mechanisms underlying this response are not fully characterized, studies were undertaken to compare SNS responses to ingestion of glucose, fructose, and galactose. SNS activity was examined using techniques of [(3)H]norepinephrine ([(3)H]NE) turnover in brown and white fat. In addition, gene expression for several sympathetically related proteins was also analyzed in these tissues. [(3)H]NE turnover in interscapular brown adipose tissue (IBAT) and retroperitoneal fat increased in response to glucose and fructose in the diet, whereas [(3)H]NE turnover in epididymal fat did not respond to either monosaccharide. Galactose feeding, by contrast, decreased [(3)H]NE turnover in IBAT, but increased it in epididymal, though not retroperitoneal, fat. Expression of GLUT4 was more abundant in IBAT and retroperitoneal fat from glucose- and fructose-fed animals than from diet- or galactose-fed rats. Chemical sympathectomy abolished the GLUT4 response in retroperitoneal fat, but was without effect on GLUT4 in epididymal fat. These studies are consistent with activation of a neural pathway by oral glucose or fructose, leading to SNS activation in IBAT and retroperitoneal fat and enhanced GLUT4 expression.
Diabetes 2004 May
PMID:Effects of dietary monosaccharides on sympathetic nervous system activity in adipose tissues of male rats. 1511 96

Polyunsaturated fatty acids (PUFAs) including gamma-linolenic acid are valuable products because of their involvement in several aspects of human health care. GLA has been claimed to play a crucial role in development and prevention of some skin diseases, diabetes, reproductive disorder and others. At present, market demand for most gamma-linolenic acid is growing continually and current sources are inadequate for satisfying this demand due to the significant problems of low productivity, complex and expensive downstream process and unstable quality. Therefore, seeking for alternative sources are demanding. delta6-fatty acid desaturase is the rate-limiting enzyme for the biosynthesis of PUFAs, which catalyses the conversion of linoleic acid and alpha-linolenic acid to gamma-linolenic acid and stearidonic acid respectively. Unfortunately, the structure information on membrane desaturases is scarce because of the technical limitations in obtaining quantities of purified protein and the intrinsic difficulties in obtaining crystals from membrane proteins. With the isolation of the genes coding for delta6-fatty acid desaturase from various organisms, its characteristics will be elucidated gradually. Here we concisely reviewed the recent progress on studies of molecular biology including the cloning of delta6-fatty acid desaturase gene, structure and function, phylogeny and prospects of gene engineering application.
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PMID:[Progress on molecular biology of delta6-fatty acid desaturases]. 1597 98

Gamma-linolenic acid (GLA, C18:3delta6 ,9,12), an essential polyunsaturated fatty acid, plays an important role in hormone regulation and fatty acid metabolization. Delta6-fatty acid desaturase (D6D) is the rate-limiting enzyme of the desaturation of linoleic acid (C18:2delta9,12) in the production of gamma-linolenic acid. A deficiency of GLA may have occurred when delta6-fatty acid desaturase activity decreases in aging, stress, diabetes, eczema, and some infections. To establish a new expression system for delta6-fatty acid desaturase gene in Pichia pastoris, which is an increasingly popular heterologous gene expression system, a gene encoding delta6-fatty acid desaturase from Mortieralla alpina was isolated by PCR amplification. The PCR product was then digested by EcoR I and Not I and subcloned into the intracellular expression vector pPIC3.5K to generate the recombinant vector pPIC3.5K-MA6. The resulting vector was linearized by Sac I and electroporated into P. pastoris SMD1168 (his- pep-) host cells. After electroporation, aliquots were spreaded on the MDS plates and incubated at 30 degrees C for three days until colonies appeared. Those transformants were subsequently screened for clones with high copy number by using the YPD plates containing G418. To identify the D6D constructs that were produced, chromosomal DNA of the transformants were prepared and used as template for PCR with the primer 5' AOX and 3' AOX. The PCR product of Mut+ recombinants was shown as a band of 1.38 kb of D6D gene and the product of 2.2 kb of AOX1 gene, while the product of Mut(s) transformants only was shown as a band of 1.38 kb of the D6D gene.To further confirm the transformants containing a functional D6D gene, the positive clones were selected and induced by methanol for expression. Those induced cultures were taken for analyses of the intracellular fatty acid composition by GC. The resultant chromatograms of fatty acid methyl esters showed that a novel peak was detected, which was not apparent in the case of control. Comparisons of the retention times of the newly yielded peaks with those of authentic standards have anticipated that the fatty acid is GLA. And this prospects was positively supported by definitive assignments of the compounds by GCMS analyses. Thus, the active delta6-fatty acid desaturase was expressed intracellularly in P. pastoris and gamma-linolenic acid reached 16.26% of the total fatty acid in recombinant P. pastoris strains. It was the first report about the expression of Mortieralla alpina D6D gene in P. pastoris.
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PMID:[Expression of delta6-fatty acid desaturase gene from Mortierella alpina in Pichia pastoris]. 1610 86

Peroxisome proliferator-activated receptor gamma (PPARgamma), a member of the nuclear receptor of ligand-activated transcription factors, regulates the expression of key genes involved in lipid and glucose metabolism or adipocyte differentiation. Ligands for this receptor have emerged as potent insulin sensitizers used in the treatment of Type2 diabetes. Ginseng saponins or ginsenosides are reported to provide anti-diabetic activity as well as to modulate glucose metabolism, although the mechanism remains unclear. In this study, we examined the effect of ginsenosides on activation of PPARgamma and adipogenes in 3T3-L1. Using a GAL-4/PPARgamma transactivation assay, 20(S)-protopanaxatriol (PPT), one of the ginsenoside metabolites, was found to increase PPARgamma-transactivation activity dose-dependently with similar activity as troglitazone, a well-known PPARgamma agonist. PPT enhanced adipogenesis by increasing the expression of PPARgamma target genes such as aP2, LPL and PEPCK. Furthermore, PPT significantly increased expression of glucose transporter 4 (GLUT4). These results indicate that PPT can be developed as a PPARgamma agonist for the improvement of insulin resistance associated with diabetes.
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PMID:Ginsenoside 20S-protopanaxatriol (PPT) activates peroxisome proliferator-activated receptor gamma (PPARgamma) in 3T3-L1 adipocytes. 1639 21

Activity of tubular lysosomic (N-acetyl-beta-D-glucosaminidase--NAG, its thermostable isoenzyme NAG B and B-galactosidase--beta-GAL) and mitochondrial (L-canavanine: ornithine amidinetransferase--COAT) enzymes were measured in urine of 30 patients with diabetes complicated by diabetic nephropathy (DN). It was shown that activity of NAG, especially its thermostable isoenzyme NAG B and also beta-GAL in urine of DN patients was higher compare to those in healthy subject. Moreover COAT activity was registered in urine of DN patients while it is not presented in healthy persons. The precise dependence of NAG, NAG B, beta-GAL levels and COAT activity on the functional state of renal parenchyma in particular on tubular nephron nephrocytes was found that allows us to consider the given parameters as markers of diabetic process progressing in kidneys in patients with diabetes.
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PMID:[Urinary enzymes as markers of functional state of kidneys with diabetic lesions]. 1655 3


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