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)

Urinary excretion of glycosaminoglycans (GAGS) and sialic acid (SA), as well as the activity of two renal enzymes related to glycoprotein metabolism, N-acetyl-beta-D-glucosaminidase (NAG) and beta-galactosidase (GAL), and two others unrelated to glycosaminoglycans and glycoprotein metabolism, gamma-glutamyltranspeptidase (gamma-Gt) and angiotensin-I-converting enzyme (ACE), were evaluated in 40 insulin-dependent diabetic patients with normal range albuminuria, 21 patients with mesangial glomerulonephritis, and 30 control subjects. Diabetic and glomerulonephritic patients excreted a significantly higher amount of GAGS and SA, and showed greater NAG and GAL activities; gamma-Gt and ACE levels were within normal ranges. No correlation could be demonstrated between diabetes duration and GAGS, SA, NAG and GAL findings. Moreover, no correspondence between degree of metabolic control, as reflected by glycosylated hemoglobin (HbA1a-c) and GAGS, SA, NAG and GAL emerged.
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PMID:Urinary glycosaminoglycans, sialic acid and lysosomal enzymes increase in nonalbuminuric diabetic patients. 287 16

Alterations in the cardiac tissue and serum acid hydrolase activities were studied in chronic streptozotocin-induced diabetes in rats. No changes were observed in total cardiac tissue homogenate lysosomal enzyme activities at 4 weeks of diabetes but there were significant alterations in the distribution of selected enzymes. Significant decreases in nonsedimentable beta-N-acetylglucosaminidase (NAG) and beta-galactosidase (Gal) activities were observed at 4 weeks of diabetes. At 8 weeks of the disease, decreased activities of NAG and Gal were observed in heart homogenates but no changes were apparent in alpha-mannosidase (Man) or acid phosphatase activities. Nonsedimentable activities of NAG and both sedimentable and nonsedimentable activities of Gal were decreased at 8 weeks. At 16 weeks of the diabetic condition, increased activities of NAG, Gal and acid phosphatase were observed. This increase at 16 weeks of the disease was due to an increase in sedimentable enzyme activity. At all times of diabetes, serum enzyme activities were significantly increased. Insulin treatment reversed all of the observed changes in tissue homogenates, but serum levels were not completely reversed. These results suggest that cardiac lysosomal hydrolases are probably only involved in the later stages of the diabetic cardiomyopathy when extensive ultrastructural derangements are evident. The present evidence also suggests that the heart may be a source of serum hydrolase activities.
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PMID:Alterations in heart and serum lysosomal activities in streptozotocin-induced diabetes. 295 2

The effect of streptozotocin (SZ) on the development of small intestinal enzymes in postnatal rat pups was studied. SZ was injected ip on Day 10 and, if necessary, again on Day 12. On Days 15, 18, and 21, one pup from each group (including a vehicle-injected control (C) group) was decapitated under conditions which minimized stress. Plasma glucose, insulin (IRI), and corticosterone were measured, as were pancreatic IRI, liver glycogen, and liver membrane binding of IRI. Small intestinal segments were processed and analyzed for sucrase, lactase, maltase, and ileal acid beta-galactosidase activities. Our results indicate that plasma glucocorticoid levels remained virtually constant in both SZ and C groups, while the ontogenic profiles of sucrase and maltase in SZ rats were shifted toward an earlier appearance and a precocious maturation. Circulating levels of IRI were not reduced significantly by SZ despite the fact that pancreatic IRI was decreased 95%. Jejunal lactase, unlike data reported for diabetic rats, was not affected by SZ diabetes. Also, acid beta-galactosidase was unaltered in the SZ rat pups. It is concluded that possibly the elevated disaccharidases seen in diabetic postnatal rat pups are the direct effect of elevated blood glucose. If so, the SZ rat pup model may be a useful tool with which to study effects of glucose on intestinal enzymes in the absence of changes in plasma insulin.
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PMID:Effects of diabetes on development of small intestinal enzymes of infant rats. 312 20

The lysosomal enzymes cathepsin D (E.C. 3.4.23.5), alpha-glucosidase (E.C. 3.2.1.20) and beta-galactosidase (E.C. 3.2.1.23), potentially involved in the breakdown of the peptide component and the disaccharide units of basement membrane glycoproteins, were studied in the kidney cortex and liver of streptozotocin-diabetic mice. In the liver of diabetic mice, as compared to controls, an increase was found for the total activity (measured in frozen-thawed homogenates) of cathepsin D (+135%, P less than 0.01) and beta-galactosidase (+32%, P less than 0.05). In the kidney a decrease was observed for both the free activity (measured in 12,000 g supernatant) and the total activity of these two enzymes (cathepsin D: -62% and -24%; beta-galactosidase: -29% and -23%; P less than 0.05 in all instances). Alpha-glucosidase did not show significant changes in either tissues. Total protein content of the two organs did not change significantly with diabetes and therefore cannot account for the enzyme alterations observed. These data indicate that the response of kidney to diabetes is opposite to that of liver (decrease versus increase in catabolic enzymes), and suggest decreased degradation of basement membrane in some tissues in diabetes, which may contribute to the thickening of basement membrane and therefore to the development of microangiopathy.
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PMID:Cathepsin D and other hydrolases in the kidney of streptozotocin-diabetic mice. Possible relevance to microangiopathy. 393 Mar 80

The catalytic activities of N-acetyl-beta-D-glucosaminidase, beta-galactosidase and alpha-glucosidase in kidney and urine of diabetic rats were investigated in relation to the duration of diabetes, to the degree of constant hyperglycaemia and to the therapeutic control in the early stage of disease. The results suggest that the degree of constant hyperglycaemia and the duration of untreated diabetes are significant determining factors for the course of morphological changes. These changes are manifested as a decrease of the glycosidases in kidney (0.5 to 0.6 time the age-matched controls) and as moderate to severe enzymurias. Daily variation of blood glucose with inadequate insulin Lente therapy caused decreased N-acetyl-beta-D-glucosaminidase and beta-galactosidase activities in kidney as well as enzymuria. Since such changes can be correlated with histologically visible changes in the kidney, the measurement of these enzymes in urine is a simple way of monitoring the development of kidney damage in poorly controlled diabetes. When constant normoglycaemia was maintained for three weeks with insulin Ultralente in diabetic rats with a confirmed decrease of kidney glycosidases, the persisting morphological alteration of the organ was reflected by a urinary output of N-acetyl-beta-D-glucosaminidase.
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PMID:Effect of the degree of hyperglycaemia on the catalytic activities of glycosidases in kidney and urine of diabetic rats. 636 9

The alpha-glucosidase specific for the hydroxylysine-linked disaccharide units of collagens (or 2-0-alpha-D-glucopyranosyl-5-0-beta-D-galactopyranosylhydroxy-L-lysine glucohydrolase) has been measured in kidney cortex and brain cortical tissue of streptozotocin diabetic rats after 19, 23 or 28 weeks of diabetes and of aged rats 22 months old. Increased specific activities of the enzyme have been found repeatedly in the dialyzed homogenates and the 7.2 X 10(6) g.min supernatants of kidney and brain at the various stages of diabetes when compared with age-matched controls; the specific activities returned to a normal level after insulin treatment. Similar increased specific activities were observed in kidney and brain of the aged normoglycemic rats when compared with young adult rats. In diabetic kidney cortex, beta-galactosidase and p-nitrophenyl-alpha-D-glucoside glucosidase specific activities were decreased in contrast to the increase of glucosyl-galactosyl-hydroxy-lysine glucohydrolase. In kidney cortex of the aged rats, beta-galactosidase activity was also decreased, but p-nitrophenyl-alpha-D-glucoside glucosidase was increased. In both diabetic and aged rats, thickening of the kidney glomerular basement membranes was confirmed; thickening of the brain cortical capillary basement membranes was also observed. Thus in the diabetic and aged animals, the increased glucosyl-galactosyl-hydroxylysine glucohydrolase specific activity was associated with basement membrane thickening in the kidney and the brain.
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PMID:Studies on the alpha-glucosidase specific for collagen disaccharide units: variations associated with capillary basement membrane thickening in kidney and brain of diabetic and aged rats. 716 52

We assayed plasma activities of beta-galactosidase, beta-hexosaminidase, alpha-fucosidase and alpha-galactosidase involved in degradation of the glycoprotein molecule in 110 insulin-dependent diabetics aged 3-1/2 to 19 years and compared them to a group of normal youngsters. We correlated the plasma enzyme activities with the duration, control and sequelae of insulin-dependent diabetes. Insulin-dependent diabetics had a significantly higher plasma activity of beta-hexosaminidase and alpha-mannosidase (p less than 0.01) and a significantly lower plasma activity of alpha-fucosidase and alpha-galactosidase (p less than 0.01). Of the 5 enzymes studied, only plasma beta-hexosaminidase correlated with fasting and postprandial blood sugar (p less than 0.01), cholesterol and triglycerides (p less than 0.05). Additionally, poor control of diabetes was also associated with a significantly higher plasma beta-hexosaminidase activity (p less than 0.01). Proteinuria or an abnormal Addis count suggestive of renal involvement was associated with various changes in plasma acidic hydrolases. These changes may be related to insulin deficiency rather than hyperglycemia and may be genetically determined.
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PMID:Plasma acidic glycohydrolases in insulin-dependent diabetes mellitus. 730 74

Genetic manipulation of pancreatic islets before transplantation has the potential to alter cellular immunity as well as islet function. The purpose of this study was to examine the feasibility of gene transfer to islets, using replication-defective adenoviral vectors. Newborn mouse islets were infected with AdHCMVsp1LacZ vector encoding Escherichia coli beta-galactosidase (beta-gal). Islets were cocultured with vector, at virus-to-target cell ratios of 10:1, for 1 hr. Gene transfer was assessed by specific histochemical stain for beta-gal (X-gal). Islet DNA and RNA were analyzed by Southern and PCR for beta-gal and adeno sequences, and recombinant protein production by western and ONPG assays. Islet integrity after gene transfer was assessed by static incubations and transplantation to nondiabetic and to diabetic mice. Southern analysis and PCR confirmed the presence of E coli beta-galactosidase and the E4 adeno DNA in infected islets, but not in controls. Reverse-transcription PCR and western analysis demonstrated expression and protein production of inserted E coli beta-galactosidase, but not E4 message. Insulin release in response to static incubations was unimpaired in infected islets. Syngeneic islet grafts stained positively for insulin for up to 7 days. Transplanted, genetically manipulated islets functioned similarly to control islets in reversing murine drug-induced diabetes. Thus, gene transfer into islets can be accomplished using adenovirus-based vectors. The capacity of this virus to infect non-dividing cells allows insertion of cDNA into pancreatic islets, with potential application to the transplant setting.
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PMID:Efficient gene transfer to pancreatic islets mediated by adenoviral vectors. 783 50

The processes of lipid peroxidation and activities of lysosomal enzymes were studied in 56 patients with type I and II diabetes mellitus. The rate of lipid peroxidation of red cell membranes was assessed from the activities of enzymatic (NADPH-dependent) and nonenzymatic (ascorbate-dependent) lipid peroxidation, from accumulation of acylhydroperoxides, intermolecular joints, and from spontaneous red cell hemolysis. Activities of lysosomal enzymes (cathepsins, acid DNAse, and beta-galactosidase) were measured in leukoconcentrate. The activity of enzymatic system of lipid peroxidation and acylhydroperoxide content in red cell membranes were found increased. In parallel with this, a deficiency in leukocytic lysosomes of beta-galactosidase and DNAse was revealed. The detected metabolic disturbances may be regarded as one of the pathogenetic mechanisms of development of diabetic angiopathies. A relationship was revealed between changes in lipid peroxidation parameters and activities of lysosomal enzymes, on the one hand, and diabetes mellitus type and duration, on the other.
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PMID:[Lipid peroxidation parameters and activities of lysosomal enzymes in patients with diabetes mellitus]. 789 51

The authors established a means of effective gene transfer into human thyroid follicular cells via retroviral-mediated mechanisms. Using specific harvest and culture techniques, we investigated the selection of human thyroid cells in serum-free media. Normal adult human thyroid tissue was obtained after thyroidectomy from fresh specimens sent for frozen-section analysis. Follicular cells were harvested and grown in hormonally defined, serum-free media to prevent fibroblast growth with selection for differentiated function assessed by immunohistochemical staining for thyroglobulin. The efficiency of gene transfer into human thyroid cells was compared between the zen-beta-gal and LNL6 retroviral vectors. The zen-beta-gal retrovirus encodes the product beta-galactosidase, and gene expression was demonstrated by histochemical staining in 0.1% to 1% of the cells. An improved efficiency of 2% to 3% transduction was demonstrated using the LNL6 vector which carries the gene for neomycin resistance (NEO-R). Polymerase chain reaction (PCR) identification of the integrated proviral sequence (NEO-R gene) with Southern blot confirmation was used to quantitate LNL6 transductions and compare confluent versus actively dividing cell cultures. Follicular cell gene therapy has significant potential for treating congenital or acquired diseases of the thyroid as well as disorders of circulating proteins such as diabetes, hypopituitarism, and hemophilia. The ability to culture human follicular cells and perform effective gene transfer is paramount in the eventual realization of thyroid gene therapy.
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PMID:Gene transfer into human thyroid follicular cells. 796 61

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