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

Diabetes stimulates the functional activity of the intestinal brush border membrane with enhancement of both hydrolytic enzyme activity and membrane transport systems. To determine the mechanism of this effect, we studied the effects of streptozotocin diabetes on the metabolism of one membrane protein, sucrase-isomaltase, which increases its activity in diabetes. The protein was purified and an antiserum prepared. Sucrase-isomaltase from control and diabetic rats was immunologically identical as shown by Ouchterlony double-diffusion analysis of papain-solubilized mucosal proteins. The increase in sucrase enzyme activity in diabetic animals (31.0+/-1.4 U SEM 5 days after streptozotocin vs. 13.1+/-1.0 in controls) was the consequence of increased enzyme protein and not an alteration in catalytic efficiency as demonstrated by quantitative immunoprecipitin reactions. To account for increased sucrase-isomaltase protein in diabetes we studied papain-solubilized mucosal proteins labeled by injection of [(14)C]carbonate and [(14)C]leucine and analyzed incorporation into sucrase-isomaltase protein (anti-serum precipitable) and total protein (trichloroacetic acid precipitable). We found that diabetes did not affect the decay of labeled total protein, but prolonged the decay of labeled sucrase-isomaltase. t((1/2)) of sucrase-isomaltase was 4.4 h in control animals after [(14)C]carbonate injection and 8.8 and 10.2 h, respectively, 2 and 5 days after induction of streptozotocin diabetes. We obtained similar results in experiments with [(14)C]leucine with diabetes increasing t((1/2)) from 6 to 13.6 h. Diabetes did not appear to increase the rate of addition of sucrase-isomaltase to the brush border membrane, since it did not affect the 10- and 60-min incorporations of isotope into sucrase-isomaltase protein relative to incorporation into total protein and did not alter rate constants for synthesis calculated from the t((1/2)) and the change in enzyme mass over time.Thus, enhanced sucrase activity in the diabetic animal is the consequence of an increase in sucrase-isomaltase protein which develops because of a decrease in its rate of degradation.
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PMID:The intestinal brush border membrane in diabetes. Studies of sucrase-isomaltase metabolism in rats with streptozotocin diabetes. 14 62

In order to elucidate a possible relationship between (Na+ + K+)-activated ATPase and intestinal absorption of actively transported monosaccharides enzyme activity was measured in mucosal cells from alloxan diabetic rats. The general effect of increasing capacity of active, Na+-dependent transport processes in diabetes mellitus is associated with a significantly enhanced (Na+ +K+)-activated ATPase activity in mucosal homogenate from diabetic animals. To study the localization of these effects within the cell we isolated purified brush borders and their substructures. To enable a comparison to be made between preparation procedures of diabetic and control animals the fractions were controlled by electronmicroscopy and by measuring the sucrase activity. In the purified brush border fraction of alloxan treated rats there was no significant increase in (Na+ + K+)-activated ATPase activity. Based on these results we conclude that the (Na+ + K+)-activated ATPase in the basolateral membranes was increased in alloxan diabetes, and it seems very likely that this enzyme is involved in the regulation of Na+-dependent transport processes.
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PMID:[Effect of alloxan diabetes on (Na+ + K+)-activated ATPase in brush border membrane of the mucosal cell of rat small intestine]. 21 7

Intestinal transport of amino aicds, similar to sugar absorption, is enhanced in experimental diabetes. Because peptidases play a significant role in peptide digestion, we examined the effect of diabetes on intestinal peptidases. Leucyl-naphthylamidase and leucyl-glycine hydrolase (brush border peptidases) and prolyl-glycine hydrolase (cytosol peptidase) were assayed in the brush border and cytosol fraction in diabetic rats 7 days after alloxan administration. Mucosal weight, protein concentration, and total and specific activity of leucyl-naphthylamidase and leucyl-glycine hydrolase were significantly increased in diabetes in the brush border but not in cytosol fraction. By contrast, prolyl-glycine hydrolasw was not affected in cytosol fraction or brush border. These data indicate that brush border peptidases are increased in experimental diabetes. This adaptive response of the small intestinal mucosa is similar to disaccharidase elevation and alteration in the intestinal absorptive function which occurs in experimental diabetes.
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PMID:Effect of alloxan-induced diabetes on intestinal peptidases in the rat. 74 12

Digestive enzymatic activities (disaccharidases, alkaline phosphatase, peptide hydrolases) have been determined in the mucosa of 14 patients with chronic pancreatitis. All had an abnormal secretin-pancreozymin test. Four patients had insulin-dependent diabetes mellitus, four a pathological glucose tolerance test. Nine patients had steatorrhoea. Maltase, sucrase, and alkaline phosphatase activity was significantly elevated in patients with exocrine pancreatic insufficiency, whereas those of lactase, trehalase, and peptide hydrolase were normal. Patients with steatorrhoea had higher maltase and sucrase activity than those without steatorrhoea, whereas decreased glucose tolerance had no effect on brush border enzymatic activity. It is suggested thatdecreased exocrine rather than decreased endocrine pancreatic function is responsible for the increase in intestinal disaccharidase and alkaline phosphatase activity, possible by the influence of pacreatic enzymes on the turnover of brush border enzymes from the luminal side of the mucosal membranes or by direct hormonal stimulation though cholecystokinin.
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PMID:Influence of exocrine and endocrine pancreatic function on intestinal brush border enaymatic activities. 109 2

Glucose is reabsorbed from the glomerular filtrate in the proximal segment of the renal tubule in two stages. The first stage is uphill transport across the brush border membrane by Na(+)-glucose cotransport and the second stage is downhill transport across the basolateral membrane by facilitated diffusion. Genes for both a renal Na(+)-glucose cotransporter (SGLT1) and a renal facilitated glucose transporter (GLUT2) have been cloned and sequenced. To examine whether SGLT1 and GLUT2 colocalize to the same tubular epithelial cells in rat kidney, double-immunoperoxidase studies with dual chromogens and paraformaldehyde perfusion-fixed frozen sections of rat kidney were performed. Antipeptide antisera were prepared against rat GLUT2 (amino acids 510-522) and rabbit SGLT1 (amino acids 402-420). Proximal tubules were identified immunocytochemically with an antiserum raised against a synthetic peptide corresponding to the 21 amino acids at the COOH-terminal of the heavy chain of rat gamma-glutamyl transpeptidase, which is a proximal tubule-specific enzyme. The anti-GLUT2 antiserum strongly stained the basolateral membrane of 46% of cortical tubules, whereas the SGLT1 antiserum stained the brush border of 56% of the cortical tubules. The gamma-glutamyl transpeptidase antiserum also stained the brush border of 51% of the cortical tubules. GLUT2 and SGLT1 colocalized to 40% of cortical epithelium, but 16% of cortical epithelial cells were immunopositive for brush border SGLT1 and immunonegative for basolateral GLUT2. These gamma-glutamyl transpeptidase staining results suggest that at least 50% of the tubules in the cortex are proximal tubules and that SGLT1 and GLUT2 colocalize to most proximal tubules. The fact that SGLT1 antiserum immunoreacted with tubules unreactive to the GLUT2 antiserum suggests that either the SGLT1 epitope is conserved on a related brush border protein or that there is another GLUT transporter responsible for the exit of sugar from these proximal tubule cells.
Diabetes 1992 Jun
PMID:Colocalization of GLUT2 glucose transporter, sodium/glucose cotransporter, and gamma-glutamyl transpeptidase in rat kidney with double-peroxidase immunocytochemistry. 135 Feb 59

Preparations of villus enterocytes and brush border membrane vesicles have been used to study the effects of streptozotocin-induced diabetes mellitus in rats on sugar transport across the brush border and basolateral membranes of ileal epithelial cells. In isolated cells, diabetes increased Na(+)-dependent galactose transport across the brush border of mid-villus but not upper villus cells. Galactose transport across the basolateral membrane was, however, enhanced by diabetes in both cell populations. Kinetic analysis of vesicle data suggested the presence of two transporters for Na(+)-dependent glucose transport. Diabetes induced a 5-fold increase in both KT and Vmax of the high-affinity/low-capacity system together with a 2-fold increase in the Vmax of the low-affinity/high-capacity transporter. Glucose was almost undetectable in the lumen of the upper and lower ileum in control animals but was present at high levels (26.1 +/- 4.3 mM and 6.5 +/- 1.3 mM) in diabetic rats. The possible significance of these changes in luminal sugar concentration in relation to the adaptation of transport across ileal enterocytes is discussed.
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PMID:Streptozotocin diabetes and sugar transport by rat ileal enterocytes: evidence for adaptation caused by an increased luminal nutrient load. 153 13

Amino-oligopeptidase (AOP, aminopeptidase N), a major glycoprotein hydrolase in intestinal and kidney brush border membranes, plays a crucial role in digesting peptide nutrients and salvaging filtered peptides. The molecular structure of rat intestinal and kidney AOP was compared for normal Wistar and congenitally diabetic BB Wistar (BBd) rats. Brush border membranes were isolated, solubilized with Triton X-100, and the AOP specifically immunoprecipitated with polyvalent rabbit antiserum and analyzed on 7% sodium dodecyl sulfate (SDS)-acrylamide electrophoresis. While the specific hydrolytic activity was maintained, BBd rats displayed an altered migration of AOP on SDS gels. Intestinal AOP migrated as a smaller species (130 kd) in the BBd than in the normal Wistar (135 to 140 kd). In some BBd rats, additional intestinal AOP species were observed (a 130- to 135-kd doublet or a 125-, 130-, or 135-kd triplet). Kidney AOP migrated as a broader band (125 to 140 kd) than intestine for all rat groups, probably due to carbohydrate chain heterogeneity, and was approximately 5 kd smaller in the BBd rat than in the normal Wistar. In contrast, no mass change was found in diabetes induced by streptozotocin (STZ). The altered intestinal AOP in the BBd rat was present when first inserted into the brush border membrane (6 hours after intraperitoneal [35S]methionine labeling), and hence was not due to nonenzymatic glycosylation (NEG). Abnormal intestinal and kidney AOP structure appeared in early diabetes, irrespective of high plasma glucose levels or ketoacidosis, and was reversed following evolution of the diabetes under prolonged (21 to 120 days) insulin treatment.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Altered intestinal and renal brush border amino-oligopeptidase structure in diabetes and metabolic acidosis: normal and biobreed (BB) rats. 153 46

To clarify the possible role of intrarenal renin-angiotensin system (RAS) in the evolution of renal hemodynamic alteration in diabetes, we investigated the change of tissue angiotensin-converting enzyme (ACE) activity, a key enzyme of RAS, in the kidneys obtained from streptozotocin-induced diabetic rats. Tissue ACE activity was significantly reduced in both outer cortex (0.29 +/- 0.04, mean +/- SEM, n = 6) and inner cortex with outer medulla (2.43 +/- 0.28, n = 6) of the kidneys from diabetic rats 2 weeks after induction of diabetes compared with those from control rats (0.47 +/- 0.05, n = 7, in outer cortex; 3.68 +/- 0.32, n = 7, in inner cortex with outer medulla). ACE activities in the lung and aorta of diabetic rats were not different from those of control rats. ACE activities in the serum and urine were significantly elevated in diabetic rats. Treatment of diabetic rats with insulin to achieve near euglycemia completely prevented these alterations in ACE activity, except that, in the urine, the elevation of ACE was partially corrected with insulin. In contrast to ACE activity, activity of N-acetyl-beta-D-glucosaminidase (a lysosomal enzyme of the tubule) and r-glutamyl transpeptidase (a brush border enzyme) in the kidney were not reduced in diabetic rats, whereas in the urine both enzyme activities were significantly elevated in diabetic rats. It is likely, therefore, that the reduction of ACE activity in the kidneys of diabetic rats may reflect the impairment of vascular endothelial cells in the kidney, rather than tubular damage.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Reduced activity of renal angiotensin-converting enzyme in streptozotocin-induced diabetic rats. 168 36

A sensitive quantitative radioimmunoassay is described by which different antigens in the urine can be assayed simultaneously. Urinary excretion of three proteins from proximal tubules was compared: 1) the Na+-D-glucose cotransporter from brush border membranes and subapical vesicles; 2) a kidney-specific hydrophobic M(r) 400,000 polypeptide from intermicrovillar invaginations and subapical vesicles; and 3) villin from microvilli cores. In the normal urine about 50% of the excreted Na+-D-glucose cotransporter and villin, and about 25% of the M(r) 400,000 polypeptide was associated with brush border membrane vesicles, whereas the remaining fractions of the three proteins formed small sedimentable aggregates which contained some cholesterol and fatty acids but no phospholipids. The normal urinary excretion of the Na+-D-glucose cotransporter was correlated with that of villin and the M(r) 400,000 polypeptide. The data show that membrane proteins from the proximal tubule are excreted by the shedding of different brush border membrane areas. They suggest that some microvilli are released in total, and that a large fraction of the brush border membrane proteins is excreted without being associated with a phospholipid bilayer. In an attempt to define protein excretion patterns during kidney malfunctions, the excretion of brush border membrane proteins was analyzed after one intravenous injection of the X-ray contrast medium, iopamidol. No change in villin excretion was observed, but a reversible increase in the excretion of brush border membrane proteins was found in patients without diabetes. With diabetes a more pronounced iopamidol effect on the excretion of brush border membrane proteins and a significant increase in the excretion of villin was observed.
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PMID:Analysis of Na+-D-glucose cotransporter and other renal brush border proteins in human urine. 176 86

Chemically induced diabetes in the rat is associated with a number of functional abnormalities in the intestinal tract. The transport of glucose, amino acids and fatty acids are increased, whereas that of calcium and magnesium is decreased. Previous studies in calcium transport utilized in vivo perfusion and in vitro everted gut sac techniques. The present studies determined calcium uptake by the brush border membranes of controls, diabetic and diabetic rats treated with insulin or 1,25(OH)2 Vitamin D3. Calcium uptake with time was markedly decreased in diabetic rats compared to controls. Calcium uptake at 30 minutes was 4.4 +/- 0.8 and 28 +/- 0.9 nmoles/mg protein in control and diabetic rats, respectively (p less than 0.001). Kinetics of calcium uptake at 5 seconds showed a Vmax of 2 +/- 0.02 and 2.5 +/- 0.1 nmoles/mg protein (p less than 0.05) and a Km of 0.6 +/- 0.1 and 0.54 +/- 0.1 mM in diabetic and controls, respectively. Calcium uptake at 30 minutes showed a Vmax of 15.4 +/- 1.2 and 144.8 +/- 12 nmoles/mg protein (p less than 0.001) and Km values of 0.6 +/- 0.09 and 0.5 +/- 0.08 mM in diabetics and controls, respectively. 1,25(OH)2 Vitamin D3 treatment increased Vmax to 42.8 +/- 6 nmoles/mg protein/30 minutes, whereas insulin treatment increased the Vmax to 71 +/- 8 nmoles/mg protein/30 minutes. The results suggest that calcium uptake by brush border membranes is markedly decreased in diabetic brush border membranes compared to controls. 1,25(OH)2 Vitamin D3 and insulin partially corrected calcium uptake by diabetic brush border membranes.
Diabetes Res 1991 May
PMID:Calcium uptake by jejunal brush border membrane of the diabetic rat. 181 79


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