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

The canine gastric mucosa has previously been shown to contain considerable amounts of a polypeptide with the immunologic and physicochemical characteristics and biologic activity of glucagon (IRG3500). Using mucosal pieces that remained viable for at least 8 h, we have demonstrated that IRG3500 is synthesized in this extrapancreatic tissue. Gel filtration and electrophoresis of extracts of mucosal pieces incubated with 3H-tryptophan, 3H-leucine, or 35S-methionine revealed small amounts of labeled, newly synthesized gastric IRG3500. No labeling of gastric IRG3500 was observed when the mucosa was incubated with 3H-proline, an amino acid not found in glucagon, in the presence of cycloheximide, or in isolated rat hepatocytes. Small amounts of newly synthesized IRG3500 were specifically immunoprecipitated by C-terminally directed glucagon antiserum gamma globulins. The rate of gastric IRG3500 biosynthesis in vitro was apparently unchanged in mucosal pieces from pancreatectomized dogs and unaffected by increased glucose or glucose lack during incubations. Thus we have provided evidence that a hormone of the endocrine pancreas can be synthesized in extrapancreatic tissues.
Diabetes 1985 Jan
PMID:Biosynthesis of glucagon (IRG3500) in canine gastric mucosa. 388 May 48

Insulin-dependent diabetes mellitus (IDDM) induces plasma amino acid (AA) abnormalities, including low alanine and high branched-chain (BCAA). While insulin treatment restores plasma AA pattern, proline, methionine, valine, isoleucine, and total BCAA remain elevated in skeletal muscle intracellular water. This suggests that the restoration of plasma AA concentrations is not a satisfactory index of recovered AA metabolism in IDDM.
Diabetes 1985 Aug
PMID:Plasma and skeletal muscle free amino acids in type I, insulin-treated diabetic subjects. 389 23

Mammalian glucagon is thought to be highly conserved. Glucagons from pig, cow, human, rat, and hamster have identical amino acid sequences, whereas the amino acid contents of rabbit and camel glucagons are consistent with this 29-amino acid sequence. It had earlier been reported that guinea pig (GP) glucagon contains 40 amino acids. In the current study, glucagon was purified from two GP pancreata by a series of three HPLC steps after acid-alcohol extraction and acetone precipitation. GP glucagon is a 29-amino acid peptide that differs from other mammalian glucagons by substitution of Gln for Asp in position 21, Leu for Val in position 23, Lys for Gln in position 24, Leu for Met in position 27, and Val for Thr in position 29. In view of the marked changes in the COOH-terminal of GP glucagon, receptor binding studies were performed using both rat and GP liver membranes. Labeled synthetic porcine glucagon has similar binding in the two systems and its binding is inhibited to a similar degree by synthetic porcine glucagon, whereas GP glucagon is 10-fold less potent at inhibiting binding in both systems. This suggests that glucagon receptor binding sites in the GP are evolutionarily more conserved than is GP glucagon.
Diabetes 1986 May
PMID:Guinea pig glucagon differs from other mammalian glucagons. 395 84

We have previously established the value of 2-dimensional electrophoretic mRNA activity profiles for investigating the hepatic genomic response to several metabolic perturbations, such as thyroid hormone or GH treatment, diabetes, high carbohydrate diet, starvation, and uremia. We now report the effects of adrenalectomy and dexamethasone treatment, and compare these with alterations due to thyroidectomy and T3 treatment. Total rat hepatic RNA was isolated and translated in a reticulocyte lysate system. The [35S]methionine-labeled translated products were separated by 2-dimensional gel electrophoresis and quantified with computerized videodensitometry. Of 200 consistently quantifiable products, 14 (7%) were altered by adrenalectomy and dexamethasone, including 4 products (46, 47, 56, and 57) which have not been observed to change in previous studies from this laboratory. Adrenalectomy increased 5 and decreased 2 products, whereas dexamethasone increased 1 and decreased 8 products. Two products maintained the same directional shift in the transitions form adrenalectomy to control and from control to the dexamethasone-treated state. Thyroidectomy and T3 altered 13 products. Thyroidectomy increased 2 and decreased 7 products, whereas T3 treatment increased 6 and decreased 3 products. Four products maintained the same directional shift in the transitions from thyroidectomy to control and from control to the T3-treated state. In all of the manipulations performed (adrenalectomy, thyroidectomy, dexamethasone treatment, and T3 treatment), a total of 20 separate products changed. One third were affected by alterations of both the steroidal and thyroidal states. However, when adrenalectomy and thyroidectomy were compared, only 7% of the shifts were concordant, whereas 30% of the shifts were concordant when treatment with dexamethasone and T3 were compared. These results demonstrate that the mRNA activity response is highly specific for each hormonal manipulation. In addition, unanticipated interrelationships between steroidal and thyroidal states were observed. In some, the presence of T3 appears necessary for the suppressive effect of dexamethasone. Others show that T3 appears to inhibit a stimulatory effect of dexamethasone. Specificity of response to dexamethasone is emphasized by the lack of response to vitamin D, deoxycorticosterone, and dihydrotestosterone and by a different response to estradiol from dexamethasone.
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PMID:Hepatic messenger ribonucleic acid activity profile of rats subjected to alterations in thyroidal and adrenocortical states: evidence for significant interaction. 399 30

During diabetes mellitus, total proteins and ribonucleic acids are significantly decreased in the rat heart, and these parameters can be increased by insulin administration. To determine whether all ribonucleic acids are equally sensitive to insulin, we examined the influence of this hormone on individual translatable ribonucleic acids. Cardiac ribonucleic acid prepared from control, untreated, and insulin-treated diabetic animals was translated in vitro in the presence of [35S]methionine. The radiolabeled peptides were separated by two-dimensional gel electrophoresis and were analyzed by fluorometry. We found that diabetes induces both qualitative and quantitative changes in the predominance of a few specific translatable messenger ribonucleic acid species. The translation of 11 messenger ribonucleic acid species was significantly decreased and that of eight messenger ribonucleic acid species was significantly increased in diabetic preparation. Twelve of the 19 translation products were quantified by digital matrix photometry: three labeled peptides were observed only when cardiac ribonucleic acid from diabetic animals was added to the cell-free translation system, four new peptides appeared when cardiac ribonucleic acid from control animals was added, and although the remaining five peptides were translated in vitro after either control or diabetic ribonucleic acid was added, their relative predominance was altered 2- to 200-fold. When translation products coded for by messenger ribonucleic acids prepared from either diabetic or hypothyroid hearts were compared, we found that most of the alterations induced by diabetes were also induced by hypothyroidism.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Diabetes-induced alterations in the translational activity of specific messenger ribonucleic acids isolated from rat hearts. 401 99

Homocystinuria, an inherited disorder associated with premature atherosclerosis, represents a severe form of methionine intolerance. To analyze the importance of milder forms of methionine intolerance in the genesis of vascular disease, the relation between provokable methionine intolerance and coronary artery disease was investigated. In a group of 138 men, aged 31 to 65 years (mean 53), referred for cardiac catheterization, plasma homocystine was measured before and 6 hours after an oral l-methionine load (0.1 g/kg). Thirty-nine subjects found to have normal coronary arteries had a mean post-load plasma homocystine level of 0.59 +/- 0.37 mumol/liter. A criterion at the 95th percentile (1.64 SD above the mean) was selected and applied to the remaining 99 subjects with coronary artery disease (0.70 +/- 0.68 mumol/liter). Sixteen (16%) of 99 subjects with coronary artery disease exceeded this level as compared with 1 (2%) of 39 subjects without coronary artery disease (p less than 0.04). The risk of coronary artery disease in men with provokable methionine intolerance was increased sevenfold as estimated by the odds ratio. By correlation matrix and multivariate regression analyses, provokable homocystinemia was predictive of coronary artery disease and was independent of tobacco smoking, hypertension, diabetes mellitus, serum cholesterol and age. It is proposed that men with mild methionine intolerance exposed to the high methionine content of the Western diet may develop intermittent homocystinemia and thus may be at greater risk for the development of coronary artery disease.
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PMID:Methionine intolerance: a possible risk factor for coronary artery disease. 403 Dec 85

Alloxan-induced diabetes results in changes in the activities of a number of enzymes related to methyl group metabolism in sheep. Decreases in the activities of phospholipid methyltransferase and betaine-homocysteine methyltransferase in diabetic sheep liver indicate a reduced rate of choline synthesis and oxidation. A 65-fold increase in the activity of glycine methyltransferase and a 4-fold rise in the activity of gamma-cystathionase in diabetic sheep liver with elevated urinary excretion of cyst(e)ine suggest that catabolism of the methyl group of methionine and homocysteine was enhanced in the diabetic state.
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PMID:Disturbance of methyl group metabolism in alloxan-diabetic sheep. 403 11

The effect of diabetes (streptozotocin, 65 mg/kg ip), dietary protein intake (15-60%), and plasma amino acid concentrations on brain large neutral amino acid levels in rats was examined. After 20 days, the plasma concentrations of methionine and the branched chain amino acids (BCAA), valine, isoleucine, and leucine were increased in diabetic rats. In brain tissue, methionine and valine levels were increased but threonine, tyrosine, and tryptophan concentrations were depressed. Increased protein consumption promoted a diabetic-like plasma amino acid pattern in normal rats while enhancing that of diabetic animals. However, with the exception of threonine, glycine, valine, and tyrosine, there was little effect on brain amino acid levels. A good association was found between the calculated brain influx rate and the actual brain concentration of threonine, methionine, tyrosine, and tryptophan in diabetic animals. There was no correlation, however, between brain influx rate and brain BCAA levels. Thus, the brain amino acid pattern in diabetes represents the combined effects of insulin insufficiency and composition of the diet ingested on plasma amino acid levels as well as metabolic adaptation within the brain itself.
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PMID:The effect of insulin deficiency, dietary protein intake, and plasma amino acid concentrations on brain amino acid levels in rats. 404 90

Methods have been developed for the preparation of suspensions of viable rat pancreatic islet cells and their analysis and sorting in the fluorescence-activated cell sorter (FACS III or IV). Histograms of cell number versus light scattering in a near forward angle (1-15 degrees) demonstrated that viable islet cells produce a broad peak that is distinctly separated from the peaks generated by exocrine cells, erythrocytes, and nonviable cells. Electron microscopic examination and radioimmunoassay of hormone content in fractions collected across the peak showed that glucagon-containing (A) cells scatter less intensely and are concentrated within the left side of the islet cell peak, while somatostatin-containing (D) cells are localized to the far right side, indicating a higher intrinsic light scattering property of the D-cells. The more abundant insulin-containing (B) cells define the center of the islet cell peak. Sodium dodecyl sulfate slab gel electrophoresis and radioautography of 35S-methionine labeled cellular proteins confirmed that sorted cells are viable. Cells from the far left region contained increased amounts of labeled 18 Kd proglucagon and its 13-Kd and 10-Kd conversion intermediates, while cells from the right side were relatively enriched in labeled 12.4 Kd prosomatostatin. These results demonstrate that intrinsic light scattering alone can be used to prepare A- or D-cell enriched fractions from islets for biochemical analysis.
Diabetes 1982 Apr
PMID:Sorting of pancreatic islet cell subpopulations by light scattering using a fluorescence-activated cell sorter. 613 19

The axonal transport of proteins in crushed nerves of streptozotocin (40 mg/kg) diabetic rats was investigated 4 weeks after induction of diabetes. 35S-methionine was used as a marker for protein and 3H-fucose as a marker for glycoprotein. The precursors were injected into the fifth lumbar spinal ganglion and the accumulation of TCA-insoluble activity proximal and distal to a sciatic nerve ligature was measured at different time intervals after application of a crush. The start of accumulation distal to the ligature was delayed by 1 hour for proteins as well as for glycoproteins. Furthermore, the total amount of accumulated protein after 19 h was decreased by 18% while the decrease was 21% for glycoprotein. By insulin treatment the differences could both be prevented and reversed after 3 days of normoglycaemia. These findings demonstrate an impaired response to a nerve crush and might be the explanation for the regenerative abnormalities of peripheral nerves in diabetes.
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PMID:Impaired retrograde axonal transport from a nerve crush in streptozotocin diabetic rats. 615 94


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