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 metabolic turnover of the Hepatic Binding Protein (HBP) was investigated in streptozotocin-diabetic rats. We have already shown that diabetes induced a decreased ligand binding capacity while the immunoreactive HBP was normal. To explore the eventual modifications due to diabetic state upon the turnover of HBP, we followed the in vivo degradation of HBP and its biosynthesis in vitro. After in vivo labelling with L-[3H] leucine and purification of HBP from rat livers, we found a 20% decrease in diabetic HBP half-life. By in vitro incubations of freshly isolated hepatocytes and a 2 h-pulse in the presence of L-[35S] methionine, we showed that diabetes provokes an increased uptake of L-[35S] methionine in hepatocytes allowing an augmented synthesis of HBP although the L-[35S] methionine incorporation into total proteins was less efficient.
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PMID:Effect of streptozotocin-diabetes on rat liver asialoglycoprotein receptor turnover: in vivo degradation and in vitro biosynthesis. 227 99

Antibodies to an Mr 64,000 protein from human or rat islets have been detected at high frequency in newly diagnosed insulin-dependent diabetic patients. In this study, we show that the antigenic and amphiphilic properties of the rat islet Mr 64,000 protein resemble that of the human protein. We have analyzed the expression of the Mr 64,000 protein in populations of pancreatic beta and non-beta cells and in selected rat tissues by immunoprecipitation of [35S]methionine-radiolabeled proteins with sera from diabetic patients or from healthy control individuals. When islet cell populations enriched in beta or non-beta cells were tested for the expression of the Mr 64,000 antigen, the protein was primarily observed in the beta cells. On analyzing preparations of islets, liver, kidney, thyroid, adrenal, pituitary, spleen, and thymus, the protein could only be detected in islets. The protein was also characterized in terms of its subcellular localization by Percoll density gradient centrifugation and was recovered in a fraction enriched in the plasma membrane marker, 5'-nucleotidase. These results are consistent with a beta cell-restricted plasma membrane expression of the protein and support the hypothesis that this protein is a target antigen of beta cell-specific autoimmunity in insulin-dependent diabetes.
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PMID:Cellular and subcellular localization of an Mr 64,000 protein autoantigen in insulin-dependent diabetes. 240 61

Previous in vivo studies have suggested a long-term regulatory role for insulin in the exocrine pancreas. To directly study the long-term effects of insulin on the pancreas in vitro, we have used cultured AR42J cells, a rat cell line that is derived from a transplantable tumor of the acinar pancreas. Hormone-binding experiments with 125I-labeled hormones indicated that AR42J cells have insulin receptors, relatively fewer receptors for insulin-like growth factor II (IGF-II), and no detectable receptors for insulin-like growth factor I (IGF-I). Insulin at concentrations as low as 1 nM stimulated the growth of these cells, as measured by an increase in DNA and protein content, and in cell number. At 100 nM, where insulin had a maximal effect, the growth of AR42J cells was stimulated by 46.1 +/- 10.9% (mean +/- SEM, N = 11). Insulin increased the amylase activity of AR42J cells over the same concentration range that it stimulated growth; at 100 nM, insulin increased amylase by 91.0 +/- 15.4% (mean +/- SEM, N = 23). Immunoprecipitation of [35S]methionine-labeled proteins revealed that insulin induced a selective increase of amylase synthesis over general protein synthesis. These studies indicate, therefore, that insulin stimulates both growth and amylase synthesis of AR42J cells.
Diabetes 1985 Sep
PMID:Insulin, via its own receptor, regulates growth and amylase synthesis in pancreatic acinar AR42J cells. 241 17

The synthesis and transport of slowly transported polypeptides in sciatic nerves of rats was investigated by [35S]methionine pulse labeling and gel electrophoresis in control, diabetic, and insulin-treated diabetic rats. To detect very early changes diabetes was induced by streptozocin only 5 days prior to the labeling of the dorsal root ganglion cells. Fourteen days were allowed for axonal transport. In this experimental system, the neurofilament triplet is transported at an apparent velocity of 1.1 +/- 0.1 mm/day (mean +/- SD). The actin-related complex, including actin and two polypeptides of 87 kilodaltons and 37 kilodaltons, was transported at a velocity of 2.6 +/- 0.2 mm/day. For alpha- and beta-tubulin we found an apparent transport velocity of 2.2 +/- 0.1 mm/day, placing it between actin and the neurofilament triplet. The diabetic rats had a selective 32% decrease in the amount of the heaviest neurofilament subunit: 0.47 +/- 0.19% of trichloroacetic acid-insoluble radioactivity versus 0.69 +/- 0.17% in controls; 2p less than 0.05. This decrease was associated with a proximal accumulation of the two lighter neurofilament subunits. Insulin treatment of a diabetic group failed to normalize the changes of axonal transport and additional changes suggesting a hypoglycemic injury was observed.
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PMID:Slow axonal transport of structural polypeptides in rat, early changes in streptozocin diabetes, and effect of insulin treatment. 246 34

Both adrenalectomy and chemically induced diabetes mellitus cause a marked decrease of pancreatic amylase activity in rats, but it is unknown whether these effects are the result of a direct or indirect mechanism. The synthesis of various pancreatic enzymes has been studied in isolated pancreatic acini from sham-operated, castrated, and adrenalectomized animals as well as in animals that have been both adrenalectomized and castrated. Protein synthesis was measured by pulse labeling of acini with [35S]methionine followed by either trichloroacetic acid precipitation of total protein and counting or by SDS-PAGE and autoradiography, and additionally by in vitro translation of extracted pancreatic RNA using rabbit reticulocytes. Adrenalectomy resulted in a 70% reduction of amylase activity per milligram of acinar protein as a result of a decrease in amylase synthesis. This reduction in amylase synthesis is a consequence of a decrease in the amount of mRNA coding for amylase. After adrenalectomy, plasma concentrations of the following were reduced compared to controls: corticosterone to 0.45%, insulin to 11%, and glucose to approximately 66%. Addition of glucose to the drinking water caused an increase in insulin and plasma glucose, but this was not followed by an increase in amylase activity. We postulate that corticosterone directly regulates amylase synthesis in the rat pancreas.
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PMID:Role of glucocorticosteroids in the regulation of pancreatic amylase synthesis. 247 63

Western blotting of either a cloned rat beta-islet tumour cell extract or isolated BB rat islets with rat anti-bovine serum albumin antiserum revealed a cross-reacting protein (Mr = 69,000). A protein of similar molecular size was observed by fluorography in proteins immunoprecipitated from islet cells labelled with (35S)-methionine using anti-bovine serum albumin antiserum. In comparing the primary structure of the beta subunits of the proteins Ia, DQ and DR a region of homology with bovine serum albumin became evident. Analysis of the amino-acid homology in relation to the DR/DQ allotypes found in the human population gave a strong correlation between the combined DR and DQ homology score with bovine serum albumin and the incidence of insulin dependent diabetes mellitus.
Diabetes Res 1989 Mar
PMID:Could bovine serum albumin be the initiating antigen ultimately responsible for the development of insulin dependent diabetes mellitus? 255 21

A method was developed for isolation of native ribosomal subunits from rat gastrocnemius muscle. Native 40 S subunits which were isolated by this method retained their associated nonribosomal proteins and consisted primarily of particles with equilibrium densities of 1.41 and 1.48 g/cm3. Based on the binding of radiolabeled Met-tRNAmeti, the 1.41 g/cm3 particle was identified as the 40 S initiation complex. Insulin deficiency in vivo resulting from either diabetes or fasting led to a 2-fold increase in 75 S monomers but had no effect on the numbers of native 40 and 60 S subunits or the relative distribution of the 1.41 and 1.48 g/cm3 particles. The rate of protein synthesis in perfused muscle preparations derived from insulin-deficient rats was reduced to about half the control value. Addition of insulin to the perfusate restored protein synthesis and 75 S monomers to control levels. The effect of insulin on protein synthesis was associated with a 1.5-fold increase in the amount of Met-tRNAmeti bound to the 1.41 g/cm3 particle. These findings identify formation of 40 S initiation complexes as a site of action of insulin on protein synthesis in skeletal muscle.
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PMID:Control of peptide-chain initiation in rat skeletal muscle. Development of methods for preparation of native ribosomal subunits and analysis of the effect of insulin on formation of 40 S initiation complexes. 258 58

Various imaging methods have been used in the differential diagnosis of pancreas-transplant dysfunction. As early as 1977, angiography and radionuclide studies ([75Se]seleno-DL-methionine) were used to evaluate pancreas allografts. More recently, the use of 99mTc-labeled DTPA, computed tomography, and ultrasonography has been described, and abnormal findings associated with rejection have been reported with these imaging methods. However, no attempt has been made to determine the ability of each method to detect rejection and to differentiate graft dysfunction caused by rejection from dysfunction by other causes. We summarize our experience with the application of magnetic resonance imaging (MRI) in pancreas transplantation and a comparative study of radionuclide 99mTc-DTPA scans, ultrasonography, and MRI in the detection and differentiation of pancreas-graft dysfunction.
Diabetes 1989 Jan
PMID:Application of magnetic resonance imaging in pancreas transplant. 264 51

The degradation of intracellular protein and other cytoplasmic macromolecules in liver is an ongoing process that regulates cytoplasmic mass and provides amino acids for energy and other metabolic uses early in starvation. Cellular proteins are conveniently divided into two general classes according to readily discernable differences in average rates of turnover. A short-lived class, having a half-life of approximately 10 min, comprises about 0.6% of total protein. Its degradation is not physiologically controlled, and the mechanism is probably nonlysosomal in nature. The second or long-lived group, with an average half-life 250 times greater, constitutes more than 99% of the cell's protein. By contrast, its breakdown is strongly regulated, and the site of catabolism is believed to be the vacuolar-lysosomal system. Cytoplasmic sequestration by lysosomes can be divided into two categories; macro- and microautophagy. The first is induced by amino acid and/or insulin deprivation. Amino acids are considered to be primary regulators, since they can control this process over the full range of induced proteolysis in the absence of hormones. Glucagon, cyclic AMP, and beta-agonists also stimulate macroautophagy in hepatocytes but have opposite effects in myocytes. Micrautophagy differs from the former in that the cytoplasmic "bite" is smaller and the uptake process is not acutely regulated. However, the latter does decrease during starvation in parallel with basal proteolysis, effects that might be linked to the loss of endoplasmic reticulum. The primary control of macroautophagy is accomplished through a small group of direct regulators (Leu, Tyr/Phe, Gln, Pro, Met, His, and Trp) and a specific coregulatory action of alanine. As a group, regulatory amino acids produce direct inhibitory responses in the perfused rat liver that are identical to those of the complete amino acid mixture at 0.5x and 4x (times) normal plasma concentrations. However, they lose effectiveness almost completely within a narrow zone centered at normal levels, a loss that can be abolished by the addition of alanine at its normal plasma concentration (0.5 mM). At this level, alanine does not inhibit directly. Interestingly, this zonal loss is also eliminated by insulin. Glucagon, though, specifically blocks the initial inhibition evoked by 0.5x amino acid mixtures and thus induces maximal rates of protein degradation at normal amino acid concentrations.(ABSTRACT TRUNCATED AT 400 WORDS)
Diabetes Metab Rev 1989 Feb
PMID:Mechanism and regulation of protein degradation in liver. 264 36

Pancreatic islets were prepared from 22-day-old rat fetuses. After 5 days of culture in dishes allowing cell attachment, neoformed islets were kept free floating in RPMI-1640 medium (16.5 mM glucose, 1% fetal calf serum). The islets were then pulsed with [3H]leucine and [35S]methionine for 24 h. The conditioned medium was acidified with acetic acid (final pH 2.7), desalted, concentrated, and gel filtered on Bio-Gel P100 in acid conditions. The radioactive material that comigrated with immunoreactive insulinlike growth factor I (IGF-I) produced by the islets was pooled, concentrated, and further characterized by reverse-phase high-performance liquid chromatography on a C18 Bondapak column with a linear gradient of acetonitrile (20-80%). The radioactive material that eluted as pure IGF-I (40% acetonitrile) was further studied by chromatofocusing on a Pharmacia PBE 94 column. A sharp radioactive peak containing [3H]leucine and [35S]methionine was eluted at pH 8.55. This material was immunoprecipitated with an antiserum to IGF-I. This study demonstrated that fetal islet cells synthesize molecules that are, by several criteria, equivalent to native IGF-I.
Diabetes 1989 Jun
PMID:Characterization of insulinlike growth factor I produced by fetal rat pancreatic islets. 265 37

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