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Query: UMLS:C0011849 (diabetes)
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In hagfish islet parenchyma, consisting practically only of insulin-producing B-cells and agranular B-cell precursors, the contents of glutathione (GSH) and total protein-free thiols (NPSH) were determined on micro-dissected islet lobules. GSH was found to be of the same order of magnitude (22-25 mg/100 g wet weight) as in the islet parenchyma of a previously studied teleost fish and of some mammals, including man. However, the NPSH was found to be considerably higher in the islet lobules of the hagfish than in the teleostean islet parachyma. As in both teleost fish and mammals, GSH made up most of the NPSH in the hagfish erythrocytes, myocardium, and skeletal musculature. This discrepancy between hagfish islet parenchyma and other tissues indicates that the non-GSH portion of NPSH may be of particular significance for the insulin-producing B-cells. By means of flameless atomic absorption spectrophotometry the contents of zinc, cobalt, and manganese were determined in micro-dissected hagfish islet lobules. Neither zinc, nor cobalt, occurred in significantly higher concentrations in the islet parenchyma than in the liver or the skeletal musculature. Only manganese was found in somewhat higher amounts in the islet lobules than in the other tissues, but the contents were still low. The results indicate that none of the three heavy metals play any important role in the synthesis, storage, or release of insulin in the hagfish. The significance of this in relation to the prevailing hypotheses regarding the pathogenesis of alloxan diabetes is discussed.
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PMID:Microchemical assays of glutathione, zinc, cobalt and manganese in micro-dissected areas of the endocrine pancreas in the hagfish, Myxine glutinosa. 33 56

The intravenous injection of zinc or manganese chloride immediately before and 15 minutes after alloxan or dithizone prevented the usual hyperglycemia observed 24 hours after induction of diabetes. Injection of zinc chloride in alloxan diabetes led to normalization of sodium while zinc, copper, iron and magnesium remained high and calcium and potassium remained low as in alloxan. In case of dithizone diabetes, the administration of zinc salt led to an increase in serum zinc, magnesium and potassium and to a decrease in serum calcium while the sodium level returned to normal. Manganese plus alloxan led to a normalization of serum zinc, copper, potassium and sodium. In the case of dithizone plus manganese only magnesium was raised while the other elements were unchanged when compared to animals injected with dithizone only. Chromium and cobalt lowered the blood glucose to a certain extent however it did not affect most of the elements. The same changes occurred in all elements as with alloxan or dithizone alone. Pretreatment with ATP led to a normalization of serum zinc, copper, magnesium, sodium and potassium, while in case of iron it remained high and calcium remained low as that found in alloxan diabetic rats.
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PMID:Serum mineral changes due to exogenous ATP and certain trace elements in experimental diabetes. 44 5

The involvement of Zn2+ in the inhibitory action of insulin and phenformin on bulk proteolysis was studied in the Langendorff rat heart with a Zn(2+)-buffering perfusate (0.1 mM citrate, physiological complete amino acids and 0.2% albumin). Proteins were biosynthetically labeled in vitro for 10 min with [3H]leucine. Rapidly degraded proteins were eliminated during a 3-h preliminary degradation without insulin or added Zn2+ (2 mM nonradioactive leucine). Insulin (5 nM), the lysosomal inhibitor chloroquine (30 microM), and the biguanide antihyperglycemic agent phenformin (2 microns) each caused a sustained 35-40% inhibition of [3H]leucine release beginning within 1-2 min and reaching a maximum at 1-1.5 h. When these agents were combined, their simultaneous proteolytic inhibitory effects were not appreciably greater than the effect of chloroquine alone. Infusion of supraphysiological perfusate Zn2+ (greater than 15 microM) mimicked the inhibitory effect of insulin and chloroquine on lysosomal proteolysis. Infusion of supraphysiological Co2+, Mn2+, Fe2+, and Cr3+ (30 microM, 0.5 h) caused no change in proteolysis; however, 30 microM Cu2+ caused a slight inhibition. Presumptive chelation of the background (approximately 20 nM) Zn2+ by infusion of 3 microM CaNa2 EDTA caused no change in protein degradation over 1-2 h. The infusion of a physiological concentration of 1 or 5 microM Zn2+ (as ZnCl2) caused no change in protein degradation over 1-2 h. Biguanides are known to reversibly form a Zn2+ complex with affinity less than that of Zn2+ for EDTA. Prior infusion of 3 microM CaNa2 EDTA inactivated the proteolytic inhibitory effect of maximal (2 microM) phenformin over at least 1.25 h of concurrent infusion.(ABSTRACT TRUNCATED AT 250 WORDS)
Diabetes 1991 May
PMID:Effect of Zn2+ on the proteolytic inhibitory action of insulin and biguanide antihyperglycemic drugs. 190 28

Acromegaly was diagnosed in 14 middle-aged to old cats of mixed breeding. Thirteen (93%) of the cats were male and one was female. The earliest clinical signs in the 14 cats included polyuria, polydipsia, polyphagia, all of which were associated with untreated diabetes mellitus. All developed severe insulin resistance within a few months; peak insulin dosages required to control severe hyperglycemia ranged from 20 to 130 U per day. Other clinical findings weeks to months after diagnosis included enlargement of one or more organs (e.g., liver, heart, kidneys, and tongue) (n = 14), cardiomyopathy (n = 13), increase in body size and weight gain (n = 8), nephropathy associated with azotemia and clinical signs of renal failure (n = 7), degenerative arthropathy (n = 6), and central nervous system signs (i.e., circling and seizures) caused by enlargement of the pituitary tumor (n = 2). The diagnosis of acromegaly was confirmed by demonstration of extremely high basal serum growth hormone concentrations (22 to 131 micrograms/l) in all cats. Computerized tomography disclosed a mass in the region of the pituitary gland and hypothalamus in five of the six cats in which it was performed. Two cats were treated by cobalt radiotherapy followed by administration of a somatostatin analogue (octreotide), whereas two cats were treated with octreotide alone. Treatment had little to no effect in decreasing serum GH concentrations in any of the cats. Eleven of the 14 cats were euthanized or died four to 42 months (median survival time, 20.5 months) after the onset of acromegaly because of renal failure (n = 2), congestive heart failure (n = 1), concomitant renal failure and congestive heart failure (n = 3), progressive neurologic signs (n = 2), persistent anorexia and lethargy of unknown cause (n = 1), the owner's unwillingness to treat the diabetes mellitus (n = 1), or unknown causes (n = 1). Results of necropsy examination in ten cats revealed a large pituitary acidophil adenoma (n = 10), marked left ventricular and septal hypertrophy (n = 7), dilated cardiomyopathy (n = 1), arthropathy affecting the shoulder, elbow, or stifle (n = 5), and glomerulopathy characterized by expansion of the mesangial matrix and variable periglomerular fibrosis (n = 10).
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PMID:Acromegaly in 14 cats. 240 66

The presence of an enzyme that hydrolyzes ATP to AMP and PPi was demonstrated in a 27,000 X g particulate and supernatant fraction of mouse pancreatic islets. The enzyme was stimulated by addition of Ca2+, Zn2+, and Co2+. Addition of calmodulin or trifluoperazine had no effect. In the presence of Ca2+ and Zn2+, the Michaelis constant (Km) for ATP was approximately 0.1 mM and the maximum velocity (Vmax) was close to 90 nmol X min-1 X mg protein-1. After preincubation of the islets for 30 min with 16.7 mM glucose or 5 mM glucose with 1 mM 3-isobutyl-1-methylxanthine (IBMX), a three- to fourfold increase in enzyme activity was seen. Direct addition of IBMX or cAMP to the enzyme assay also had a small stimulatory effect. Preincubation with the insulin secretagogues leucine and alpha-ketoisocaproic acid did not affect the enzyme activity. The possible function of the enzyme in pancreatic islets is discussed in relation to hypotheses given for the function of similar enzyme(s) in other tissues.
Diabetes 1986 Oct
PMID:Presence of ATP-pyrophosphohydrolase in mouse pancreatic islets. 242 87

From February 1981 to January 1984, 20 patients with a tumor of the upper clivus received proton irradiation at the Harvard Cyclotron Laboratory. For 15 patients with known neurovisual status (including visual acuity, color vision, visual field, and fundus examinations) we obtained a cumulative dose-volume histogram (DVH) of the optic nerves (ON) and the optic chiasm. The prescribed tumor doses ranged from 66.6 to 74.4 Cobalt Gray Equivalent (CGE) with a daily fraction size of 1.8 to 2.1 CGE. CGE is used because modulated protons have an RBE of 1.1 compared to 60Co. The follow-up ranged from 30 to 68 months (median 52). Two patients developed, 10 and 36 months post irradiation, a progressive visual deterioration affecting both eyes. This was attributed to an ON and a chiasm injury in one patient and to bilateral ON injury in the other patient. In the first patient, the dose-volume analysis indicated that approximately half of the ON and of the chiasm had received 65 CGE and 55 CGE, respectively. In the second patient, it indicated that a quarter of the left ON (LON) had received 55 CGE whereas the dose to the right ON (RON) was significantly less. This patient had diabetes mellitus which may be a predisposing factor. From this study, a complication rate of 20% (1/5) is observed when a substantial portion of the ON is taken to 65 CGE, while it doesn't exceed 12.5% (2/16) and 7.5% (1/13) at 55 CGE for the ON and for the chiasm, respectively. This suggests a tolerance dose implying a 10% rate of major complications close to 55 CGE. When a tumor requires a high radiation-dose, the exclusion of these structures at 55 to 60 Gy is recommended.
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PMID:Neurovisual outcome following proton radiation therapy. 254 98

Hemochromatosis is a syndrome which, when fully expressed, is manifested by melanoderma , diabetes mellitus, and liver cirrhosis, with iron overload involving parenchymal and reticuloendothelial cells in many organ systems. This clinical presentation may arise as a consequence of either hereditary or acquired abnormalities of iron overload, although the mechanisms are quite different. In hereditary hemochromatosis (also known as primary, or idiopathic, hemochromatosis), increased intestinal iron absorption leads to excessive accumulations of iron, throughout the body, particularly in parenchymal cells. In secondary forms of iron overload including transfusional hemosiderosis, alcoholic cirrhosis, thalassemia, sideroblastic anemia, and porphyria cutanea tarda, iron accumulates in the reticuloendothelial system initially, but with increasing amounts of total body iron, excessive iron deposits eventually accumulate in parenchymal cells throughout the body producing a picture indistinguishable from hereditary hemochromatosis. In this article, the course, prognosis, and therapy of iron overload will be reviewed in detail. Clinical and experimental data concerning the pathogenesis of the different forms of iron overload will be examined critically. In particular, information relating to possible abnormalities of reticuloendothelial function, intestinal mucosal iron transport, and alterations in serum and tissue isoferritin patterns in hereditary hemochromatosis will be analyzed, and possible directions for future research will be suggested. The mode of inheritance and linkage with the major histocompatibility (HLA) complex will be discussed. Theories on the pathogenesis of tissue damage by excess iron will be evaluated. Methods for measuring the extent of iron overload in clinical practice will be described, including measurements of serum iron, serum ferritin, iron absorption, cobalt excretion, desferrioxamine excretion, liver biopsy and tissue iron determinations, and HLA typing. Finally, unresolved problems in the understanding of the disease process, diagnosis, and therapy will be delineated.
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PMID:Iron overload disorders: natural history, pathogenesis, diagnosis, and therapy. 637 41

There is accumulating evidence that the metabolism of several trace elements is altered in insulin-dependent diabetes mellitus and that these nutrients might have specific roles in the pathogenesis and progress of this disease. Magnesium deficiency is the most evident disturbance of metal metabolism in diabetes mellitus. Hypomagnesemia might increase the risk of ischemic heart disease and severe retinopathy. Increased urinary loss of zinc is a commonly encountered feature of diabetes. High-dose oral zinc might enhance wound healing, although data regarding diabetes are lacking. Chromium increases tissue sensitivity to insulin and tends to raise high-density lipoprotein (HDL) cholesterol and the HDL:low-density lipoprotein ratio. Selenium is involved in processes which protect the cell against oxidative damage by peroxides produced from lipid metabolism. There is one report of elevated serum selenium in diabetic children although the clinical significance of this finding is still unclear. An insulin-like effect has recently been attributed to vanadium in experimental animals, a finding of potential interest to man. Current knowledge does not implicate iron, iodine, manganese, cobalt, nickel, silicone, fluoride, molybdenum or tin in the pathophysiology of diabetes. Appropriate trace element supplementation might prove beneficial in ameliorating some physiological deficiencies associated with diabetes and prevent or retard secondary complications. However, properly designed and well-documented trials, especially on magnesium supplementation, need to be performed before rationales for such supplementation are developed. The potential roles of vanadium, chromium and selenium in diabetes constitute challenging areas for further experimental and clinical research.
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PMID:The role of trace elements in juvenile diabetes mellitus. 640 Apr 52

Alterations in heme biosynthetic and degradative capabilities and in the activities of several heme-containing enzymes were examined in hepatic tissues of streptozotocin (STZ)-diabetic female Sprague-Dawley rats. Activities were measured 10, 30 and 90 days following the administration of STZ (65 mg/kg, i.v.). The activities of the key enzymes involved in heme synthesis, delta-aminolevulinic acid (ALA) synthase, ALA dehydratase, and uroporphyrinogen synthase, were decreased markedly in STZ-diabetic rats as compared to sham-operated animals. Furthermore, the catabolism of heme which occurs via microsomal heme oxygenase (MHO) remained unaltered in these animals. Microsomal content of heme and cytochrome P-450, and the activities of tryptophan pyrrolase and the drug-metabolizing enzymes benzo[a]pyrene (BP) hydroxylase and aniline hydroxylase, were increased in the livers of diabetic rats. By contrast, the activity of the heme-containing enzyme catalase was decreased in these animals. Cobalt chloride produced a marked increase in MHO with a concomitant decrease in microsomal content of cytochrome P-450 and its associated BP hydroxylase activity in normal as well as chronically diabetic rats. It was of interest, however, that the increase in ALA synthase that is normally produced by this metal was not seen in chronic diabetic animals. Thus, chronic diabetes produced subtle and important disruptions in cellular metabolism, which may have been the result of long-term alterations in key enzymes involved in heme synthesis.
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PMID:Heme and hemoproteins in streptozotocin-diabetic female rats. 668 50

The intravenous injection of zinc chloride immediately before and 15 minutes after alloxan or dithizone prevented the usual hyperglycaemia observed 24 hours after induction of diabetes. The intravenous injection of manganese chloride prevented any marked rise of blood glucose, while chromium and cobalt chlorides lowered the blood glucose level to a certain extent. In alloxan diabetic rats, serum GOT and GPT levels were significantly higher than normal. The serum GOT levels were higher in animals injected with chromium than cobalt, zinc and manganese; while serum GPT levels were higher in cobalt than in chromium, zinc and manganese. In dithizone diabetes, serum GOT and GPT were increased in animals injected with cobalt than chromium, zinc and manganese. Alloxan diabetic rats showed lower serum alkaline phosphatase levels and higher in animals injected with cobalt than chromium, zinc and manganese. For dithizone, there are statistically significant differences in all cases. In alloxan diabetes, coeruloplasmin was higher than normal, while intravenous injection of dithizone was without effect on serum coeruloplasmin.
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PMID:Serum enzyme changes due to trace amounts of some transition metal ions on the induction of experimental diabetes. 742 63


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