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)

Accumulation of acetylcholinesterase (AChE) and choline acetylase (ChAc) activities proximal to a tie placed on the sciatic nerve was measured in control, untreated diabetic, and insulin-treated diabetic rats. In the diabetic animals AChE accumulation was reduced by about 20% and ChAc accumulation by about 40%. Insulin treatment eliminated the impairment. It remains an open question whether these reversible functional changes in rat have any counterpart in the diabetic neuropathy of man.
Diabetes 1975 Dec
PMID:Fast and slow axoplasmic flow in sciatic nerve of diabetic rats. 5 67

Quantitative radiometric assays were employed to measure activities of choline acetyltransferase and acetylcholinesterase in freeze-dried pieces of islets of Langerhans and exocrine tissue from rat pancreas. The activities of both enzymes were about an order of magnitude higher in islets than in exocrine tissue. This difference in activity was found in rats made diabetic with streptozotocin as well as in the controls. Although the enzyme activities in islets from diabetic rats averaged about 30-40% higher than those in islets from control rats, the differences were statistically only marginally significant. Since the islets of diabetic rats are probably much smaller than those of control rats, it is suggested that cholinergic elements associated with pancreatic islets are lost following induction of streptozotocin diabetes.
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PMID:Enzymes of the cholinergic system in islets of Langerhans. 12 56

We measured the cholinesterase activity in morning urines from 63 insulin-dependent diabetics and 27 controls. The total esterase (TotE) activity (Ellman's method) has been divided into aliesterase (AliE), pseudocholinesterase and acetylcholinesterase by means of two inhibitors, eserine and quinidine. Diabetics were divided in 2 groups according to the urinary albumin/creatinine ratio (mg/mmol, < 2 in group 1, > 2 in group 2). The urinary cholinesterase behavior was correlated with that of a known tubular lysosomal hydrolase, N-acetyl-beta-D-glucosaminidase (NAG). Compared to normals, in addition to a significant increase in urinary NAG in diabetes (in group 2 more than in group 1), TotE and AliE were also significantly raised (+36% and 109% of the controls, in group 1 as much as in group 2).
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PMID:Urinary cholinesterase activity is increased in insulin-dependent diabetics: further evidence of diabetic tubular dysfunction. 130 57

Various alterations of red blood cell (RBC) plasma membrane appear both in diabetes mellitus and during the physiological aging process. Diabetes mellitus decreases RBC life-span; therefore, it may change the plasma membrane by acting through its effect on the aging process. In order to clarify the issue, RBCs from normal subjects and insulin-dependent diabetic patients were fractionated in five subpopulations of different mean age (fraction 1: early young RBC, fraction 5: mature RBC). Thereafter, plasma membranes were prepared and enzymatic activities, membrane fluidity and lipid peroxidation were evaluated. NA+, K(+)-ATPase activity decreased during aging and it was higher in all RBC subpopulations from normal subjects in comparison to diabetic patients. Next, lipid peroxidation and fluidity increased during aging in both the study groups; in this case, however, in all subpopulations, except for that from fraction 1, RBCs from diabetic patients showed higher membrane fluidity and lipid peroxidation in comparison to normal subjects. Data herein reported suggest that diabetes mellitus affects the plasma membrane independently of (lipid peroxidation and fluidity) or dependently on (Na+, K(+)-ATPase) its effect on aging. In the case of lipid peroxidation and fluidity diabetes mellitus seems to affect the membrane by decreasing RBC life span, whereas in the case of Na+K(+)-ATPase it seems to alter this enzymatic activity which in turn might affect RBC aging. Acetylcholinesterase activity decreased during aging in RBCs from normal subjects, but it increased in RBCs from diabetic patients; RBC subpopulation from fraction 1, on the other hand, showed similar values in normal subjects and diabetic patients. In this case the effect of diabetes mellitus appears only during aging.
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PMID:Diabetes mellitus induces red blood cell plasma membrane alterations possibly affecting the aging process. 131 17

A syngeneic transplantation of 150 islets into the subcapsular renal space was performed on normoglycemic or alloxan-induced diabetic male C57BL/6 mice. Six, 8, 14, or 20-21 wk after transplantation, the graft-bearing kidney was removed and processed for microscopical examinations with indirect immunofluorescence for neuropeptides and tyrosine hydroxylase, and with acetylcholinesterase staining to visualize nerve fibers within the graft. Six weeks after implantation, only a few scattered nerve fibers were observed within the grafts. A progressive increase in the number of nerves was observed until 14 wk after transplantation, after which, a stable level was reached. Alloxan-induced diabetic mice showed quantitatively and qualitatively similar reinnervation to normoglycemic mice 20 wk after transplantation. The findings demonstrate the presence of sympathetic nerve fibers (containing tyrosine hydroxylase and neuropeptide Y), mainly accompanying ingrowing blood vessels; parasympathetic nerve fibers (containing acetylcholinesterase and vasoactive intestinal peptide), possibly reaching the graft from the adjacent renal capsule; and afferent nerve fibers (containing substance P and calcitonin gene-related peptide), which were less numerous. The data suggest that transplanted islets become reinnervated by ingrowth of nerve fibers from the implantation organ and that several types of nerves are present.
Diabetes 1992 Feb
PMID:Reinnervation of syngeneic mouse pancreatic islets transplanted into renal subcapsular space. 134 84

Antenatal serum screening for Down's syndrome is now becoming established in many centers throughout the world. The screening method is based on the measurement of alpha-fetoprotein, unconjugated estriol, and human chorionic gonadotropin between 15 and 22 weeks of pregnancy. These measurements, used in conjunction with a woman's age, provide risk estimates of having a pregnancy with Down's syndrome for every woman screened. By identifying the 5% of women with highest risk and offering them an amniocentesis, about 60% of Down's syndrome pregnancies can be identified. If an ultrasound scan examination is used routinely to estimate gestational age, the detection rate can be increased by 5% to 10%. Recent information on the distribution of the three serum markers in twin pregnancies and pregnancies with insulin-dependent diabetes mellitus now means that screening can be carried out in such pregnancies. Various other serum markers of Down's syndrome have been reported, but at present they do not have a place in routine antenatal screening for Down's syndrome. The role of amniotic fluid acetylcholinesterase measurement, alone and in combination with amniotic fluid alpha-fetoprotein measurement, in the antenatal diagnosis of open neural tube defects has recently been clarified. The best policy is to perform an amniotic fluid alpha-fetoprotein measurement as the primary test and an acetylcholinesterase determination for those women who have an amniotic fluid alpha-fetoprotein measurement of two times the normal median or greater. The acetylcholinesterase can be measured either by the standard method (gel electrophoresis) or by a new quantitative monoclonal antibody method.
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PMID:Prenatal biochemical screening for Down's syndrome and neural tube defects. 137 63

This study investigates the alteration of serum cholinesterase levels in diabetics and its possible relationship to blood glucose, insulin, triglyceride, and cholesterol levels. Fourteen phasic insulin-dependent diabetes mellitus patients were compared with 10 insulin-dependent diabetes mellitus, 10 noninsulin-dependent diabetes mellitus, and 10 normal controls. Each group was matched for age, sex, body mass index, and duration of diabetes. Mean age was 56.7 +/- 2.5 years; mean body mass index, 24.0 +/- 0.8 kg/m2; and mean duration of diabetes, 14.2 +/- 2.2 years. Serum acetylcholinesterase, insulin, triglyceride, and cholesterol levels as well as fasting blood sugar were all assayed using standard techniques. Results suggest an associated increase of serum acetylcholinesterase with triglyceride levels in diabetics and may point to a possible association between increased serum acetylcholinesterase and vascular complications in Jamaican diabetics.
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PMID:Change in serum cholinesterase activity in Jamaican diabetics. 140 60

In vivo age-related changes in membrane fluidity of erythrocytes were investigated by a spin label method after fractionation of the cells by discontinuous density gradient centrifugation. Membrane fluidity was lower in older than in younger erythrocytes in both the normal and diabetic subjects. Cells from diabetic subjects showed a significantly lower level of membrane fluidity for all three age groups (younger, middle and older) than the corresponding cells from normal subjects. The magnitude of progression in the decrease in membrane fluidity in erythrocytes did not differ significantly between both groups of subjects. Both erythrocyte ATP and acetylcholinesterase activity declined, while glycosylated hemoglobin (HbA1c) increased with cell age in both groups of subjects. The HbA1c level in each corresponding fraction was higher in diabetic subjects than normal subjects, but was not correlated with membrane fluidity in either group. Neither the ATP level nor acetylcholinesterase activity in each corresponding fraction differed between groups. Membrane fluidity was significantly correlated with acetylcholinesterase activity in both normal and diabetic subjects. Our results indicate that decreased erythrocyte membrane fluidity in diabetic patients does not form gradually during their life span but develops soon after the cells enter the circulation or during their maturation in the bone marrow.
Diabetes Res Clin Pract 1992 Apr
PMID:Lowered membrane fluidity of younger erythrocytes in diabetes. 157 26

Na-K ATPase activity in the brain decreased significantly after diabetes was induced with streptozotocin in rats. Largest decreases were observed in the hippocampus (-30%) and the cerebral cortex (-26%). Smaller decreases were observed in the thalamus (-13%), hypothalamus (-11%) and brain stem (-10%). Na-K ATPase activity in the striatum and the cerebellum were not significantly decreased. The varied decreases suggest that the regional variation of the enzyme is enhanced in the diabetic state. The enzymes of glucose metabolic pathway, namely hexokinase, lactate dehydrogenase and citrate synthase in the brain regions largely remained unchanged although increases in lactate dehydrogenase were observed in some regions. Acetylcholinesterase activity, a marker for the cholinergic system, remains unaltered in the brain during diabetes. The results are discussed with respect to the possible metabolic factors which alter the Na-K ATPase in the brain and its comparison with the peripheral nerve.
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PMID:Diabetes induced by streptozotocin causes reduced Na-K ATPase in the brain. 166 46

The effect of hyperglycemia due to experimental diabetes induced in rats, causes a decrease in the activity of Acetylcholinesterase in brain regions and heart; changes in the heart being more significant than the brain. Insulin administration reversed this effect in both the hear and the brain. Significant increase in the levels of catecholamines were also found in the brain regions in diabetes, which was reversed by insulin. The decreased activity of acetylcholinesterase observed in diabetes may be due to an early impaired glucose oxidation and glucose transport as a result of lack of insulin, which causes specific alterations in neurotransmitter levels, thereby effecting blood brain barrier transport, thus causing brain dysfunction.
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PMID:Effect of hyperglycemia on acetylcholinesterase and catecholamine levels in rat brain and heart. 185 30

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