Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0011849 (diabetes)
 277,896 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effect of oral administration of THI, a compound present in ammonia caramel food colouring, was studied in spontaneous and induced murine diabetes mellitus. Continuous administration of THI at 400 ppm in drinking water reduced the prevalence of spontaneous diabetes in female NOD/Lt mice from 63% in untreated controls to 8% in treated animals. Since cyclophosphamide (CP) accelerates and intensifies diabetes in NOD mice, we also studied the effect of THI in this model. Diabetes incidence was reduced from 100% in mice given only CP to 13-14% in mice given THI either concurrently or from 14 days previously. Histologically, THI greatly reduced the severity of insulitis. As measured by flow cytometry, all THI-treated mice had a 60-80% reduction in splenic CD4+ and CD8+ T cells. THI-treated mice showed no untoward effects and specifically no weight loss, or pathological changes in their livers, kidneys or lungs. However, there was moderate atrophy of the thymus cortex. THI is a small imidazole-containing compound with structural similarity to histamine and urocanic acid, both known to have immunosuppressive properties. It is a widely used food additive with no known long-term toxic effects at low dosage. Thus, THI could be a useful immunosuppressive agent.
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PMID:Prevention of spontaneous and cyclophosphamide-induced diabetes in non-obese diabetic (NOD) mice with oral 2-acetyl-4-tetrahydroxybutylimidazole (THI), a component of caramel colouring III. 160 24

To investigate the metabolic fates of glutamine in splenocytes from the BB rat with spontaneous immunologically mediated insulin-dependent diabetes, freshly isolated cells were incubated in Krebs-Ringer Hepes buffer with 1.0 mM-[U-14C]glutamine and 0, 4 mM- or 15 mM-glucose. (1) The major products of glutamine metabolism in splenocytes from normal and diabetic rats were ammonia, glutamate, aspartate and CO2. (2) The addition of glucose increased (P less than 0.01) glutamate production, but decreased (P less than 0.01) aspartate and CO2 production from glutamine, as compared with the values obtained in the absence of glucose. However, there were no differences in these metabolites of glutamine at 4 mM- and 15 mM-glucose. (3) At all glucose concentrations used, the productions of ammonia, glutamate, aspartate and CO2 from glutamine were all markedly increased (P less than 0.01) in splenocytes from diabetic rats. (4) Potential ATP production from glutamine in the splenocytes was similar to that from glucose, and was increased in cells from the diabetic rat. (5) ATP concentrations were increased (P less than 0.01) in diabetic-rat splenocytes in the presence of glutamine with or without glucose. (6) Our results demonstrate that glutamine is an important energy substrate for splenocytes and suggest that the increased glutamine metabolism may be associated with the activation of certain subsets of splenocytes in the immunologically mediated diabetic syndrome.
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PMID:Elevated glutamine metabolism in splenocytes from spontaneously diabetic BB rats. 167 65

Metabolism of glutamine (Gln, 2 mM) and glucose (5 mM) was studied in vitro in isolated resident peritoneal macrophages from both normal (BBn) and spontaneously diabetic BB (BBd) rats. The major products from Gln were ammonia, glutamate, CO2 and to a lesser extent aspartate. Glucose decreased (P less than 0.01) the production of ammonia, CO2 and aspartate from Gln by 34-60%, but had no effect on the amount of glutamate accumulated. The major products from glucose were lactate and to a much lesser extent pyruvate and CO2. Gln decreased (P less than 0.01) 14CO2 production from [U-14C]glucose by 19-28%, increased (P less than 0.01) pyruvate production by 35-49%, but had no effect on lactate production. The fraction of glucose metabolized via the pentose phosphate pathway (PC) was less than 5%. There were no significant differences in Gln metabolism between BBn and BBd macrophages. The production of lactate and pyruvate and the flux from glucose into the PC were increased (P less than 0.01) by 2.4, 1.8 and 1.5-fold, respectively, in BBd cells. Increased macrophage glucose metabolism was also observed in diabetes-prone BB (BBdp) rats at 75-80 days but not at 50 days of age. In the presence of both Gln and glucose, potential ATP production from glucose was 2- and 4-times that from Gln, respectively, in BBn and BBd cells. Lactate production was the major pathway for glucose-derived ATP generation. These results demonstrate (a) glycolysis and flux from glucose through the pentose phosphate pathway are enhanced with no alteration in glutaminolysis in BBd macrophages; and (b) glucose may be a more important fuel than Gln for macrophages, particularly in BBd rats. The increased glucose metabolism may be associated with functional activation of the macrophages that have been proposed to be involved in beta-cell destruction and the development of diabetes.
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PMID:Glucose and glutamine metabolism in rat macrophages: enhanced glycolysis and unaltered glutaminolysis in spontaneously diabetic BB rats. 176 69

During studies performed on domestic cats made acidotic with ammonium chloride, it was found that the cat kidney is unable to adapt to metabolic acidosis. Renal proximal tubules do not increase their production of ammonia or glucose from glutamine during acidosis. During in vivo studies, the renal excretion of ammonia did not change much during acidosis. Other metabolic parameters in the cat were not very different from those found in other animals such as rat or dog. However, it was found that cats may show a relatively high plasma glucose concentration compared with other animals. Plasma insulin concentration was normal, and the animals showed no evidence of diabetes mellitus. It is not known whether limitation of ammoniagenesis and elevated plasma glucose concentration also characterize larger felidae such as panthers and cougars.
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PMID:Metabolic characteristics of cat kidney: failure to adapt to metabolic acidosis. 197 42

Recent experiments from our laboratory have documented the importance of ammonia as a modulator of renal cell growth in vitro. Ammonia induces renal hypertrophy by increasing the rate of protein synthesis and decreasing the rate of protein degradation. These results have led to the hypothesis that an increase in renal ammoniagenesis contributes to renal growth in several seemingly unrelated clinical disorders. In chronic hypokalemia and metabolic acidosis, mitochondrial ammoniagenesis is stimulated directly. During protein loading, uninephrectomy, and diabetes mellitus, renal ammoniagenesis may be stimulated by an increase in single-nephron glomerular filtration rate (SNGFR).
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PMID:Role of ammonia in the induction of renal hypertrophy. 204 42

Loss of renal mass evokes increased ammoniagenesis in surviving nephrons, which in turn enables net acid excretion by the kidney. However, this compensatory increase in ammonia production in surviving nephrons triggers the alternative complement pathway, thereby instigating progressive tubulointerstitial injury. Ammonia has recently been identified as a stimulus to renal growth. Enhanced renal growth may serve as a forerunner for renal injury. The growth-promoting properties of ammonia may provide another mechanism through which augmented ammoniagenesis may underlie the enhancement of renal growth and injury observed in such models as the remnant kidney, hypokalemic nephropathy, high protein feeding, experimental diabetes nephropathy, and dietary deficiency of antioxidants.
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PMID:Increased ammoniagenesis as a determinant of progressive renal injury. 204 43

Energy stores and intermediates of carbohydrate metabolism were investigated in the freeze-clamped cerebral cortex of the fetus and fasted neonate born to a diabetic canine mother. Prior studies in these same pups demonstrated circulating hyperinsulinemia, depressed free fatty acid levels, and attenuated gluconeogenesis. Hepatic and muscle tissue also demonstrated augmented levels of glycogen, triglycerides, and amino acids. In the present investigation, cerebral tissue from these same pups of diabetic mothers also demonstrated enhanced fetal cerebral glucose and glycogen content. After 24 h of neonatal fasting, cerebral glycogen content declined to values lower than in control pups. Cerebral cortical levels of glucose-6-phosphate, fructose-6-phosphate, lactate, citrate, alpha-ketoglutarate, and malate were not altered, while oxaloacetate was higher at 3 and 9 h and fructose-1,6-diphosphate was higher at 9 and 24 h in the IDM pups. Adenine nucleotide levels and the energy charge were equivalent to those in control pups at each time interval. In contrast, cerebral cortical amino acids of the glutamate group were enhanced in the fetus or neonate of the diabetic mother. Cerebral cortical alanine was increased from 3 to 24 h while aspartate and glutamate were augmented in the fetus and fasted IDM newborn pup. Glutamine was increased at 6 and 24 h, while gamma-aminobutyrate was elevated in the fetus. Cerebral ammonia concentration was not altered. The augmented stores of cerebral carbohydrate and amino acid pools in the fetus and neonate after maternal canine diabetes may serve as oxidizable substrates for the brain during periods of attenuated systemic fuel availability.(ABSTRACT TRUNCATED AT 250 WORDS)
Diabetes 1985 Feb
PMID:Enhanced cerebral substrate pools in the fetus and neonate of the diabetic canine mother. 285 42

Metabolic profiling of urinary organic acids from patients with juvenile-onset (Type 1) diabetes mellitus have revealed significantly elevated levels of 2-hydroxybutyric and 4-deoxythreonic acids. To test the hypothesis that these metabolites, as well as 4-deoxyerythronic acid, are derived from L-threonine, stable isotope-labeled threonine was infused into an insulin-deficient dog and the incorporation of 13C into these metabolites was monitored by gas chromatography/mass spectrometry. Electron ionization was relatively insensitive, but positive chemical ionization with ammonia as the reactant gas gave both protonated molecules and [M + NH4]+ ions, which could be analysed by selected ion monitoring. The isotope-labeled species of 2-hydroxybutyric, 4-deoxyerythronic and 4-deoxythreonic acids were observed, but 13C was not incorporated into other organic acids. Thus, it is proposed that L-threonine is a precursor of these metabolites.
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PMID:Urinary metabolites of L-threonine in type 1 diabetes determined by combined gas chromatography/chemical ionization mass spectrometry. 294 47

The liver is the "glucostat" of the organism and serves at the same time as an "ammonia-sink and pH stat". The key enzymes involved in glucose uptake and release and in urea and glutamine formation are reciprocally distributed over the liver parenchyma: The glucogenic enzymes phosphoenolpyruvate carboxykinase (PEPCK), fructosebisphosphatase (FBPase) and glucose-6-phosphatase (G6Pase) as well as the ureagenic enzyme carbamoylphosphate synthetase (CAPS) are predominant in the periportal zone. The glycolytic enzymes glucokinase (GK) and pyruvate kinase type L (PKL) as well as the glutaminogenic enzyme glutamine synthetase (GluNS) are prevalent in the perivenous zone. This heterogeneity appears to be a prerequisite for the normal "glucostat, ammonia-sink and pH-stat" function of the liver. After birth the liver is a gluconeogenic organ, only with weaning it becomes a "glycolytic/gluconeogenic" glucostat. In the rat zonation of PEPCK, G6Pase and CAPS developed gradually after birth and was completed before weaning, i.e. before it would be functionally required. After 2/3 partial hepatectomy the liver looses its normal glucostat function and becomes a gluconeogenic organ. With this change the zonation of PEPCK and PKL were also lost; it was restored only during the second week after operation. During starvation the liver also looses its glucostat function to become the major glucose supplier of the organism. Zonation of PEPCK and PKL were diminished to such an extent that the major function of the perivenous zone was altered from glucose uptake to release. In diabetes the liver does not loose its glucostat function; however, the function is severely impaired. Zonation of PEPCK was increased and that of PKL decreased in such a manner that the major function of the perivenous zone, glucose uptake, was not entirely changed but only diminished. It can be concluded that in the various physiological states studied the zonation of enzymes correlated well with the glucostat function of the liver.
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PMID:Dynamics of zonal hepatocyte heterogeneity. Perinatal development and adaptive alterations during regeneration after partial hepatectomy, starvation and diabetes. 301 Mar 76

Epidemiological data from different populations have suggested positive relationships between the incidence of colon cancer and meat and fat intake and a negative relationship with dietary fiber consumption. Within population comparisons have been less clearcut. Current theories on colonic carcinogenesis in man involve increased concentrations of bile acids and their metabolites, alterations in colonic pH, low Ca++, raised NH3 and long chain fatty acid levels, and alterations in bacterial numbers, type, and metabolic capabilities. The many laboratory studies in rats have been difficult to interpret since powerful initiators of carcinogenesis are always required and this rather than the promotion of spontaneous neoplastic change is the sine qua non for tumor growth in this situation. The current dilemma highlights the lack of knowledge of most aspects of human colonic physiology. Until these issues are more clearly resolved the epidemiological leads would point to low fat diets rich in less processed starchy foods with increased fiber as possible protection. Such advice is in common with the pronouncements of heart foundations, diabetes associations, and recommendations of official bodies to the general public.
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PMID:Cancer risk: possible protective role of high carbohydrate high fiber diets. 302 Sep 71


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