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Query: CAS:54166-09-5 (hexitol)
168 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Accumulating amino acid sequence data have made it increasingly evident that many essential complement proteins have potentially modifiable lysine residues in putative critical functional regions. Evidence is now presented that glucose is covalently attached to lysine-266 of purified human complement Factor B as a result of glycation. Purified B was treated with NaB3H4, which reduces such bound glucose to a mixture of radiolabelled hexitols. Amino acid analysis revealed the expected radiolabelled hexitol-lysine epimers. In addition, fluorography of dried gels resolving the major high-molecular-mass h.p.l.c.-fractionated CNBr-cleavage peptides of NaB3H4-reduced B indicated that this radioactivity was specifically associated with the 15 kDa fragment derived from the N-terminal region of fragment Bb. Amino acid sequence analysis suggested that the C-terminal lysine (residue 266 of B) of the N-terminal Lys-Lys doublet of this peptide is preferentially modified. If such glycation can subsequently be shown to occur in vivo, then perhaps this modification might also be found to affect the functional activity of B and offer a potential explanation for some of the immunopathological complications of diseases exposing key plasma proteins, such as this active-site-containing proteinase of the multimeric alternative-complement-pathway C3/C5 convertases, to long-term high concentrations of glucose, such as the decreased resistance to infection and impaired chemotaxis and phagocytosis characteristic of diabetes.
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PMID:The principal site of glycation of human complement factor B. 200 11

To explore the significance of hyperglycaemia as a causal factor for the appearance of diabetic angiopathies we investigated aspects of myo-inositol metabolism in porcine aortic endothelial cells. myo-Inositol was shown to be a long-living metabolite. Its uptake into the cells was mediated by a high-affinity, Na(+)-dependent uptake system inhibitable by ouabain with an apparent KM of 18.6 mumols/l, which was responsible for more than 80% of total uptake at physiological myo-inositol concentrations. Inhibition of inositol uptake by D-glucose was exclusively competitive with an apparent Ki of 24 mmol/l as shown by Lineweaver-Burk- and Dixon-plot analysis. The specificity of competitive inhibition was studied. L-Glucose which is stereochemically related to myo-inositol in the same way as the D-isomer proved to be an equally potent inhibitor. The hexoses D-galactose, D-mannose and D-fructose inhibited myo-inositol uptake to a minor extent. D-allose and 3-O-methyl-D-glucose had no inhibitory effect indicating that the OH-group of the carbon atom in 3 position is essential for the interaction with the carrier. The acyclic hexitol sorbitol also did not compete. As expected, the aldose reductase blocker sorbinil did not influence the carrier since there is no polyol pathway operating in porcine aortic endothelial cells. In accordance with the results of the uptake experiments, the incorporation of exogenous myo-inositol into membrane phosphatidylinositol was reduced at elevated extracellular glucose levels. The results raise the possibility that hyperglycaemia impairs endothelial inositol supply.
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PMID:Competitive inhibition by glucose of myo-inositol incorporation into cultured porcine aortic endothelial cells. 210 31

We studied the ability of Cryptococcus neoformans to produce the hexitol D-mannitol in vitro and in rabbits with experimental meningitis. Twelve of twelve human isolates of C. neoformans produced D-mannitol in yeast nitrogen base plus 1% glucose and released D-mannitol into the medium. In a pilot study, pooled cerebrospinal fluid (CSF) from cortisone-treated rabbits given 3 x 10(7) C. neoformans H99 intracisternally contained more D-mannitol (identified by gas chromatography and enzymatically) than CSF from normal controls or cortisone-untreated rabbits with self-limited meningitis. In a second experiment, cortisone-treated rabbits given C. neoformans intracisternally had significantly higher CSF D-mannitol concentrations than controls given cortisone alone at 4, 6, and 8 days after infection. Moreover, log10 CSF D-mannitol correlated well with log10 CSF CFU (r = 0.81) and log10 CSF cryptococcal antigen titers (r = 0.78). Lastly, the initial volume of distribution and elimination half-life of D-mannitol given intracisternally to normal rabbits suggested that D-mannitol was distributed in total CSF and was removed by CSF bulk flow. Thus, C. neoformans produces D-mannitol in vitro and in vivo, and D-mannitol is a quantitative marker for experimental cryptococcal meningitis. D-Mannitol produced by C. neoformans may also contribute to brain edema and interfere with phagocyte killing by scavenging hydroxyl radicals.
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PMID:Production of the hexitol D-mannitol by Cryptococcus neoformans in vitro and in rabbits with experimental meningitis. 211 Dec 84

Hyperglycemia has been implicated in the development of retinal vascular disease. Consequently, the effects of excessive hexose concentration on cells of the vascular wall are receiving increasing attention. Techniques for isolating metabolically active microvessels from tissues such as those from the retina and cerebral cortex are providing new opportunities for the study of the uptake and metabolism of hexose by microvessels. Such studies indicate that hexose uptake by microvessels is not insulin dependent and that microvessels are capable of metabolizing hexose by pathways common to many diverse tissues, including anaerobic and aerobic glycolysis, pentose phosphate shunt, and glycogenogenesis. Microvessels isolated from diabetic animals metabolize glucose at a subnormal rate. Hexitol production and accumulation has been implicated in the pathogenesis of diabetic complications in a variety of tissues and might also play a role in the development of diabetic microvascular disease. We have quantitated hexitol-producing metabolic activity of retinal and cerebral microvessels isolated from dogs, a species known to develop a retinopathy similar to that seen in diabetic patients. Erythrocytes were removed by perfusion prior to microvessel isolation because they are known to have hexitol-producing activity. Both retinal and cerebral microvessels produce galactitol from galactose, and this activity is inhibited in the presence of the aldose reductase inhibitor sorbinil. The presence of hexitol-producing activity within microvessels is consistent with a possible role of polyol production in the etiology of diabetic microvascular disease.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Microvascular metabolism in diabetes. 308 6

Incubation of carbohydrate-free human serum albumin (HSA) with fructose in an aqueous buffer at pH 7.4 resulted in glycation of epsilon-amino groups of lysyl residues. A recently developed procedure, involving analysis of hexitol amino acids by high-performance liquid chromatography of phenylthiocarbamyl derivatives, was used to show that 85% of the bound hexose was attached to protein via carbon 2 (C-2). The remainder was attached to protein via carbon 1 (C-1). When incubations were conducted with glucose under identical conditions, all the hexose was attached via C-1. Examination of human ocular lens proteins showed that the majority of the covalently bound hexose was connected to epsilon-amino groups of lysyl residues via C-1; this was attributed mainly to nonenzymatic glucosylation in vivo, which has already been documented. A significant proportion (10-20%) of the bound hexose was connected via C-2. In view of the HSA-hexose incubation results (above), this indicated that the lens proteins had reacted with endogenous fructose; i.e., they had undergone nonenzymatic fructosylation in vivo. The model protein bovine pancreatic ribonuclease A reacted with fructose and glucose at similar rates under physiological conditions. However, covalent, non-disulfide cross-linking, which could be inhibited by D-penicillamine, was induced 10 times more rapidly by fructose than by glucose. It is postulated that some of the protein cross-linking that occurs in vivo is fructose-induced. The possible significance of these processes in diabetic subjects is discussed.
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PMID:Role of fructose in glycation and cross-linking of proteins. 313 3

In Escherichia coli K-12 the proteins involved in the dissimilation of mannitol and sorbitol are specified by two separate gene clusters. The mannitol cluster appears to consist of a regulatory gene mtlC, a gene mtlA coding an enzyme II complex of the phosphoenolpyruvate phosphotransferase system, and a gene mtlD coding a mannitol-1-phosphate dehydrogenase. Three corresponding genes, sblC, sblA, and sblD, exist for the sorbitol pathway. In both pathways the hexitol captured from the medium and delivered into the cytoplasm as a phosphorylated compound is dehydrogenated to fructose-6-phosphate. The enzyme II complex for sorbitol is able to catalyze the phosphorylation also of mannitol if this substrate is present at high concentrations. Consequently mtlA(-) mutants lacking the enzyme II complex for mannitol can grow on mannitol either if the sorbitol phosphorylating system is preinduced by sorbitol or if mtlA is suppressed by a mutation of sblC to constitutivity. In wild-type cells, the induction of the enzymes in the mannitol pathway and dissimilation of the substrate are not prevented by glucose. The sorbitol system, however, is sensitive to glucose and to mannitol as well. In the suppressed strains (mtlA(-), sblC(c)) in which mannitol is utilized through the sorbitol enzyme, glucose becomes effective in restraining the consumption of mannitol, causing a definite diauxie. Moreover, in a mixture of mannitol and sorbitol, the latter is utilized preferentially. This reversal of normal diauxic pattern is consequent to the fact that the enzyme II complex for sorbitol has relatively poor affinity for mannitol.
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PMID:Reversal of the mannitol-sorbitol diauxie in Escherichia coli. 456 79

The uptake of mannitol, a nonmetabolized hexitol, by Saccharomyces cerevisiae was measured. Various characteristics examined include: effects of temperature on uptake, inhibition of uptake by uranyl nitrate, competition for uptake by glucose, counterflow of mannitol by glucose, and the affinity of mannitol for a carrier system as measured by a Michaelis constant. That energy is required for uptake was shown by a decreased uptake in the presence of energy inhibitors, by an increased uptake upon addition of energy sources, and by the absence of uptake under anaerobic conditions with no fermentable energy sources available. That mannitol is bound to some cellular constituent after it enters the cell was shown by its attachment to non-dialyzable cell fragments and by the lack of an osmotic response, both of which are consistent with a minimal efflux.
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PMID:Mannitol utake by Saccharomyces cerevisiae. 554 89

Growth of Pseudomonas cepacia on fructose, mannitol, or sorbitol depended on formation of an inducible fructokinase (forming fructose-6-phosphate) and the presence of enzymes of the Entner-Doudoroff pathway. Mutants deficient in any of these enzymes failed to utilize the aforementioned carbohydrates. Fructokinase deficiency did not affect growth of the bacteria on glucose. Fructose was accumulated intracellularly by active transport. Mutants blocked in transport of fructose grew normally on mannitol or sorbitol despite their inability to utilize fructose. Growth on either of these hexitols or on galactitol was accompanied by induction of two hexitol dehydrogenases, one active primarily with mannitol and the other active with sorbitol and galactitol. As expected, a mutant deficient in mannitol dehydrogenase failed to utilize mannitol as a carbon and energy source but grew normally on sorbitol and galactitol. Extracts of bacteria grown on fructose, mannitol, or sorbitol and higher levels of phosphoglucose isomerase than extracts of bacteria grown on alternate carbon sources such as citrate or phthalate. The higher levels were due to appearance of a second phosphoglucose isomerase species not present in cells with the lower activity. The results indicate that the initial steps in fructose utilization by P. cepacia differ from those of most other pseudomonads, which transport fructose by phosphoenolpyruvate-dependent translocation, forming fructose-1-phosphate, and suggest that degradation of fructose, mannitol, and sorbitol occurs primarily via the Entner-Doudoroff pathway.
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PMID:Enzymes related to fructose utilization in Pseudomonas cepacia. 628 Dec 43

The gas chromatographic separation of several monosaccharides and related sugars derivatized by methoxylation and trimethylsilylation reactions was optimized with glass capillary (SP-2250) and fused silica (SP-2100) columns. Individual sugars included aldoses, ketoses, polyols, acidic forms and N-acetylated amino sugars. Peaks were detected by selected ion monitoring (SIM). The fused silica column gave complete resolution of all peaks (two per hexose and one per hexitol) arising from glucose, galactose, mannose, fructose, sorbitol, mannitol and dulcitol. The resolution of these sugars with the glass capillary column was not as good, but full differentiation was possible on the basis of SIM. Because the fused silica column gave a better resolution of 33 sugars tested and was more easily installed than the glass capillary column, it was utilized for quantitative analysis. A deuterated algal sugar mixture used for quantitation by isotope dilution was found to contain glucose, galactose, mannose, xylose, arabinose, ribose and rhamnose. Full recoveries were obtained of various amounts of glucose, galactose, mannose, fructose and xylose added to human serum.
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PMID:Glass capillary or fused-silica gas chromatography--mass spectrometry of several monosaccharides and related sugars: improved resolution. 629 May 15

Regulation of hexitol catabolism was investigated in Streptococcus mutans, a cariogenic human dental plaque bacterium. Induction of hexitol catabolic enzymes and phosphoenolpyruvate:hexitol phosphotransferase and hexitol phosphate dehydrogenase activities was regulated by an inducer exclusion mechanism initiated by D-glucose and 2-deoxy-D-glucose. Kinetic analysis of the inhibitory effect of 2-deoxy-D-glucose on initial hexitol uptake illustrated that this was a noncompetitive type of inhibition. In mutant strains of S. mutans lacking phosphoenolpyruvate:glucose phosphotransferase activity, 2-deoxy-D-glucose was unable to inhibit hexitol uptake. These observations provide evidence for possible molecular mechanisms for the exclusion process.
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PMID:Regulation of hexitol catabolism in Streptococcus mutans. 640 8


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