Screening of yeasts for production of xylitol fromd-xylose and some factors which affect xylitol yield inCandida guilliermondii

Summary The ability to convertd-xylose to xylitol was screened in 44 yeasts from five genera. All but two of the strains produced some xylitol with varying rates and yields. The best xylitol producers were localized largely in the speciesCandida guilliermondii andC. tropicalis. Factors affecting xylitol production by a selectedC. guilliermondii strain, FTI-20037, were investigated. The results showed that xylitol yield by this strain was affected by the nitrogen source. Yield was highest at 30–35°C, and could be increased with decreasing aeration rate. Using high cell density and a defined medium under aerobic conditions, xylitol yield byC. guilliermondii FTI-20037 from 104 g/ld-xylose was found to be 77.2 g/l. This represented a yield of 81% of the theoretical value, which was computed to be 0.9 mol xylitol per mold-xylose.Issued as NRCC publication No. 28798.     

Enzymatic Regeneration of NAD in Enantioselective Oxidation of Secondary Alcohols: Glutamate Dehydrogenase Versus NADH Dehydrogenase

To improve yield and productivity of ketose in NAD-dependent polyol oxidations, two enzymatic methods for regeneration of the oxidized coenzyme form have been compared and partly optimized for the batch conversion of xylitol into D-xylulose and D-sorbitol into D-fructose. Polyol oxidation was catalyzed by xylitol dehydrogenase from the yeast Galactocandida mastotermitis. Reduction of OM₂ (apparently to H₂O) by partially purified NADH dehydrogenase complex from Corynebacterium callunae could drive alcohol oxidations better than reductive amination of EaL-ketoglutarate by glutamate dehydrogenase. A fed-batch procedure was developed that overcame inhibition of glutamate dehydrogenase by α-ketoglutarate (K_is 25 mM), thus increasing the productivity of ketose almost 2-fold. For D-fructose production from D-sorbitol (0.1-0.3M) yields of < 90% and productivities up to 1.30g/(L.h) have been obtained. High conversion of up to 50g/L xylitol into D-xylulose for which xylitol dehydrogenase exhibits an about 80-fold higher specificity constant than for D-fructose required complexation of the ketose product with borate. In comparison with reductive amination by glutamate dehydrogenase, advantages of using NADH-dehydrogenase catalyzed regeneration of NAD for ketose production are (i) avoidance of byproduct formation, (ii) cheaper substrate (02 versus α-ketoglutarate), and (iii) easier process control (batch versus fed-batch).     

Emulsifiers from solid and liquid polyols: different strategies for obtaining optimum conversions and selectivities

The present paper provides a general overview of the factors involved in both the kinetics and the selectivity of partial acylation reactions of polyols (sugars). Different kinetic strategies for maximum production of intermediate esters of various polyols and monosaccharides are reported and discussed. Physicochemical requirements for obtaining maximum selectivities and complementary strategies for reducing reaction times are discussed. The reactions studied include glycerol, glucose, fructose, mannose, sorbitol and an alkyl glucoside as precursors. The high selectivity towards the monoglyceride in the presence and absence of a solvent has been attributed to a combination of the precipitation of the desired ester, use of glycerol in excess and the relatively low solubility of the fatty acid in the system. Unlike the reaction in the presence of a solvent, the reaction in a solvent-free medium produces the diester first. The monoester only accumulates in the medium as a consequence of disproportionation and glycerolysis reactions of the diester formed earlier. Selective esterification of solid sugars (polyols) which have an intermediate solubility in acetone is favored at low temperatures at which a sufficient amount of polyol dissolves and concurrent precipitation of the desired product can be achieved. By contrast, use of elevated temperatures is more appropriate for selective partial esterification of polyols, which are the most soluble in the solvent employed. Polyols (sugars) which are the less soluble into the liquid reaction phase cannot be easily esterified. Diffusional limitations on the rate of dissolution of the solid precursor can be minimized by increasing the surface area of the solid polyol.     

Depletion of Phospholipid Arachidonoyl-Containing Molecular Species in a Human Schwann Cell Line Grown in Elevated Glucose and Their Restoration by an Aldose Reductase Inhibitor

Abstract: In experimental diabetic neuropathy, defective arachidonic acid metabolism characterized by a decrease in the proportion of glycerophospholipid arachidonoyl-containing molecular species (ACMS) occurs and has been implicated in the pathogenesis of the disorder. In this study, we evaluated the suitability of a tumor-derived human Schwann cell line (NF1T) as a model to investigate the mechanism underlying the loss of ACMS. NF1T cells grown in 30 versus 5.5 m M glucose undergo a marked reduction in ACMS in phosphatidylcholine, phosphatidylethanolamine, and phosphatidylinositol, in a manner resembling that of diabetic nerve. The depletion of ACMS can be reversed on transferring the cells from 30 m M glucose to medium containing physiological levels of glucose. Cells maintained in 5.5 m M glucose plus 25 m M mannitol or sorbitol did not exhibit decreased ACMS levels, indicating that osmotic effects were not responsible for ACMS depletion. However, growth in 25 m M fructose elicited a reduction of ACMS similar to that produced by 30 m M glucose. Excessive glucose flux through the polyol pathway has been implicated in the neural and vascular abnormalities associated with diabetes. Therefore, we examined the effects of polyol pathway inhibitors, including two aldose reductase inhibitors, zopolrestat and sorbinil, and a sorbitol dehydrogenase inhibitor (SDI), CP166,572, on ACMS levels in NF1T cells cultured in elevated glucose concentrations. At 200 µ M , zopolrestat fully and sorbinil partially corrected ACMS depletion. The SDI at concentrations up to 100 µ M failed to affect diminished ACMS levels. Neither zopolrestat nor the SDI restored ACMS levels reduced in the presence of elevated fructose concentrations. These findings suggest that enhanced flux through the polyol pathway and, in particular, elevated aldose reductase activity may play a significant role in the reduction of ACMS levels in the cells brought about by elevated glucose levels.     

稀有糖的生物转化生产策略：Izumoring方法

稀有糖是在自然界中存在但含量极少的一类单糖及衍生物,其在膳食、保健、医药等领域中发挥着重要的功能。本文综述了一种稀有糖的生物转化生产策略----Izumoring方法,即利用D-塔格糖3-差向异构酶、醛糖异构酶和多元醇脱氢酶等进行所有单糖及糖醇之间的相互转化;利用该原则,分别构建了己糖类、戊糖类和丁糖类的Izumoring转化策略,并可获得所有稀有糖的酶反应和生物转化生产途径。同时,展望了稀有糖生物转化生产的研究趋势。     

Suppression of 3-deoxyglucosone and heparin-binding epidermal growth factor-like growth factor mRNA expression by an aldose reductase inhibitor in rat vascular smooth muscle cells

Reactive carbonyl compounds and oxidative stress have been recently shown to up-regulate the expression of heparin-binding epidermal growth factor-like growth factor (HB-EGF), a potent mitogen for vascular smooth muscle cells (SMCs) produced by SMC themselves. Because the polyol pathway has been reported to influence the formation of carbonyl compounds and the oxidative stress in various cells, we conducted this study to investigate whether the polyol pathway affects HB-EGF expression along with the generation of carbonyl compounds and the oxidative stress in SMCs. We found that, compared with those cultured with 5.5mM glucose, SMCs cultured with 40 mM glucose showed the accelerated thymidine incorporation, elevated levels of intracellular sorbitol, 3-deoxyglucosone (3-DG), advanced glycation end products (AGEs), and thiobarbituric acid-reactive substances (TBARS) along with the enhanced expression of HB-EGF mRNA. An aldose reductase inhibitor (ARI), SNK-860, significantly inhibited all of these abnormalities, while aminoguanidine suppressed 3-DG levels and HB-EGF mRNA expression independent of sorbitol levels. The results suggest that the polyol pathway may play a substantial role in SMC hyperplasia under hyperglycemic condition in part by affecting HB-EGF mRNA expression via the production of carbonyl compounds and oxidative stress.     

Is sorbital dehydrogenase gene expression affected by streptozotocin-diabetes in the rat?

The polyol pathway, which comprises the enzymes aldose reductase and sorbitol dehydrogenase, is recognised to play a major role in the pathogenesis of diabetic complications. Although there has been extensive research on aldose reductase, the role of sorbitol dehydrogenase has been overlooked. This study examined the response of sorbitol dehydrogenase gene expression to streptozotocin-diabetes (STZ-diabetes) in the rat and whether these changes were reversed by insulin. STZ-diabetes increased testicular sorbitol dehydrogenase gene expression in a manner that was not reversible by insulin but had no effect on gene expression in kidney and brain. A secondary question was the relationship between sorbitol dehydrogenase and aldose reductase gene expression in STZ-diabetes. STZ-diabetes increased renal dose reductase gene expression in a manner that was not reversible by insulin but had no effect on gene expression in the brain, testes and muscle. Thus, STZ-diabetes causes changes in sorbitol dehydrogenase gene expression which do not parallel those in aldose reductase, implying that expression of the two genes is not regulated via a common mechanism. Furthermore, changes in sorbitol dehydrogenase and aldose reductase gene expression cannot be fully explained on the basis of the osmoregulatory hypothesis, suggesting that regulation is mediated via mechanisms that are multifactorial and tissue-specific.     

Tolrestat对高糖所致肾小球系膜细胞肌动蛋白去组装的影响

研究了醛糖还原酶抑制剂Tolrestat对高浓度葡萄糖(HG)所致肾小球系膜细胞(MC)肌动蛋白(actin)组装的影响。结果证明,与正常浓度葡萄糖(NG)相比,在HG培养的MC,F-actin失去束状外观呈不规则网状,显示F-actin部分去组装;F-actin荧光强度降低,G-actin荧光强度升高和F-/G-actin荧光强度比值下降。Tolrestat加入培养后,明显防止HG引起的F-actin去组装及F-和G-actin荧光强度的变化。提示多元醇通路激活在HG引起的MCactin去组装改变中起一定作用。