r-Galactonolactone in experimental galactosemic animals

An accumulation of galactose-1,4-lactone, an oxidation product of galactose, was observed in various tissues of galactosemic guinea pigs fed a 40% galactose diet for 6 weeks. In addition, an accumulation of the two galactose metabolites varied among organs. The highest content of the lactone was observed in the liver and the content of the lactone exceeded that of the reduced counterpart. The lens gave the highest galactitol content. In the serum the level of the lactone was very low. A trace amount of the lactone was detected in the kidney while it was mostly excreted into urine within 54 h upon withdrawal of the diet. On the other hand, in the animals kept on a high galactose diet for only 2 days, urinary lactone rapidly decreased. These observations indicated that a high galactose level in the circulation was associated with the production of the lactone in various tissues and that the accumulated lactone was released into the circulation very slowly and then excreted into the urine. Suppression of galactitol production by administration of an aldose reductase inhibitor resulted in the accumulation of the lactone in the lens, the testis, and the muscle, as well as in the circulation. The lactone thus produced was excreted exclusively into the urine. This observation indicates a close relationship between the oxidative and reductive metabolisms of galactose at a toxic level.     

Expression of c-myc protooncogene in rat lens cells during development,maturation and reversal of galactose cataracts

It is well established that normal patterns of epithelial cell proliferation and metabolism, and of fiber cell differentiation and maturation are essential for the maintenance of transparency in the ocular lens. Several factors, including exposure to high levels of sugars, have been known to result in the compromise of lens transparency. For example, initiation of lens cell damage by galactose induces lens epithelial cells to proliferate. Elevated levels of c-myc mRNA have usually been correlated with rapid cell growth and increased entry of cells into the S phase. Therefore, changes in c-myc mRNA levels may provide an early indication of the stimulation of lens epithelial cells to proliferate and differentiate, which has been postulated to be an early and important event in response to lens cell injury by galactose. By Northern blot hybridization analysis we quantitated c-myc mRNA levels in the lens capsule epithelia of rats (1) exposed to galactose, and (2) undergoing a partial recovery from the galactose-induced cell damage. At the onset of lens cell damage, we find c-myc mRNA to elevate to 6-fold by 24 hr, and by 48 hr decreases to about 3-fold the normal levels. During recovery, c-myc mRNA continues to be expressed at high levels approaching a 10-fold increase by day 12, then decreasing to levels of about 8-fold the control by day 30. The 24 h transitory elevation in c-myc mRNA in lens epithelial cells is in accord with our previous observations on the 24 h increase in MP26, crystallin and aldose reductase mRNAs following a high influx of galactose. Therefore, the elevation in c-myc mRNA as well suggest that galactose appears to cause lens cells to undergo an early transitory period of gene induction following the exposure of lens cells to galactose.     

Localization of protein kinase C in normal and galactosemic bovine lens epithelial cells in culture

 The localization of the two major isoforms of protein kinase C (PKC), PKCα and PKCγ, present in normal and galactosemic bovine lens epithelial cells in culture, was determined using PKC isoform-specific antisera and visualized with FITC-conjugated secondary antisera. The results indicated that the localization of PKC changed upon exposure to 40 mM galactose after 1day. The subcellular distribution of control cells was cytoplasmic and perinuclear for PKCα, while, in 40 mM galactose-treated cells, PKCα was also localized to nuclei. In contrast, upon exposure to 40 mM galactose the PKCγ of the lens epithelial cells was observed in nucleoli. These results suggest that the subcellular distribution of the PKC isoforms in bovine lens epithelial cells differs and is altered upon exposure to 40 mM galactose. Accepted: 7 January 1998     

Development of a rat subline with symptoms of hereditary galactosemia and study of its biochemical characteristics]

It was established earlier that the maintenance of rats on a galactose-rich diet induced in rat liver a sequental induction of enzymes, converting galactose to glucose (galactokinase, galactoso-1-phosphaturidytransferase and uridyndiphosphogalactose-4-epimerase); this was followed by the repression of these enzymes. Against the background of the enzyme repression, the continuation of galactose treatment leads to the development of galactosemia symptoms; cataracts, liver lesions growth retardation. Animals with the increased susceptibility to galactose were found in population of Wistar rats; in these animals rapidly developing enzyme induction is followed by sharp repression of enzymes of the galactose metabolism and in them cataracts appear 17-19 days after the start of feeding a galactose-rich diet. A part of the population is resistant to the galactosemic effect of galactose and in these animals cataracts develope only 40-44 days after the beginning of the galactose feeding. By inbreeding of individuals extremely susceptible to galactose and those resistant to it, new substrains of rats were obtained. It is found that in the rats of the galactose-susceptible substrain a number of galactosemic features develope spontaneously and that these features are inheritable. Thus, 85% of the animals of the age of 2.5-6 months have cataract, lens opacities and other lens impairments. In the galactose-resistant substrain no cataracts or lens opacities develope and only slight changes of the lens are observed in 15% of the animals. In the susceptible substrain other features characteristic of galactosemia occur: an increase in the size of thymus, spleen and liver. It is established that in 3.5-5 month old rats of the galactose-susceptible substrain the galactoso-1 phosphaturidyltransferase activity in blood hemolysates is 15 times lower than in rats of galactose-resistant substrain, and in liver the activity of this enzyme is 1.4 times lower. The activity of liver galactokinase and uridyldiphosphogalactose-4-epimerase is slightly higher in rats of galactose-susceptible substrain than in galactose-resistant 1.     

High resolution proton NMR studies of gangliosides. Structure of two types of GD3 lactones and their reactivity with monoclonal antibody R24

Ganglioside GD3 was converted at room temperature to two stable lactones, denoted as GD3 lactones I and II. The reaction sequence was presumed to be GD3----GD3 lactone I----GD3 lactone II based on the time course of their production. Lactone I behaved as a monosialoganglioside and lactone II as a neutral species. The two lactones were isolated by DEAE-Sephadex column chromatography. The positions of the inner ester linkages were investigated by two-dimensional J-correlated proton NMR spectroscopy. An ester linkage was most likely formed between the carboxyl group of the external sialic acid residue and C9-OH of the internal sialic acid residue in lactone I. In addition to this ester linkage, a second ester linkage between the carboxyl group of the internal sialic acid and C2-OH of the galactose residue was likely formed in lactone II. The structural changes induced by lactonization were further examined by their reactivity with the monoclonal antibody R24 (Puckel, C. S., Lloyd, K. O., Travassos, L. R., Dippold, W. G., Oettgen, H. F., and Old, L. J. (1982) J. Exp. Med. 155, 1133-1147), which reacted with GD3. R24 was found to bind weakly to GD3 lactone I, but not to GD3 lactone II. The results suggest that the monoclonal antibody requires both sialic acid residues for high affinity binding, and the complete lactonization results in a loss of negative charges and/or a change in the overall conformation of the oligosaccharide moiety which may account for the loss of binding.     

Synthesis and structural characterization of the dilactone derivative of GD1a ganglioside

Treatment of GD1a [alpha-Neu5Ac-(2----3)-beta-GalNAc-(1----4)-[alpha- Neu5Ac-(2----3)]-beta-Gal-(1----4)-beta-Glc-(1----1)-Cer] with dicyclohexylcarbodi-imide in anhydrous methyl sulfoxide affords 94-98% of GD1a-dilactone. The involvement of the carboxyl groups of the two sialic acid residues in the lactone rings was proved by ammoniolysis and reduction experiments, which gave ganglioside derivatives containing the amide of sialic acid and N-acetylneuraminulose, respectively. 1H-N.m.r. spectroscopy showed that the lactone rings involved position 2 of each galactose residue in the ester linkages.     

The role of aldose reductase in sugar cataract formation: aldose reductase plays a key role in lens epithelial cell death (apoptosis)

Since aldose reductase is localized primarily in lens epithelial cells, osmotic insults induced by the accumulation of sugar alcohols occur first in these cells. To determine whether the accumulation of sugar alcohols can induce lens epithelial cell death, galactose-induced apoptosis has been investigated in dog lens epithelial cells. Dog lens epithelial cells were cultured in Dulbecco's modified Eagle's mimimum essential medium (DMEM) supplemented with 20% fetal calf serum (FCS). After reaching confluence at fifth passage, the medium was replaced with the same DMEM medium containing 50 mM D-galactose and the cells were cultured for an additional 2 weeks. Almost all of the cells cultured in galactose medium were stained positively for apoptosis with the terminal deoxynucleotidyl transferance-mediated biotin-dUTP nick end labeling (TUNEL) technique. Agarose gel electrophoresis of these cells displayed obvious DNA fragmentation, known as a ladder formation. All of these apoptotic changes were absent in similar cells cultured in galactose medium containing 1 microM of the aldose reductase inhibitor AL 1576. Addition of AL 1576 also reduced the cellular galactitol levels from 123+/-10 microgram/10(6) cells (n=5) to 3.9+/-1.9 microgram/10(6) cells (n=5). These observations confirm that galactose induced apoptosis occurs in dog lens epithelial cells. Furthermore, the prevention of apoptosis by an aldose reductase inhibitor suggests that this apoptosis is linked to the accumulation of sugar alcohols.     

The role of aldose reductase in sugar cataract formation: aldose reductase plays a key role in lens epithelial cell death (apoptosis)

Since aldose reductase is localized primarily in lens epithelial cells, osmotic insults induced by the accumulation of sugar alcohols occur first in these cells. To determine whether the accumulation of sugar alcohols can induce lens epithelial cell death, galactose-induced apoptosis has been investigated in dog lens epithelial cells. Dog lens epithelial cells were cultured in Dulbecco's modified Eagle's mimimum essential medium (DMEM) supplemented with 20% fetal calf serum (FCS). After reaching confluence at fifth passage, the medium was replaced with the same DMEM medium containing 50 mM d-galactose and the cells were cultured for an additional 2 weeks. Almost all of the cells cultured in galactose medium were stained positively for apoptosis with the terminal deoxynucleotidyl transferance-mediated biotin-dUTP nick end labeling (TUNEL) technique. Agarose gel electrophoresis of these cells displayed obvious DNA fragmentation, known as a ladder formation. All of these apoptotic changes were absent in similar cells cultured in galactose medium containing 1 μM of the aldose reductase inhibitor AL 1576. Addition of AL 1576 also reduced the cellular galactitol levels from 123±10 μg/10⁶ cells (n=5) to 3.9±1.9 μg/10⁶ cells (n=5). These observations confirm that galactose induced apoptosis occurs in dog lens epithelial cells. Furthermore, the prevention of apoptosis by an aldose reductase inhibitor suggests that this apoptosis is linked to the accumulation of sugar alcohols.     

Galactose tolerance studies of individuals with reduced galactose pathway activity.

The galactose tolerance of individuals with mutant genotypes affecting the activities of galactokinase (GALK) and galactose-1-phosphate uridylyltransferase (GALT) was examined. Genotypes studied were heterozygotes for the GALK and GALT forms of galactosemia, the Duarte-variant GALT, and Philadelphia-variant GALK alleles. The measurements used were urinary concentration of galactose during pregnancy in adults and in infants from the newborn period through the first 5 months of life; the rate of elimination of an intravenous infusion of galactose; and slit-lamp examination of the lens for evidence of cataracts. No unusual urinary excretions of galactose were noted in any of the age groups studied. Intravenous galactose tolerance tests were normal in all but two women, a mother and daughter heterozygous for the GALK-deficient form of galactosemia (GALKG/GALKA). Six other GALKG/GALKA subjects had normal tolerance studies. The intrafamilial consistency and interfamilial differences in the galactose tolerance of GALKG/GALKA individuals suggest heterogeneity of the genes responsible for the GALK-deficient form of galactosemia. Although subclinical cataracts were observed in several individuals, their significance relative to the mutant genotype cannot be resolved with the available data.     

四种中草药对大鼠半乳糖性白内障氧化还原物质及糖类含量的影响

对正常和半乳糖性白内障及给中草药的大鼠晶状体中某些吡啶核苷酸成分、糖类、非蛋白质巯基的含量进行了比较。结果表明,在白内障晶状体中,NADPH及非蛋白质巯基的含量明显低于正常晶状体的,而NADP、半乳糖及半乳糖醇的含量明显高于正常晶状体的;当注射半乳糖的同时分别用黄岑、石斛、菟丝子及玉蝴蝶四种中草药水煎剂灌胃,上述变化为基本恢复至正常晶状体的水平。表明四种中草药对晶状体中的异常生化变化具有阻止及纠正作用。     

四种中草药对大鼠半乳糖性白内障相关酶活性的影响

本实验测定了中草药对大鼠半乳糖性白内障延缓及治疗中五种酶活性的影响。结果表明,在白内障晶状体中,醛糖还原酶的活性明显升高;多元醇脱氢酶,己糖激酶,6磷酸葡萄糖脱氢酶及过氧化氢酶的活性明显降低。在注射半乳糖的同时,分别用黄芩、石斛、菟絲子及玉蝴蝶四种中草药水煎剂灌胃,醛糖还原酶的活性没有明显升高,其余四种酶的活性均基本恢复到正常,表明这四种中草药对半乳糖所致的酶活性异常变化有抑制或纠正作用。     

Galactose stimulation of carbon import into roots is confined to the Poaceae

Galactose applied to barley roots causes a transient promotion of carbon import into the roots, followed by growth inhibition and a decline in carbon import. In this study the ubiquitous nature of the promotion of carbon import, and whether the response occurs primarily in the cell wall or in the cell, was investigated. ¹¹C movement into roots was measured across a range of monocotyledons and dicotyledons in response to exposing the root environment to 20 mM galactose. Only members of the Poaceae showed a transient increase in carbon import similar to that previously reported in barley. All other species showed a decline, similar to that recorded for other sugars examined in barley. Addition of D-galactono-1,4-lactone (a galactose analogue) to barley roots showed no transient increase in carbon import. After removal of the lactone, the roots responded to galactose with an increase in carbon import. Unlike other plants, members of the Poaceae have cell wall polysaccharides containing very low amounts of galactose, and low levels of UDP-galactose (glucose) epimerase. During cell expansion the walls transiently contain a 1-3, 1-4 glucan which requires UDP-glucose as a precursor. It is proposed that the galactose challenge causes elongating Poaceae cells to be temporarily starved of UDP-glucose, and that phloem import is therefore stimulated.     

Galactose transport in Kluyveromyces lactis: major role of the glucose permease Hgt1

In Kluyveromyces lactis, galactose transport has been thought to be mediated by the lactose permease encoded by LAC12. In fact, a lac12 mutant unable to grow on lactose did not grow on galactose either and showed low and uninducible galactose uptake activity. The existence of other galactose transport systems, at low and at high affinity, had, however, been hypothesized on the basis of galactose uptake kinetics studies. Here we confirmed the existence of a second galactose transporter and we isolated its structural gene. It turned out to be HGT1, previously identified as encoding the high-affinity glucose carrier. Analysis of galactose transporter mutants, hgt1 and lac12, and the double mutant hgt1lac12, suggested that Hgt1 was the high-affinity and Lac12 was the low-affinity galactose transporter. HGT1 expression was strongly induced by galactose and insensitive to glucose repression. This could explain the rapid adaptation to galactose observed in K. lactis after a shift from glucose to galactose medium.     

Production and characterization of a monoclonal antibody (BBH5) directed to ganglioside lactone

The occurrence of lactones in various ganglioside preparations has been clearly demonstrated, yet the natural occurrence of ganglioside lactones in cells and tissues has been the subject of long debate, since lactones can be formed readily during preparation of gangliosides. We now report the generation of a monoclonal antibody (BBH5) that reacts specifically with lactones of disialogangliosides having the NeuAc2-8NeuAc2-3Gal sequence, but does not crossreact with the parent ganglioside. The specificity of the antibody resides on the first lactone ring between two sialic acid residues but not on the second lactone ring between sialic acid and galactose, as evidenced by reactivity with lactonized GD_1b having the first lactone ring (L1), and by reactivity with lactonized polysialic acid homo-oligomers ([NeuAc2-8] _n NeuAc). The sialic acid carboxyl involved in the lactone ring was unequivocally determined after ammonolysis followed by methylation and fast atom bombardment mass spectrometry. The antibody BBH5 thus provides a novel tool for studies of the natural occurrence of lactones in cells and tissues.Abbreviations BSA bovine serum albumin - CM chloroform-methanol - CMW chloroform-methanol-water - FAB-MS fast atom bombardment mass spectrometry - IHW isopropanol-hexane-water - MAb monoclonal antibody - PBS phosphate-buffered saline - TLC thin layer chromatography     

Aldose reductase,NADPH and NADP+ in normal,galactose-fed and diabetic rat lens

NADPH and NADP⁺ levels were measured in rat lens from normal controls, from galactose-fed and diabetic rats during the first week of cataract formation.The level of NADPH in normal rat lens was determined to be 12.3 ± 0.4 nmol/g wet weight, and that of NADP⁺ 4.6 ± 0.2 nmol/g wet weight. In early cataract formation NADPH levels decreased rapidly during the first 2 days and then remained stable at 76% of control for galactose-fed and 84% for diabetic rats. NADP⁺ levels increased by 38% of control for galactose-fed and 54% for diabetic rats. Calculated NADPH/NADP⁺ ratios dropped from 3.36 ± 0.21 to 1.86 ± 0.16 in galactose fed rats, and from 2.81 ± 0.15 to 1.61 ± 0.16 in diabetic rats (P < 0.001 for both experimental groups). These data are consistent with rapid NADPH oxidation during onset of lens cataracts. No significant changes in aldose reductase enzymatic activity levels were observed in either the galactosemic or the diabetic rats during the times measured.     

Methane emissions from six crop species exposed to three components of global climate change: temperature, ultraviolet-B radiation and water stress

The l ‐ascorbate (AsA) content and the expression of six l ‐galactose pathway‐related genes were analyzed in peach flesh during fruit development. Fluctuation of AsA during peach fruit development was divided into four phases based on the overall total AsA (T‐AsA) content per fruit: AsA I, 0–36 days after full bloom (DAFB); AsA II, 37–65 DAFB; AsA III, 66–92 DAFB and AsA IV, 93–112 DAFB. Phase AsA III was a lag phase for AsA accumulation, but did not coincide with the lag phase for fruit development. The T‐AsA concentration was highest at the early stage until 21 DAFB [2–3μmol per gram of fresh weight (g^?1 FW)], and decreased to 1/4 and 1/15 of this value at 50 and 92 DAFB, respectively. T‐AsA then remained at 0.15–0.20μmol g^?1 FW until harvest at 112 DAFB. More than 90% of the T‐AsA was in the reduced form until 21 DAFB. The proportion of reduced form of AsA then decreased concomitantly with the decrease in AsA concentration. To determine the main pathway of AsA biosynthesis and the AsA biosynthetic capacity of peach flesh, several precursors were incubated with immature whole fruit (59 DAFB). The AsA concentration increased markedly with l ‐galactono‐1,4‐lactone or l ‐galactose (Gal), but d ‐galacturonate and l ‐gulono‐1,4‐lactone failed to increase AsA, indicating dominance of the Gal pathway and potent AsA biosynthetic capabilities in immature peach flesh. The expression of genes involved in the last six steps of the Gal pathway was measured during fruit development. The genes studied included GDP‐d ‐mannose pyrophosphorylase (GMPH), GDP‐ d ‐mannose‐3′,5′‐epimerase (GME), GDP‐ l ‐galactose guanylyltransferase (GGGT), l ‐galactose‐1‐phosphate phosphatase (GPP), l ‐galactose‐1‐dehydrogenase (GDH) and l ‐galactono‐1,4‐lactone dehydrogenase (GLDH). GMPH, GME and GGGT had similar expression patterns that peaked at 43 DAFB. GPP, GDH and GLDH also had similar expression patterns that peaked twice at 21 and 91 DAFB, although the expression of GDH was quite low. High level of T‐AsA concentration was roughly correlated with the level of gene expression in the early period of fruit development (AsA I), whereas no such relationships were apparent in the other periods (e.g. AsA III and IV). On the basis of these findings, we discuss the regulation of AsA biosynthesis in peach fruit.     

白内障形成过程中晶状体细胞膜上脂类与蛋白质氧化的时间差异性

用马来酰亚胺及５恶唑氮氧自由基硬脂酸分别标记晶状体细胞膜中蛋白质及脂类,以电子自旋共振方法研究在三硝基甲苯、亚硒酸钠、半乳糖、平阳霉素及紫外线等白内障诱发剂作用下,晶状体细胞膜的氧化损伤变化。结果发现当晶状体细胞暴露于空气中时,晶状体细胞膜脂类氧化早于蛋白质的氧化;在五种白内障诱发剂作用下,均是如此．这说明白内障的形成首先是由膜中脂类氧化所引起。