Tissue iron content in riboflavin and pyridoxine deficient rats

The effect of riboflavin and (or) pyridoxine deficiency and repletion on tissue iron content was studied in rats. The iron content in liver, spleen, and kidney and plasma iron concentration of riboflavin deficient (RD) rats was lower, but hematocrit was not. In pyridoxine deficient (PD) rats versus control rats, the iron content in liver was significantly higher but not in spleen and kidney. In PD rats hematocrit was lower but plasma iron concentration was not. Although combined riboflavin and pyridoxine deficient (CD) rats had lower iron content in liver and spleen compared with control rats, these values were intermediate between those of RD rats and PD rats. After RD and PD rats were repleted, the iron content in liver, spleen, and kidney returned to that of control rats, and the hematological indices were improved significantly. These results suggest that riboflavin and pyridoxine deficiency may impair the absorption and utilization of iron and may result in altered tissue iron content.     

Hepatic drug hydroxylation and lipid peroxidation in riboflavin-deficient rats

The effect of riboflavin deficiency and phenobarbital pretreatment on drug hydroxylation and lipid peroxidation was investigated. A significant decrease in aniline and acetanilide hydroxylation as well as NADPH-linked and ascorbate-induced lipid peroxidation was observed during 4- and 7-week riboflavin deficiency in both adult male and adult female rats. The drug-hydroxylation and lipid-peroxidation activities were further lowered with the increase in riboflavin deficiency. The phenobarbital pretreatment induced aniline and acetanilide hydroxylase activity even in riboflavin-deficient animals. Drug hydroxylation inhibits lipid peroxidation in both deficient and normal rats. The administration of riboflavin was followed by a significant increase in drug hydroxylation and lipid peroxidation.     

Relationship between changes in properties and contents of riboflavin derivatives of NADPH-cytochrome P-450 reductase in the liver microsomes of riboflavin-deficient rats

Weanling male rats were fed a riboflavin-deficient diet for 5-8 weeks, and the decrease in NADPH-cytochrome P-450 reductase (FpT) activity in the liver microsomes was compared with the contents of riboflavin derivatives. The decrease of FpT activity for the reduction of cytochrome c was greater than that for the reduction of ferricyanide. The FpT's of riboflavin-deficient and control rats were indistinguishable in the Ouchterlony immunodiffusion test against anti-FpT, and were shown to have the same molecular weight of 78,000 by SDS-polyacrylamide slab gel electrophoresis. However, the purified FpT of the riboflavin-deficient rats contained 14.2, 4.9, and 1.9 nmol of FAD, FMN, and riboflavin per mg of protein, respectively, while that of the control rats contained 10.6 and 9.5 nmol of FAD and FMN per mg of protein, respectively. After riboflavin injection into the riboflavin-deficient rats, NADPH-cytochrome c reductase activity and FMN content of the FpT were restored to the control levels in 36 h, NADPH-ferricyanide reductase activity recovered in 18 h, and riboflavin content diminished in 18 h. On incubation of the purified FpT of the riboflavin-deficient rats with FMN, NADPH-cytochrome c reductase activity and FMN content were restored to those of control rats. These results indicated that a part of FMN in the FpT of the riboflavin-deficient rats was replaced with FAD and riboflavin.     

硫胺素、核黄素和烟酰胺对大鼠体重增长及脂代谢影响的实验研究(英文)

目的:B族维生素以辅酶的形式参与糖、脂肪和蛋白质代谢,本文观察硫胺素、核黄素和烟酰胺补充对高脂饲料诱导大鼠肥胖的影响。方法:采用预防肥胖模型法,2×2×2析因设计分为8组:高脂对照组(F0组),高脂+硫胺素(F1组),高脂+核黄素(F2组),高脂+烟酰胺(F3组),高脂+硫胺素+核黄素(F4组),高脂+硫胺素+烟酰胺(F5组),高脂+核黄素+烟酰胺(F6组),高脂+硫胺素+核黄素+烟酰胺(F7组),每组12只大鼠,给予高脂饲料喂养,同时硫胺素(100 mg/kg bw/d)、核黄素(100mg/kg bw/d)、烟酰胺(250 mg/kg bw/d)灌胃,另设正常对照组(C组)12只,普通饲料喂养,自来水灌胃,15周后,分析其体重、摄食量、体脂重量、血脂等实验前后的变化情况及各组动物之间的差别。结果:经过15周喂养后,高脂喂养大鼠体重比正常对照组平均增加了15.7%;而补充烟酰胺(F3)及联合硫胺素(F5)或核黄素(F6)以及三者联合补充(F7)组高脂喂养大鼠与高脂对照组(F0)相比,体重分别降低了35.0%,30.0%,30.1%和30.6%(P值均小于0.05);甚至比正常对照组大鼠平均体重分别下降了22.8%,17.0%,17.0%和17.7%(P值均小于0.05);而补充核黄素或和硫胺素组大鼠体重没有明显增加或降低(P值均大于0.05)。血脂分析结果显示高脂喂养并联合补充核黄素或/和烟酰胺和/或硫胺素组大鼠血清CHOL和LDL水平明显低于高脂对照组;而高脂喂养并联合补充烟酰胺(F3)及联合硫胺素(F5)或核黄素(F6)以及三者联合补充(F7)组大鼠LDL/HDL比值分别0.29、0.26、0.25和0.26,明显低于F0组的0.37(P值均小于0.05)。结论:大剂量烟酰胺可有效地调节血脂水平和控制肥胖大鼠的体重增长,而核黄素及硫胺素对控制肥胖大鼠体重增长的作用不明显,尚待进一步研究;核黄素只能够降低血脂水平,提示大剂量烟酰胺可通过增加机体的能量代谢来控制体重的增长。     

硫胺素、核黄素和烟酰胺对大鼠体重增长及脂代谢影响的实验研究

目的：B族维生素以辅酶的形式参与糖、脂肪和蛋白质代谢,本文观察硫胺素、核黄素和烟酰胺补充对高脂饲料诱导大鼠肥胖的影响。方法：采用预防肥胖模型法,2×2×2析因设计分为8组：高脂对照组（F0组）,高脂＋硫胺素（F1组）,高脂＋核黄素（F2组）,高脂＋烟酰胺（F3组）,高脂＋硫胺素＋核黄素（F4组）,高脂＋硫胺素＋烟酰胺（F5组）,高脂＋核黄素＋烟酰胺（F6组）,高脂＋硫胺素＋核黄素＋烟酰胺（F7组）,每组12只大鼠,给予高脂饲料喂养,同时硫胺素（100mg／kgbw／d）、核黄素（100mg／kgbw／d）、烟酰胺（250mg／kgbw／d）灌胃,另设正常对照组（C组）12只,普通饲料喂养,自来水灌胃,15周后,分析其体重、摄食量、体脂重量、血脂等实验前后的变化情况及各组动物之间的差别。结果：经过15周喂养后,高脂喂养大鼠体重比正常对照组平均增加了15．7％;而补充烟酰胺（F3）及联合硫胺素（F5）或核黄素（F6）以及三者联合补充（F7）组高脂喂养大鼠与高脂对照组（F0）相比,体重分别降低了35．0％,30．0％,30．1％和30．6％（P值均小于0．05）;甚至比正常对照组大鼠平均体重分别下降了22．8％,17．0％,17．0％和17．7％（P值均小于0．05）;而补充核黄素或和硫胺素组大鼠体重没有明显增加或降低（P值均大于0．05）。血脂分析结果显示高脂喂养并联合补充核黄素或／和烟酰胺和／或硫胺素组大鼠血清CHOL和LDL水平明显低于高脂对照组;而高脂喂养并联合补充烟酰胺（F3）及联合硫胺素（F5）或核黄素（F6）以及三者联合补充（F7）组大鼠LDL／HDL比值分别0．29、0．26、0．25和0．26,明显低于F0组的0．37（P值均小于0．05）。结论：大剂量烟酰胺可有效地调节血脂水平和控制肥胖大鼠的体重增长,而核黄素及硫胺素对控制肥胖     

Does aging affect the intestinal transport of riboflavin?

Riboflavin deficiency has been reported in older individuals. The cause of this deficiency is not know but could include a decrease in the intestinal absorptive capacity for riboflavin. Therefore, we examined the intestinal absorption of riboflavin in young (3 month) and old (26 month) rats. We used in vitro jejunal everted sacs. The kinetic parameters of riboflavin absorption disclosed apparent Km of 0.37 and 0.43 microM and Vmax of 37 and 38 pmole/g initial tissue wet wt/20 min in young and old rats, respectively. These data do not demonstrate an aging associated change in the intestinal transport capacity for riboflavin. If these results are extrapolated to man, it would mean that the deficiency of riboflavin found in the elderly is not due to its intestinal malabsorption. Therefore, other mechanisms must be sought to account for the deficiency of riboflavin seen in the elderly.     

Hepatic peroxisomal and mitochondrial fatty acid oxidation in the riboflavin-deficient rat.

The effects of riboflavin deficiency on hepatic peroxisomal and mitochondrial palmitoyl-CoA oxidation were examined in weanling Wistar-strain male rats. The specific activities of peroxisomal catalase and palmitoyl-CoA-dependent NAD+ reduction were not affected by up to 10 weeks of riboflavin deficiency. In contrast, the specific activity of mitochondrial carnitine-dependent palmitoyl-CoA oxidation was depressed by 75% at 10 weeks of deficiency. The amount of peroxisomal protein per g of liver was not affected by riboflavin deficiency, whereas, expressed per liver, both riboflavin-deficient and pair-fed controls showed decreased peroxisomal protein compared with controls fed ad libitum. Hepatic mitochondria, but not peroxisomes, were sensitive to riboflavin deficiency.     

Effect of riboflavin or pyridoxine deficiency on inflammatory response.

Inflammatory response has been assessed in riboflavin or pyridoxine deficient rats. Edema was increased by 54% in pyridoxine deficiency as compared to weight-matched control rats. Food restriction per se reduced the volume of edema by 63%. In pyridoxine deficiency, concentrations of thiobarbituric acid reactive substances (which indicate the extent of lipid peroxidation) increase by 30 and 43% respectively in the edematous tissues of the paw as well as in the wounded skin. Both these parameters were not affected by riboflavin deficiency. Activities of NADPH oxidase and superoxide dismutase in elicited leukocytes from peritoneal cavity were reduced by 54 and 52%, respectively, in riboflavin deficiency but were unaltered in pyridoxine deficiency. Superoxide level and acid phosphatase activity were not influenced by either of the deficiencies, whereas hydrogen peroxide level was increased by 48% in riboflavin deficiency. Food restriction did not affect leukocyte enzymes or the levels of reduced oxygen species. The data suggest that inflammation is enhanced in pyridoxine deficiency but not in riboflavin deficiency.     

Skin wound healing in riboflavin deficiency

Healing of excision and incision wounds was evaluated in riboflavin-deficient rats. The period taken for the epithelialization of excision wounds was 4 to 5 days longer in riboflavin-deficient animals compared to ad libitum-fed or food-restricted weight-matched control groups. Riboflavin deficiency as well as food restriction slowed the rate of wound contraction, the effect of riboflavin deficiency being of greater magnitude. The tensile strength of incision wounds in riboflavin deficiency was reduced to 42% of the ad libitum-fed control and 63% of the weight-matched control values. There was a decrease of 25% in total collagen content of incision wounds, in riboflavin deficiency and its maturity was drastically affected as indicated by a twofold increase in salt solubility (1 M NaCl) and a four-fold increase in the alpha/beta subunit ratio of salt-soluble collagen. Food restriction had similar effects but of lower magnitude. The data suggest that alteration in collagen content and maturity may be responsible for the lower tensile strength of incision wounds in riboflavin-deficient rats. This suggestion was supported by the results of a rehabilitation experiment.     

Impaired collagen maturity in vitamins B2 and B6 deficiency--probable molecular basis of skin lesions

Solubility of collagen was increased and the proportion of insoluble collagen was reduced in the skin of both riboflavin as well as pyridoxine-deficient rats. Collagen content of the skin, and aldehyde concentration of salt-soluble collagen were also lower in the deficient groups. The alpha:beta subunit ratio of salt-soluble collagen was higher in riboflavin deficiency. In food-restricted weight-matched control groups, similar changes in collagen solubility, but of lesser magnitude were observed. Both food restriction and riboflavin deficiency decreased plasma PLP concentration. Increase in the solubility of collagen, decrease in the aldehyde content of soluble collagen and increase in the alpha:beta subunit ratio of soluble collagen, suggest that the maturation of collagen may be affected in pyridoxine or riboflavin deficiency. These molecular events may be etiologically related to the pathogenesis of the skin lesions in vitamin B2 or B6 deficiency.     

L-gulonolactone oxidase activity and vitamin C status in riboflavin-deficient rats

The effect of riboflavin deficiency on the activity of L-gulonolactone oxidase [L-gulono-γ-lactone : oxygen 2-oxidoreductase, EC 1.1.3.8] and on vitamin C status was studied. A marked decrease in the specific activity of L-gulonolactone oxidase was observed in the liver microsomes isolated from riboflavin-deficient rats: the specific activity was approx. one-third of that in the microsomes isolated from control rats. The L-ascorbic acid content in the liver of the riboflavin-deficient rats was approx. one-half of that in the liver of the control rats. It seems that the rate of production of L-ascorbic acid in the riboflavin-deficient rats is limited by the decreased level of L-gulonolactone oxidase activity. Immunotitration using rabbit antiserum directed to L-gulonolactone oxidase revealed that a substantial amount of an inactive form of this enzyme is present in the liver microsomes of the riboflavin-deficient rats. L-Gulonolactone oxidase activity in the microsomes of these rats increased by approx. 35% upon addition of FAD, but it was slightly decreased by the addition of FMN or riboflavin. These results indicate that the liver microsomes of the riboflavin-deficient rats contain a protein which exhibits L-gulonolactone oxidase activity upon addition of FAD.     

Enhancement of adriamycin-induced mortality during riboflavin administration and riboflavin deficiency in rats

Adriamycin-treated rats were monitored for survivorship while consuming a normal diet adequate in riboflavin, a normal diet and receiving daily high-dose injections of riboflavin-5'-phosphate (flavin mononucleotide, FMN), or a riboflavin-deficient diet. Each animal was compared to a corresponding pair-fed, saline-treated control. In Adriamycin-treated rats fed the normal chow diet alone, survivorship declined within 7 days and remained constant after 12 days to about 50%. Adriamycin-treated rats consuming the normal diet and injected with FMN initially showed similar survivorship; however, after 20 days survival fell to 14%. Adriamycin-treated, riboflavin-deficient rats showed within 5 days a precipitous decline in survivorship which leveled to 5%. These results suggest that during Adriamycin treatment, proper riboflavin nutriture may be a crucial determinant of survival.     

Therapeutic Potential of Riboflavin,Niacin and Ascorbic Acid on Carbohydrate Metabolizing Enzymes in Secondary Endometrial Carcinoma Bearing Rats

Curative potential of riboflavin, niacin and ascorbic acid against tamoxifen mediated endometrial carcinoma was established by studies on carbohydrate metabolizing enzymes. The enzymes investigated were glycolytic enzymes namely, hexokinase; aldolase; phosphoglucoisomerase and the gluconeogenic enzymes namely, glucose-6-phosphatase and fructose-1, 6-biphosphatase in endometrial carcinoma bearing rats. A significant increase in glycolytic enzymes and a subsequent decrease in gluconeogenic enzymes were observed in plasma, liver and kidney of endometrial carcinoma animals. The administration of riboflavin (45 mg/kg bw/day), niacin (100 mg/kg bw/day) and ascorbic acid (200 mg/kg bw/day) along with tamoxifen (45 mg/kg bw/day) caused a significant decrease in the activity of glycolytic enzymes and a significant increase in the activities of gluconeogenic enzymes to near normal levels in experimental animals. Our results suggest that riboflavin, niacin and ascorbic acid have potential combination therapy against tamoxifen mediated secondary endometrial carcinoma in experimental rats. However, there were no deleterious side effects observed in combinants alone treated animals.     

Changes in iron, calcium, magnesium, copper, and zinc levels in different tissues of riboflavin-deficient rats

To clarify the changes of mineral levels in different tissues of riboflavin-deficient rats, Wistar rats were separated into three groups. One group was fed a diet ad libitum that was deficient in riboflavin. The other two were fed either the complete diet that was weight-matched to the riboflavin-deficient group or fed a complete diet ad libitum. In riboflavin-deficient rats, the hemoglobin concentration and riboflavin contents of blood, liver, and kidney were significantly decreased, compared with weight-matched and ad libitum-fed controls. The mineral concentrations of tissues are summarized as follows: The iron (Fe) concentration in the heart, liver, and spleen was decreased in the riboflavin-deficient group compared with the other groups. Calcium (Ca) and magnesium (Mg) concentrations in tibia were decreased in the riboflavin-deficient group compared with the other two groups. Copper (Cu) concentration was increased in the heart and liver when the riboflavin-deficient group was compared with the other groups. Zinc (Zn) concentration was increased in tibia when the riboflavin-deficient group was compared with the other groups.     

Correlation of H2O2 production and liver catalase during riboflavin deficiency and repletion in mammals

A substantial decrease in liver peroxisomal catalase was found during riboflavin deficiency in rats. This decrease is greater than that found among other hemoproteins and seems to follow decrease in flavin-dependent peroxisomal oxidases. This is not due to a general depression of peroxisomal enzymes, since Cu-dependent urate oxidase activity was not changed. Furthermore, the level of catalase activity as well as flavin-dependent oxidases was restored by riboflavin repletion. These results suggest that hydrogen peroxide, the substrate for catalase produced by several flavoprotein oxidases, induces catalase in mammals as has been indicated for certain bacteria.     

Effects of moderate riboflavin deficiency on lipid metabolism in rats

Dietary riboflavin intake of the people in Taiwan has been inadequate, while the fat intake has been increasing remarkably in recent years. Therefore, the effects of a moderate riboflavin deficiency on lipid metabolism in growing young rats fed diets containing 10, 25, or 40 percent calories of fat for 5 weeks were studied. The riboflavin deficiency status of the rats was certified by increased activity coefficients of erythrocyte glutathione reductase. Serum total lipids and cholesterol levels were significantly lower (P less than 0.05) in the medium fat-riboflavin deficient group. In the high fat-riboflavin deficient group, the growth and dietary intake were depressed and the liver weight/100 g body weight increased markedly (P less than 0.001). The liver total lipids, triglycerides, cholesterol and lipid peroxides of the high fat-riboflavin deficient group showed significant increases (P less than 0.025, P less than 0.025, P less than 0.05 and P less than 0.025 respectively), as compared with the pair-fed control groups. However, the increases were not significant in the medium fat and the low fat groups. The present study indicates that a high fat-riboflavin deficient diet would have adverse effects on lipid metabolism.     

Riboflavin deficiency in cultured rat hepatoma cells: A model for studying the hepatic effects of riboflavin deficiency

Summary The acyl-CoA dehydrogenases are a family of mitochondrial flavoenzymes required for fatty acid beta-oxidation and branched-chain amino acid degradation. The hepatic activity of these enzymes, particularly the short-chain acyl-coenzyme A (CoA) dehydrogenase, is markedly decreased in riboflavin deficient rats. We now report that the in vivo effects of riboflavin deficiency on the beta-oxidation enzymes of this group are reproduced in FAO rat hepatoma cells cultured in riboflavin-deficient medium. Although it has been long known that hepatic short-chain acyl-CoA dehydrogenase activity is the most severely affected of the straight-chain specific enzymes in riboflavin deficiency, the mechanism by which its activity is decreased has not been reported. We have used this new cell culture system to characterize further this mechanism. Whole cell extracts from riboflavin-deficient and control cells were subjected to analysis by denaturing polyacrylamide gel electrophoresis. The contents of the gels were then electroblotted onto nitrocellulose filters and probed with short-chain acyl-CoA dehydrogenase-specific antiserum. The relative abundance of enzyme antigen was estimated autoradiographically. Our findings indicate that short-chain acyl-CoA dehydrogenase activity changes in parallel with its antigen, suggesting that riboflavin deprivation does not affect the activity of individual enzyme molecules. Further, no evidence of extramitochondrial enzyme precursor was found on the blots, making unlikely a significant block in the mitochondrial uptake process. These findings suggest that changes in short-chain acyl-CoA dehydrogenase activity in riboflavin deficiency result from either increased synthesis or decreased degradation of the enzyme. This work was supported by grants from the VA Medical Research Service, the Diabetes Association of Greater Cleveland, and the National Institutes of Health (HD25299), Bethesda, MD. Portions of the work presented here were presented at the 71st meeting of the Endocrine Society, Seattle, WA.     

Mechanism of foetal wastage following immunoneutralization of riboflavin carrier protein in the pregnant rat: disturbances in flavin coenzyme levels

Immunoneutralization of maternal RCP results in a greater than 90% decrease in the content and the incorporation of [2-14C]riboflavin into embryonic FAD as well as a percentage redistribution of both embryonic FMN and riboflavin. This is unaccompanied by any discernible changes in flavin distribution pattern in the maternal liver. Embryonic alpha-glycerophosphate dehydrogenase and NADPH-cytochrome c reductase register significant decreases in activities in the RCP antiserum-treated rats. These alterations readily explain the arrest of foetal growth culminating in pregnancy termination in the antiserum-treated animals.     

Antigenic determinants on chicken riboflavin carrier protein. A study with monoclonal antibodies

Monoclonal antibodies raised against chicken egg white riboflavin carrier protein were classified into seven categories each recognizing a distinct epitope. Of these, six were directed against conformation dependent epitopes and one to a sequential epitope. The roles of lysine residues and the post-translationally attached phosphate and oligosaccharide moieties in the antigenicity of riboflavin carrier protein recognized by the monoclonal antibodies were investigated. The binding region of three monoclonal antibodies could be located within the 87–219 amino acid sequence of the protein and one antibody among these recognized a sequence of 182–204 amino acid residues. All the monoclonal antibodies were able to recognize riboflavin carrier proteins present in the sera of pregnant rats, cows and humans indicating that the epitopes to which they are directed are conserved through evolution from chicken to the human.     

Effects of cold stress on glutathione and related enzymes in rat erythrocytes

Effects of acute and chronic cold stress on glutathione and related enzymes in rat erythrocytes were investigated. Blood from both cold-acclimated (CA) and cold-adapted (CG) rats had significantly lower concentrations of glutathione than blood from control animals. Superoxide dismutase activity was increased significantly in CA rats and tended to rise in CG rats. Activity of glutathione peroxidase in erythrocytes was inconsistent in that it tended to increase in CA rats but decreased significantly in CG rats. The results may imply that CG rats suffered deleterious effects of hydrogen peroxide. On the other hand, there were marked decreases in glutathione peroxidase and glutathione reductase activities in acutely cold-exposed rats in conjunction with unchanged levels of glutathione. In all treatments the state of riboflavin metabolism was estimated to be adequate, since no increases were observed in the erythrocyte glutathione reductase activity coefficient.