Formate metabolism is altered in riboflavin‐deficient rats

Rats were deprived of riboflavin until there was established impairment of growth, hepatomegaly, and depletion of flavin–adenine dinucleotide and of catalase in the liver. Under these conditions there were increased concentrations of glutamic–aspartic and glutamic–alanine transaminases in the liver. With dietary depletion and repletion of protein the transaminase levels followed changes in liver size. Since the protein concentration in the liver was not affected, the level of transaminase was directly associated with the degree of anabolism. The changes in the glutamic–alanine transaminase were the more pronounced.

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Effect of Riboflavin Deficiency on the Metabolism of Oxypurines in Chicks

Canadian Journal of Physiology and Pharmacology ◽

10.1139/y71-150 ◽

1971 ◽

Vol 49 (12) ◽

pp. 1059-1062 ◽

Cited By ~ 1

Author(s):

S. T. Chou

Keyword(s):

Uric Acid ◽

Acid Synthesis ◽

Xanthine Dehydrogenase ◽

Broiler Chicks ◽

Uric Acid Concentration ◽

Riboflavin Deficiency ◽

Deficient Diet ◽

High Incidence ◽

Liver And Kidney ◽

Riboflavin Deficient

Day-old broiler chicks of both sexes were used in three experiments to determine the effect of riboflavin deficiency on oxypurine metabolism catalyzed by xanthine dehydrogenase, a riboflavin-containing enzyme. Chicks fed a riboflavin-deficient diet (1.38 mg/kg) for 3 weeks exhibited depressed growth and a high incidence of curled-toe paralysis (higher than 80%) as compared to control chicks (15.1 mg riboflavin per kilogram diet; no incidence of curled-toe paralysis). In addition, the precursors of uric acid, hypoxanthine and/or xanthine, accumulated in the liver and kidney of deficient chicks showing curled-toe paralysis. These observations show that dietary riboflavin being incorporated into xanthine dehydrogenase is essential for oxypurine metabolism. Moreover in the chick, the liver and the kidney may be important sites of uric acid synthesis. The low uric acid concentration in the plasma of the deficient chicks appeared to be indicative of a disturbance in uric acid synthesis in the liver and kidney.

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Transcriptional profiling of liver in riboflavin-deficient chicken embryos explains impaired lipid utilization, energy depletion, massive hemorrhaging, and delayed feathering

BMC Genomics ◽

10.1186/s12864-018-4568-2 ◽

2018 ◽

Vol 19 (1) ◽

Cited By ~ 7

Author(s):

Larry A. Cogburn ◽

Danielle N. Smarsh ◽

Xiaofei Wang ◽

Nares Trakooljul ◽

Wilfrid Carré ◽

...

Keyword(s):

Transcriptional Profiling ◽

Energy Depletion ◽

Chicken Embryos ◽

Lipid Utilization ◽

Riboflavin Deficient

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Glutathione peroxidase (EC 1.11.1.9) and superoxide dismutase (EC 1.15.1.1) activities in riboflavin-deficient rats infected with Plasmodium berghei malaria

British Journal Of Nutrition ◽

10.1079/bjn19980048 ◽

1998 ◽

Vol 79 (3) ◽

pp. 305-309 ◽

Cited By ~ 12

Author(s):

D. A. Adelekan ◽

D. I. Thurnham

Keyword(s):

Superoxide Dismutase ◽

Glutathione Peroxidase ◽

Plasmodium Berghei ◽

Control Group ◽

Riboflavin Deficiency ◽

Sod Activity ◽

Parasite Protein ◽

Riboflavin Deficient ◽

Gpx Activity ◽

Deficient Group

Riboflavin deficiency interferes with the growth and multiplication of malaria parasites as well as the host response to malaria. The objective of the present work was to determine the effects of riboflavin deficiency on erythrocyte glutathione peroxidase (EC1.11.1.9; GPx) and superoxide dismutase (EC1.15.1.1; SOD) in rats infected withPlasmodium bergheimalaria. Riboflavin in its co-enzyme form, FAD, is required by glutathione reductase (EC1.6.4.1) to regenerate GSH and GSH is an important cellular antioxidant both in its own right and also as a substrate for the enzyme GPx. Weanling rats were deprived of riboflavin for 8 weeks before intraperitoneal injection of 1 × 106P. bergheiparasites. Control animals were weight-matched to the respective riboflavin-deficient group. At 10d post-infection, parasite counts were higher in the weight-matched control group than the riboflavin-deficient group (P= 0.004). GPx activity was higher in erythrocytes of rats parasitized withP. bergheithan comparable non-infected rats regardless of riboflavin status (P< 0.05). As mature erythrocytes do not synthesize new protein, the higher GPx activities were probably due to the presence of the parasite protein. In erythrocytes from riboflavin-deficient rats, GPx activity tended to be lower than in those rats fed on diets adequate in riboflavin (weight-matched controls) whether parasitized or not, but the difference was not significant. Neither riboflavin deficiency nor malaria had any effect on erythrocyte SOD activity. It was concluded that riboflavin deficiency has no marked effect on erythrocyte GPx or SOD activity in the rat.

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