Some Biochemical Observations on Biotin Deficiency in the Rat as a Model for Human Pyruvate Carboxylase Deficiency

Schrijver, J; Dias, Th.; Hommes, F. A.

doi:10.1159/000176255

Cited by 16 publications

(6 citation statements)

References 16 publications

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“…Under conditions which reduced hepatic pyruvate carboxylase activities to 3% of control, that of cerebrum, brainstem and cerebellum remained at 53 to 71% of control (8). Our data, and those of others on pyruvate carboxylase (9,10) and propionyl CoA carboxylase [EC 6.4.1.3] (9), were consistent with a relative retention of biotin in brains of biotin-deficient rats (11). In the present work, we ask whether there exists a concentrative mechanism for biotin in rat brain.…”

supporting

confidence: 73%

Biotin Transport in the Rat Central Nervous System.

Kadlecek

Packman

1991

Journal of Nutritional Science and Vitaminology, J Nutr Sci Vit

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supporting

confidence: 73%

Biotin Transport in the Rat Central Nervous System.

Kadlecek

Packman

1991

Journal of Nutritional Science and Vitaminology, J Nutr Sci Vit

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“…Because of the sensitivity of some flux estimates to the neuronal glutamate concentration, we evaluated the effects of assuming a lower percentage for the fraction of total glutamate in glutamatergic neurons (78%) for P10 cortex where less information is known. In the analysis of the P30 data, anaplerotic flux (V PC ) was assumed to be 20% of glutamine synthesis (V gln ) (Sibson et al, 2001), whereas for the P10 data, V PC was assumed to be 1/4 of its value at P30 (Schrijver et al, 1979). Fitted flow rates included glutamatergic and GABAergic TCA cycle fluxes (V TCA(Glu) , V TCA(GABA) ), astroglial TCA cycle flux (V TCAa ), neurotransmitter cycles (V cyc(Glu/Gln) , V cyc(GABA/Gln) ), GABA shunt flux (V shunt ), and GABAergic TCA cycle flux (V TCA(GABA) ).…”

Section: Determination Of Metabolic Fluxes From Time Course Datamentioning

confidence: 99%

Glutamatergic and GABAergic Neurotransmitter Cycling and Energy Metabolism in Rat Cerebral Cortex during Postnatal Development

Chowdhury

Patel

Mason

et al. 2007

J Cereb Blood Flow Metab

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The contribution of glutamatergic and c-aminobutyric acid (GABA)ergic neurons to oxidative energy metabolism and neurotransmission in the developing brain is not known. Glutamatergic and GABAergic fluxes were assessed in neocortex of postnatal day 10 (P10) and 30 (P30) urethaneanesthetized rats infused intravenously with [1,6-13 C 2 ]glucose for different time intervals (time course) or with [2-13 C]acetate for 2 to 3 h (steady state). Amino acid levels and 13 C enrichments were determined in tissue extracts ex vivo using 1 H-[ 13 C]-NMR spectroscopy. Metabolic fluxes were estimated from the best fits of a three-compartment metabolic model (glutamatergic neurons, GABAergic neurons, and astroglia) to the 13 C-enrichment time courses of amino acids from [1,6-13 C 2 ]glucose, constrained by the ratios of neurotransmitter cycling (V cyc )-to-tricarboxylic acid (TCA) cycle flux (V TCAn ) calculated from the steady-state [2-13 C]acetate enrichment data. From P10 to P30 increases in total neuronal (glutamate plus GABA) TCA cycle flux (3¾; 0.2460.05 versus 0.716 0.07 lmol per g per min, P < 0.0001) and total neurotransmitter cycling flux (3.1 to 5¾; 0.07 to 0.11 (6 0.03) versus 0.3460.03 lmol per g per min, P < 0.0001) were approximately proportional. Incremental changes in total cycling (DV cyc(tot) ) and neuronal TCA cycle flux (DV TCAn(tot) ) between P10 and P30 were 0.23 to 0.27 and 0.47 lmol per g per min, respectively, similar to the B1:2 relationship previously reported for adult cortex. For the individual neurons, increases in V TCAn and V cyc were similar in magnitude (glutamatergic neurons, 2.7¾ versus 2.8 to 4.6¾; GABAergic neurons, B5¾ versus B7¾), although GABAergic flux changes were larger. The findings show that glutamate and GABA neurons undergo large and approximately proportional increases in neurotransmitter cycling and oxidative energy metabolism during this major postnatal growth spurt.

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“…This apparent contradiction would appear to be due to the use of egg-white as a source of avidin in the diets of Cunha et al (1946) and other workers, as growth depression has only been noted when egg-white has been included in diets. Tuszynska (1969) and Schrijver et al (1979) showed that biotin supplementation of diets containing egg-white did not result in rat growth equivalent to that observed in animals fed on a laboratory chow of much lower biotin content. This suggested that the growth depression observed when egg-white was given was not entirely due to biotin inadequacy.…”

Section: Discussionmentioning

confidence: 99%

Biotin studies in pigs

et al. 1989

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Sixteen pigs were given a purified diet of maize flour and casein from 5 to 25 d of age with or without a biotin supplement (100 pg/kg). From 26 to 94 d of age, eight of the pigs were changed to a wheat and casein diet with or without the biotin supplement and eight continued on the maize flour and casein diet. The weight gain and feed conversion ratio of the pigs were not affected by the dietary biotin supplement or the carbohydrate source. The pigs given the unsupplemented maize flour diet developed foot lesions, scaly skins and showed a reduction in carcass length. The excretion of biotin in the faeces was similar for the pigs given the biotin-supplemented and unsupplemented diets. The excretion of biotin in the faeces of pigs given the wheat diet was ten times as great as that of the pigs given the maize flour diet. The excretion of biotin in urine was 6 pg/d in the pigs given the unsupplemented maize flour diet and 67 pg/d in the pigs given the biotin-supplemented diet between 91 and 94 d of age. The biotin contents of the liver, heart, kidney, adrenals and plasma were increased by biotin supplementation of the maize flour diet. The 16:1/16:0 and 18:1/18:0 fatty acids ratios in the liver were decreased by biotin supplementation of the maize flour diet.

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Some Biochemical Observations on Biotin Deficiency in the Rat as a Model for Human Pyruvate Carboxylase Deficiency

Cited by 16 publications

References 16 publications

Biotin Transport in the Rat Central Nervous System.

Biotin Transport in the Rat Central Nervous System.

Glutamatergic and GABAergic Neurotransmitter Cycling and Energy Metabolism in Rat Cerebral Cortex during Postnatal Development

Biotin studies in pigs

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