Effects of long-term parenteral administration of vitamin B<sub>6</sub>on B<sub>6</sub>status and some aspects of the glucose and protein metabolism of early-weaned piglets

Matte, J. J.; Girard, C.L.; Sève, Bernard

doi:10.1079/bjn2000221

Cited by 14 publications

(14 citation statements)

References 27 publications

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“…a The calculated compositions for ME, CP, lysine, Ca, and P of the basal diet were 2702 kcal/kg, 14.0, 0.6, 1.0, and 0.6% respectively. b The basal Se and pyridoxine contents of the diet were 0.3 and 1.7 mg/kg respectively (analytical values determined according to Matte et al (2001) and Giguère et al (2005) respectively).…”

Section: Samplingmentioning

confidence: 99%

Gene expression of porcine blastocysts from gilts fed organic or inorganic selenium and pyridoxine

Dalto¹,

Tsoi²,

Audet³

et al. 2015

Reproduction

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In this study, we determined how maternal dietary supplementation with pyridoxine combined with different sources of selenium (Se) affected global gene expression of porcine expanded blastocysts (PEB) during pregnancy. Eighteen gilts were randomly assigned to one of the three experimental diets (nZ6 per treatment): i) basal diet without supplemental Se or pyridoxine (CONT); ii) CONTC0.3 mg/kg of Na-selenite and 10 mg/kg of HCl-pyridoxine (MSeB 6 10); and iii) CONTC0.3 mg/kg of Se-enriched yeast and 10 mg/kg of HCl-pyridoxine (OSeB 6 10). All gilts were inseminated at their fifth post-pubertal estrus and killed 5 days later for embryo harvesting. A porcine embryospecific microarray was used to detect differentially gene expression between MSeB 6 10 vs CONT, OSeB 6 10 vs CONT, and OSeB 6 10 vs MSeB 6 10. CONT gilts had lower whole blood Se and erythrocyte pyridoxal-5-P concentrations than supplemented gilts (P!0.05). No treatment effect was observed on blood plasma Se-glutathione peroxidase activity (PZ0.57). There were 10, 247, and 96 differentially expressed genes for MSeB 6 10 vs CONT, OSeB 6 10 vs CONT, and OSeB 6 10 vs MSeB 6 10 respectively. No specific biological process was associated with MSeB 6 10 vs CONT. However, for OSeB 6 10 vs CONT, upregulated genes were related with global protein synthesis but not to selenoproteins. The stimulation of some genes related with monooxygenase and thioredoxin families was confirmed by quantitative real-time RT-PCR. In conclusion, OSeB 6 10 affects PEB metabolism more markedly than MSeB 6 10. Neither Se sources with pyridoxine influenced the Se-glutathione peroxidase metabolic pathway in the PEB, but OSeB 6 10 selectively stimulated genes involved with antioxidant defense.

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Section: Samplingmentioning

confidence: 99%

Gene expression of porcine blastocysts from gilts fed organic or inorganic selenium and pyridoxine

Dalto¹,

Tsoi²,

Audet³

et al. 2015

Reproduction

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“…The weaning period induces, in piglets, drastic challenges for homeostasis of water-soluble vitamins such as folates (Matte et al 1990;Letendre et al 1991), vitamin B 12 (Bilodeau et al 1989) and vitamin C (Yen & Pond, 1988). It is also the case of pyridoxine (vitamin B 6 ) for which the status is low at weaning (Matte et al 1997(Matte et al , 2001. In fact, sow milk is a poor dietary source of B 6 (Benedikt et al 1996), approximately 0•4 mg/ml, which is believed to cover less than half the amount required to sustain the piglet growth rate (Coburn, 1994).…”

mentioning

confidence: 99%

Some aspects of the pyridoxine (vitamin B₆) requirement in weanling piglets

Matte

Giguère²,

Girard³

2005

Br J Nutr

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Four trials were carried out to determine the optimal level of dietary pyridoxine (vitamin B 6 ) and its interaction with riboflavin (vitamin B 2 ) in earlyweaned piglets. In Trial 1, twelve piglets were tube-fed graded supplements of B 6 , 0, 10, 50 or 100 mg/kg. The level of 50 mg/kg maximized B 6 in red blood cells (P,0·05). In Trial 2, thirty-six piglets were tube-fed with four combinations of B 6 (0 v. 50 mg/kg) and B 2 (0 v. 25 mg/kg). The B 6 supplement increased (P,0·01) B 6 in red blood cells. C-peptide and insulin responses to intravenous glucose tended (P,0·08) to or decreased (P,0·03) with B 2 while no effect was observed on glucose. After gastro-enteral glucose, dietary B 2 depressed C-peptide and insulin responses in B 6 -unsupplemented piglets and increased them in B 6 -supplemented piglets (P,0·03). The glucose response tended to be higher in B 6 -supplemented piglets (P,0·06). Trials 3 and 4 were carried out in commercial conditions using either B 6 and/or B 2 supplements given during 2 weeks after weaning (Trial 3) or a B 6 supplement alone (50 mg/kg) given between 2 (weaning) and 10 weeks of age. Despite a marked and persistent increase (P,0·01) of B 6 in red blood cells in B 6 -supplemented piglets, the effect on growth performance was either none (P.0·39; Trial 3) or marginally lower ( , 22 %; P,0·03; Trial 4). In conclusion, it appears that a dietary supplement of 50 mg/kg B 6 saturated the red blood cell pool in B 6 and influenced, along with B 2 , the glucose homeostasis through the entero-insular axis. Nevertheless, such metabolic effects are not reflected on growth performance.

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“…Circulatory P-5-P must be hydrolyzed (by extracellular alkaline phosphatases) to pyridoxal that can cross cell membranes and then is trapped intracellularly by phosphorylation. Pyridoxal-5-P is over six times more concentrated in erythrocytes than in plasma possibly because the Schiff base with hemoglobin is stronger than the one with albumin, driving the uptake of the vitamin to erythrocytes; however, its storage in these cells is saturable [16,19]. …”

Section: Vitamin B6 Metabolismmentioning

confidence: 99%

Pyridoxine (Vitamin B6) and the Glutathione Peroxidase System; a Link between One-Carbon Metabolism and Antioxidation

Dalto

Matte

2017

Nutrients

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Vitamin B6 (B6) has a central role in the metabolism of amino acids, which includes important interactions with endogenous redox reactions through its effects on the glutathione peroxidase (GPX) system. In fact, B6-dependent enzymes catalyse most reactions of the transsulfuration pathway, driving homocysteine to cysteine and further into GPX proteins. Considering that mammals metabolize sulfur- and seleno-amino acids similarly, B6 plays an important role in the fate of sulfur-homocysteine and its seleno counterpart between transsulfuration and one-carbon metabolism, especially under oxidative stress conditions. This is particularly important in reproduction because ovarian metabolism may generate an excess of reactive oxygen species (ROS) during the peri-estrus period, which may impair ovulatory functions and early embryo development. Later in gestation, placentation raises embryo oxygen tension and may induce a higher expression of ROS markers and eventually embryo losses. Interestingly, the metabolic accumulation of ROS up-regulates the flow of one-carbon units to transsulfuration and down-regulates remethylation. However, in embryos, the transsulfuration pathway is not functional, making the understanding of the interplay between these two pathways particularly crucial. In this review, the importance of the maternal metabolic status of B6 for the flow of one-carbon units towards both maternal and embryonic GPX systems is discussed. Additionally, B6 effects on GPX activity and gene expression in dams, as well as embryo development, are presented in a pig model under different oxidative stress conditions.

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Effects of long-term parenteral administration of vitamin B₆on B₆status and some aspects of the glucose and protein metabolism of early-weaned piglets

Cited by 14 publications

References 27 publications

Gene expression of porcine blastocysts from gilts fed organic or inorganic selenium and pyridoxine

Gene expression of porcine blastocysts from gilts fed organic or inorganic selenium and pyridoxine

Some aspects of the pyridoxine (vitamin B₆) requirement in weanling piglets

Pyridoxine (Vitamin B6) and the Glutathione Peroxidase System; a Link between One-Carbon Metabolism and Antioxidation

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Effects of long-term parenteral administration of vitamin B6on B6status and some aspects of the glucose and protein metabolism of early-weaned piglets

Cited by 14 publications

References 27 publications

Gene expression of porcine blastocysts from gilts fed organic or inorganic selenium and pyridoxine

Gene expression of porcine blastocysts from gilts fed organic or inorganic selenium and pyridoxine

Some aspects of the pyridoxine (vitamin B6) requirement in weanling piglets

Pyridoxine (Vitamin B6) and the Glutathione Peroxidase System; a Link between One-Carbon Metabolism and Antioxidation

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Product

Resources

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Effects of long-term parenteral administration of vitamin B₆on B₆status and some aspects of the glucose and protein metabolism of early-weaned piglets

Some aspects of the pyridoxine (vitamin B₆) requirement in weanling piglets