Effects of peroral alanine administration in lactating ewes with decreased availability of glucose

Holtenius, K.; Holtenius, P.

doi:10.1079/bjn19970196

Br J Nutr

1997

DOI: 10.1079/bjn19970196

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Effects of peroral alanine administration in lactating ewes with decreased availability of glucose

K. Holtenius

P. Holtenius

Abstract: The metabolic effects of a phlorizin-induced drainage of glucose were studied in six lactating ewes with or without peroral alanine drenches in a study of crossover design. Phlorizin gave rise to a small, but significant, elevation of plasma /?-hydroxybutyrate. The plasma level of alanine decreased by about 30% due to the phlorizin injections and alanine was negatively correlated to /?-hydroxybutyrate. The plasma level of free fatty acids increased due to phlorizin. Plasma insulin and glucose concentrations we… Show more

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Cited by 2 publications

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Phlorizin Administration Does Not Attenuate Hypophagia Induced by Intraruminal Propionate Infusion in Lactating Dairy Cattle

Bradford¹,

Allen²

2007

The Journal of Nutrition

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Infusion data from ruminants has shown that propionate stimulates satiety and decreases meal size, possibly because of increased propionate oxidation in the liver. In this experiment, phlorizin was used to increase glucose demand, which was expected to decrease propionate oxidation and attenuate the decrease in dry matter intake (DMI) caused by propionate infusion. Twelve multiparous, ruminally-cannulated Holstein cows (49+/-33 d in milk, 40+/-7 kg/d milk; mean+/-SD) were randomly assigned to square and treatment sequence in a replicated 4x4 Latin square experiment with a 2x2 factorial arrangement of treatments. Treatments were subcutaneous injection of phlorizin or propylene glycol in combination with intraruminal infusion of either Na acetate or Na propionate. Following a 7-d adaptation period, phlorizin (4 g/d) and control injections were administered every 6 h for 7 d. During the final 2 d of injections, Na acetate or Na propionate solutions (1 mol/L, pH 6.0) were infused continuously at the rate of 0.80 L/h. Feeding behavior data were collected during the final 2 d of treatment. Phlorizin caused urinary excretion of 400+/-40 g glucose/d across infusion treatments. Phlorizin tended to increase plasma free fatty acid and beta-hydroxybutyrate concentrations to a greater extent with Na acetate compared to Na propionate infusion (both interactions P<0.15). Phlorizin decreased and Na propionate increased plasma insulin and glucose concentrations. Infusion of Na propionate decreased DMI (18.4 vs. 21.1+/-1.4 kg/d, P<0.001) through an increase in intermeal interval (89.2 vs. 77.3+/-6.6 min, P=0.03), resulting in fewer meals per day (11.6 vs. 13.7+/-0.7, P<0.001). Phlorizin did not alter DMI (P=0.39) or measures of feeding behavior, nor were there interactions with infusion type. Increasing glucose demand does not limit the extent to which propionate decreases DMI in lactating dairy cows.

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Phlorizin Administration Does Not Attenuate Hypophagia Induced by Intraruminal Propionate Infusion in Lactating Dairy Cattle

Bradford¹,

Allen²

2007

The Journal of Nutrition

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Substrate utilization for hepatic gluconeogenesis is altered by increased glucose demand in ruminants.

Overton

Drackley

Ottemann-Abbamonte

et al. 1999

Journal of Animal Science

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Hepatocytes isolated from 10 Dorset wethers that were treated with excipient or 1.0 g/d of phlorizin for 72 h were used to determine the effects of increased glucose demand on utilization of [1-(14)C]propionate and [1-(14)C] alanine for oxidative metabolism and gluconeogenesis. Control and phlorizin-treated wethers excreted 0 and 62.8 g/d of glucose into the urine, respectively. Phlorizin treatment tended to increase conversion of propionate and alanine to CO2. A phlorizin x substrate interaction for conversion to glucose indicated that conversion of alanine to glucose was increased more by phlorizin treatment than was conversion of propionate (285 vs 166% of controls). Phlorizin treatment did not affect estimated Ks for conversion of substrates to either CO2 or glucose; however, phlorizin increased estimated Vmax for conversion of substrates to CO2 and tended to increase estimated Vmax for conversion of substrates to glucose. Phlorizin treatment slightly increased the ratio of conversion of propionate to glucose compared with CO2 and slightly decreased the ratio of conversion of alanine to glucose compared with CO2. In vitro addition of 2.5 mM NH4Cl decreased conversion of propionate to CO2 and glucose but had little effect on conversion of alanine to CO2 and glucose. Estimated Ks and Vmax for conversion of substrates to CO2, Ks for conversion of substrates to glucose, and Vmax for conversion of alanine to glucose were not affected by NH4Cl; however, Vmax for conversion of propionate to glucose was decreased by NH4Cl. These data indicate that although utilization of propionate for gluconeogenesis is extensive, amino acids have the potential to increase in importance as gluconeogenic substrates when glucose demand is increased substantially. Furthermore, excess ammonia decreases the capacity of hepatocytes to utilize propionate for oxidation and gluconeogenesis.

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Effects of peroral alanine administration in lactating ewes with decreased availability of glucose

Cited by 2 publications

References 25 publications

Phlorizin Administration Does Not Attenuate Hypophagia Induced by Intraruminal Propionate Infusion in Lactating Dairy Cattle

Phlorizin Administration Does Not Attenuate Hypophagia Induced by Intraruminal Propionate Infusion in Lactating Dairy Cattle

Substrate utilization for hepatic gluconeogenesis is altered by increased glucose demand in ruminants.

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