Trygve L. Veum

Adaptive increase in phytate digestibility by phosphorus-deprived rats and the relationship of intestinal phytase (EC 3.1.3.8) and alkaline phosphatase (EC 3.1.3.1) to phytate utilization.

1. The effects of phosphorus deprivation on phytate digestibility, phosphorus utilization and intestinal phytase (EC 3.1.3.8) and alkaline phosphatase (EC 3.1.3.1) in rats were investigated. 2. P deprivation was achieved by giving rats a diet containing 3 g P/kg and resulted in hypophosphataemia, hypercalcaemia, hypercalciuria, and lower levels of P absorbed and retained, and calcium retained. 3. Rats adapted to P deprivation by increasing the digestion of total dietary-P and phytate-P. 4. Levels of intestinal alkaline phosphatase and alkaline phytase were not different between the two treatment groups. 5. P deprivation in the rats given the marginal-P diet may be a result of a lower absorption of total dietary-P or increased absorption of inositol phosphates formed during the enzymatic hydrolysis of phytate which are not readily utilized by the rat. 6. These results suggest that intestinal phytase and alkaline phosphatase do not play a role in the adaptive increase in phytate digestibility by rats given marginal-P diets. The adaptation may result from enhanced phytase or alkaline phosphatase synthesis by the gastrointestinal microflora stimulated by a lower level of P in the digesta.

The addition of ground wheat straw as a fiber source in the gestation diet of sows and the effect on sow and litter performance for three successive parities.

A regional experiment was conducted at 8 experiment stations, with a total of 320 sows initially, to evaluate the efficacy of adding 13.35% ground wheat straw to a corn-soybean meal gestation diet for 3 successive gestation-lactation (reproductive) cycles compared with sows fed a control diet without straw. A total of 708 litters were farrowed over 3 reproductive cycles. The basal gestation diet intake averaged 1.95 kg daily for both treatments, plus 0.30 kg of straw daily for sows fed the diet containing ground wheat straw (total intake of 2.25 kg/d). During lactation, all sows on both gestation treatments were fed ad libitum the standard lactation diet used at each station. Response criteria were sow farrowing and rebreeding percentages, culling factors and culling rate, weaning-to-estrus interval, sow BW and backfat measurements at several time points, and litter size and total litter weight at birth and weaning. Averaged over 3 reproductive cycles, sows fed the diet containing wheat straw farrowed and weaned 0.51 more pigs per litter (P <or= 0.04), and had total litter birth and weaning weights that were 0.87 and 3.59 kg heavier (P = 0.01), respectively, than sows fed the control gestation diet. Sows fed the gestation diet containing wheat straw consumed more (P = 0.01) lactation diet per day than control sows. There were no gestation diet treatment differences for any sow fate criterion (farrowing and rebreeding percentages, and culling rate), any sow BW and backfat measurement, or the weaning-to-estrus interval. Lactation diet intake and all sow BW and backfat measurements increased with increasing parity. In conclusion, when the daily intake of the basal gestation diet was equalized for both treatments, the addition of 13.35% ground wheat straw to the gestation diet improved sow and litter performance, with increases in litter size and total litter weight at birth and weaning compared with control sows and litters.

Effect of graded levels of iron, zinc, and copper supplementation in diets with low-phytate or normal barley on growth performance, bone characteristics, hematocrit volume, and zinc and copper balance of young swine1

Fifty crossbred barrows with an average initial age of 31 d and BW of 9.94 kg were used in a 28-d experiment to evaluate the effect of a low-phytic acid (LPA) barley mutant (M) M955, a near-isogenic progeny of the normal barley (NB) cultivar Harrington with about 90% less phytate than NB, to increase the utilization of Fe, Zn, and Cu compared with diets containing NB. The response criteria were growth performance, hematocrit volume, metacarpal bone characteristics, and the apparent absorption, retention, and excretion of Zn and Cu. The 2 barley cultivars (NB and M955) and the 5 trace mineral (TM) treatment concentrations of Fe and Zn (0, 25, 50, 75, and 100% of the requirement as FeSO(4) and ZnSO(4)) and Cu (0, 40, 80, 120, and 160% of the requirement as CuSO(4)) made 10 treatments in a factorial arrangement. Available P was equalized at 0.33% in all diets by adding monosodium phosphate to the basal diet containing NB, and all diets contained 0.65% Ca. Diets were adequate in all other nutrients. Barley and soybean meal were the only sources of phytate in the practical diets that also contained spray-dried whey. The barrows were fed the diets to appetite in meal form twice daily in individual metabolism crates. There were no barley cultivar x TM treatment interactions, and there were no differences between the NB and M955 barley cultivars for any of the response criteria measured. However, for the TM treatments, there were linear increases (P < or = 0.05) in ADFI, ADG, hematocrit volume, metacarpal bone breaking strength and ash weight, and the apparent absorption, retention, and excretion (mg/d) of Zn and Cu. In conclusion, the LPA barley had no effect on the response criteria in this experiment, apparently because of the small increase in the availability of the endogenous trace minerals in the practical diets containing M955 compared with NB. However, increasing the supplementation of Fe and Zn from 0 to 100% (160% for Cu) of the requirement resulted in linear increases in growth performance, hematocrit volume, metacarpal bone strength and ash weight, and the apparent absorption, retention, and excretion of Zn and Cu. Therefore, these results indicate that the inorganic trace mineral supplementation of practical diets for young pigs should not be less than the National Research Council requirements for swine.

Effect of zinc deficiency on enzyme activities in rat and pig erythrocyte membranes.

Abstract There is need for a reliable index of zinc status in humans. Considering the importance of zinc in membrane function, activities of erythrocyte membrane enzymes have been measured in animals of low and normal zinc status as possible indices. Immature rats and neonatal pigs were fed low and adequate zinc diets; the latter was fed both ad libitum and restricted so as to control for food intake effects. Low rates of gain and plasma zinc concentrations demonstrated that animals fed the low zinc diets were of low zinc status. Erythrocyte membranes were prepared and assayed for Na,K-ATPase, 5′-nucleotidase, and calcium-ATPase activities. Na,K-ATPase activity was not affected by zinc status, but 5′-nucleotidase was significantly lower in deficient animals of both species than in controls, whose food intake was restricted to maintain comparable weight (2.76 vs 3.94 nmol/hr/mg of protein in rats and 60.5 vs 119 in pigs). The basal calcium-ATPase activities were also decreased by low zinc status in both species. Addition of calmodulin in vitro stimulated activity two-fold to four-fold and resulted in the same maximal activities for all treatments. The results show that erythrocyte membrane 5′-nucleotidase activity is an index of zinc status in these species. It is suggested that the decreased membrane calcium-ATPase activity in zinc deficiency is caused by a defect in calmodulin metabolism.

Effect of zinc deficiency and food restriction in the pig on erythrocyte fragility and plasma membrane composition

Abstract Neonatal pigs (3 groups of 6) were fed for 28 days one of three diets, a low zinc diet (4.6 mg/kg) ad libitum (−ZnAL), an adequate zinc diet (103 mg/kg) ad libitum (+ZnAL) or the latter diet restricted (+ZnRF) to allow gain comparable to those fed −ZnAL. Osmotic fragility was measured, and erythrocyte membranes were isolated and analyzed for zinc, phospholipid fatty acids, and SDS-PAGE protein profiles. The −ZnAL diet produced severe zinc deficiency that resulted in increased osmotic fragility and decreased membrane zinc concentration, compared to +ZnAL. The linoleic acid contents of both phosphatidylcholine and phosphatidyl-ethanolamine were decreased while that of oleic acid was increased. The cholesterol/phospholipid ratio was higher than that of the +ZnAL group. of the membrane proteins, band 3 was lower while ankyrin was higher than those of the +ZnAL group. Relative to the abnormal fragility, decreased membrane zinc is considered most significant.

Influence of dietary phosphorus and sulphaguanidine levels on P utilization in rats

The effects of dietary phosphorus and sulphaguanidine levels, and sex differences on: (a) phytate digestibility, (b) calcium and P utilization, (c) the activities of alkaline phosphatase (EC 3.1.3.1), alkaline phytase (EC 3.1.3.8) and acid phosphatase (EC 3.1.3.2) in the intestinal mucosa of male and female rats were investigated. There was a linear increase in femur ash, Ca and P contents and the maximum force withstood by the fresh femurs as dietary P level was increased from 1.5 to 3.0 to 4.5 g/kg diet. The apparent digestibilities of Ca, P and phytate-P decreased as the level of P in the diet increased. Rats given the diets with 1.5 or 3.0 g P/kg were hypercalciuric and hypophosphaturic compared with rats receiving 4.5 g P/kg diet. The level of Ca retained was similar for all treatments. The level of P retained increased as the dietary P level increased. This suggests that P deprivation was a result of inadequate amounts of P retained and not due to the absorption of inositol phosphates formed during the enzymic hydrolysis of phytate. The addition of sulphaguanidine increased phytate digestibility without changing the activities of acid and alkaline phosphatase or alkaline phytase of the intestinal mucosa. This suggests that these enzymes did not play a role in the increase in phytate digestibility. However, dietary sulphaguanidine enhanced phytate digestibility, suggesting that alterations in the diet which modify either the composition or metabolism of the gastrointestinal microflora may be beneficial in enhancing the in vivo hydrolysis of phytate. Differences between males and females are reported and discussed.

Generation of low phytic acid Arabidopsis seeds expressing an E. coli phytase during embryo development

An Escherichia coli phytase gene was introduced into Arabidopsis plants using an embryo-specific promoter and a signal peptide for vacuolar targeting. Three independent transgenic lines were analysed. Phytase activity in dry seeds was observed in transgenic lines, whereas no activity was detected in control, untransformed seeds. Transgenic seeds expressing the phytase gene had lower levels of phytic acid than the controls. Concomitant with the decrease in phytic acid was an increase in free phosphate. These results indicated that embryo-expressed phytase can reduce the levels of phytic acid stored during development.

A bone biopsy procedure for neonatal pigs

Neonatal pigs were used to develop a surgical biopsy procedure to remove bone tissue from the ilium of small animals, with potential application for infants and small children. While the neonatal pig was under general anaesthesia, a scalpel was used to make a punch incision down to the ilium. Then a Craig Biopsy Trephine was used to remove a core sample of the bone. The samples ranged from 5 to 15 mm in length and 2 to 3 mm in diameter, with an average dry weight of 34·4 mg. The samples were adequate for mineral (calcium and zinc) analysis in our laboratory and may be equally suitable for histological or biochemical analyses. Surgical trauma was minimal, which permitted each pig to be biopsied every 7 days for 5 weeks without adverse consequences.

Relative availability of zinc in ground beef and soybean protein for young swine compared with zinc carbonate as the standard

The experimental objective was to determine the relative availability of endogenous Zn in soybean protein (SP) and cooked ground beef (GB) compared with the availability of Zn from ZnCO(3) for young swine. Crossbred pigs (4 trials with total n = 104) were weaned at an average age of 11 d, placed in metabolism cages, and allotted to 13 treatments. The basal semipurified negative control (NC) diet contained 2 mg of Zn/kg and wet-autoclaved spray-dried egg albumen (AEA) as the protein source. Reference diets were made by adding 3, 6, or 9 mg of Zn/kg from ZnCO(3) to the NC diet. The AEA in the NC diet was replaced with SP or GB to make diets with 3, 6, and 9 mg of Zn/kg from SP and GB. Positive control (PC) diets were made by adding 101 mg of Zn/kg from ZnCO(3) to the diets with 9 mg of Zn/kg from ZnCO(3), SP, or GB. Diets were mixed with deionized water and fed to appetite in gruel form every 3 h from 0800 to 2300 h. Pigs were weighed and blood samples were taken on d 7, 14, 21, and 28. Plasma concentrations of Cu, Fe, Zn, glucose, and urea N were determined. Total urine and fecal grab samples (Cr(2)O(3) in diets) were collected from d 7 to 14 and d 21 to 28 to determine Cu, Fe, Zn, and N apparent balance and energy utilization. On d 29, pigs were scored visually for parakeratosis and dosed orally with (65)Zn from ZnCl(2). Pigs were counted for whole body gamma radioactivity on d 29 and d 34 to 36, with Zn retention estimated by extrapolation to zero time. Pigs were killed on d 36 (NC on d 29). Samples of skin, tongue, and esophagus were taken for histological evaluation, and a tibia bone was excised for measurements and breaking strength. Pigs fed the diets with 9 mg Zn/kg from GB or ZnCO(3) were not different in Zn availability and retained about 70% Zn (apparent balance and (65)Zn) compared with 30% (P ≤ 0.05) for pigs fed the diet with 9 mg Zn/kg from SP. Also, pigs fed the diets with 9 mg Zn/kg from GB or ZnCO(3) had greater (P ≤ 0.05) growth performance, bone weight and breaking strength, % N retention, and % ME utilization, and smaller plasma urea N concentrations and parakeratosis scores (visual and histological) than pigs fed the diet with 9 mg Zn/kg from SP. Pigs fed the PC diets were not different in any response criteria. In conclusion, apparent Zn availability was not different from cooked GB and ZnCO(3), and Zn availability from cooked GB and ZnCO(3) was markedly greater than Zn availability from SP for young swine.