Kinetic properties of de-repressible alkaline phosphatase (EC 3.1.3.1) from Neurospora crassa

De-repressible alkaline phosphatase from N. crassa shows inhibition by PNP-P and a hyperbolic mixed-type inhibition by Pi. Both increasing concentrations of Pi and decreases in assay pH abolished inhibition by the substrate. Also, Pi promoted polymerization of the enzyme molecule, whose effect may account for the inhibitory behaviour shown by the enzyme in the presence of low Pi concentrations.     

Effect of cadmium on the activity of alkaline phosphatase (3.1.3.1) of Venus gallina]

The marine mollusc Venus gallina was exposed to 32 days sublethal concentrations of Cadmium (0.1 microliter/ml). The activity of alkaline phosphatase was assayed every four days. In the controls the activity was also tested in different tissues and in the soft tissue for the pH dependence. Moreover the influence of direct addition of 10(-4) M Cd on enzyme preparation in vitro was assayed. From the results there are no consistent relationships between the direct in vitro effects of the metal on the enzyme, that is inhibitory, and the effect of exposing the whole animal to the same metal, in this case no inhibition was observed.     

The effect of doxycycline on the intestinal alkaline phosphatase (EC 3.1.3.1) activity in rat. A quantitative study

The doxycycline effect on the alkaline phosphatase activity in the small intestinal glandular epithelium in rat was examined, using the interferometric technique. The antibiotic caused a statistically significant fall of the alkaline phosphatase activity and the enzyme was found to decrease with consecutive doses of the drug.     

Effect of simultaneous administration of ibuprofen and ethanol on the alkaline phosphatase activity in the small intestine

Using the interferometric technique the authors studied the effect of simultaneous administration of ibuprofen (Polfa) and ethanol on the activity of alkaline phosphatase in the proximal jejunum. Both ibuprofen and ethanol cause in the digestive tract functional and morphological changes. The used technique of quantitative determination of alkaline phosphatase activity at the site of its primary location made possible an assessment of changes in the activity of the enzyme caused by the administered agents. It was found that after 60 days of the experiment both agents caused a statistically greater changes were observed in the rats receiving both these agents simultaneously. The obtained results suggest the conclusion that simultaneous administration of ibuprofen and ethanol causes in the mucosal gland in the proximal small intestine development of an interaction of the additive.     

Quantitative changes in alkaline phosphatase in epithelial cells of rat small intestine from birth to weaning

Synopsis Alkaline phosphatase activity has been measured in mucosal scrapings of rat small intestine from birth to weaning. The levels of activity were then compared with those found in brush border fractions and cell residues over the same period. The amount of activity found in the residues was too high and variable to be accounted for in terms of diffusion, and it was concluded that during the developmental period considerable quantities of enzyme were present in the cytoplasm.The duodenal changes were similar, in form, in both mucosal scrapings and brush border, but the changes in the ileal brush borders were markedly different from those found in the ileal mucosal scrapings. A peak in the activity measured in the brush border fraction was observed during the weaning period. A partial explanation for the observed changes is suggested but a detailed analysis was not possible at the present stage in the work.     

Concerning the question of individual constancy and individual specificity of three serum enzyme activities (serum cholinesterase EC 3.1.1.8, ceruloplasmin EC 1.10.3.2, and alkaline phosphatase EC 3.1.3.1)

Summary Several assays of the enzymatic activities of serum cholinesterase, ceruloplasmin and alkaline phosphatase of 30 healthy students during a 9 months period revealed quite constant enzyme levels for each subject. Further, it was observed that most of the subjects maintained a specific enzyme activity value and that the individual range of scatter was characteristic for each one of them.According to our studies it seems probable that quantitative enzyme assays in adults can also be rated as biochemical parameters of individuality.Supported by the Deutsche Forschungsgemeinschaft.     

Physico-chemical properties of alkaline phosphatase from the seal small intestine

Alkaline phosphatase of the Greenland seal was purified to homogeneity, using immobilized concanavalin A. The specific activity of the enzyme is 1200-1500 mu/mg protein. The molecular mass of alkaline phosphatase as determined by electrophoresis performed under non-denaturating conditions is 260 kD, whereas that determined in the presence of beta-mercaptoethanol and SDS is 70 kD, which points to the tetrameric type of the seal alkaline phosphatase molecule. Using the atomic adsorption method, it was demonstrated that the phosphatase molecule contains four zinc atoms. Some physico-chemical parameters of seal alkaline phosphatase (pH-dependence, effects of temperature and cations on the enzyme activity, pI, thermal stability) were determined.     

Effect of various fish meals on disaccharidases and alkaline phosphatase of the small intestine in rats

Female rats of the Wistar strain, weighing 40-60 g were used to study the effect of fish meals (Coryphaenoides rupestris, Chimaera monstruosa and Merluccius merluccius) on the disaccharidases and alkaline phosphatase in the small intestine in relation to the control group which consumed casein. Fish meal diets diminished lactase and alkaline phosphatase activity, the latter being most remarkable in animals fed Ch. monstruosa meal, while no statistical variations in maltase and sucrase activity were observed. Maltase, sucrase and lactase activity of animals fed Ch. monstruosa meal dropped in comparison with those fed C. rupestris meal, while the alkaline phosphatase activity showed no significant changes.     

Effects of amines and aminoalcohols on bovine intestine alkaline phosphatase activity

Bovine intestine alkaline phosphatase (BIALP) is widely used as a signaling enzyme in sensitive assays such as enzyme immunoassay (EIA). In this study, we evaluated the effects of various aminoalcohols and amines on the activity of BIALP in the hydrolysis of p-nitrophenyl phosphate (pNPP) at pH 9.8, at 20 °C. The k_cat values at 0.05 M diethanolamine, 0.1 M triethanolamine, and 0.2 M N-methylethanolamine were 190 ± 10, 840 ± 30, and 500 ± 10 s⁻¹, respectively. The k_cat values increased with increasing concentrations of diethanolamine, triethanolamine, and N-methylethanolamine and reached 1240 ± 60, 1450 ± 30, and 2250 ± 80 s⁻¹, respectively, at 1.0 M. On the other hand, the k_cat values at 0.05-1.0 M ethanolamine, ethylamine, methylamine, and dimethylamine were in the range of 100-600 s⁻¹. These results indicate that diethanolamine, triethanolamine and N-methylethanolamine highly activate BIALP and might be suitable as a dilution buffer of BIALP in EIA. Interestingly, the K_m values increased with increasing concentrations of diethanolamine and N-methylethanolamine, but not triethanolamine: the K_m value at 1.0 M diethanolamine (0.83 ± 0.15 mM) was 12-fold higher than that at 0.05 M (0.07 ± 0.01 mM), and that at 1.0 M N-methylethanolamine (2.53 ± 0.20 mM) was 14-fold higher than that at 0.2 M (0.18 ± 0.02 mM), while that at 1.0 M triethanolamine (0.31 ± 0.01 mM) was similar as that at 0.2 M (0.25 ± 0.01 mM), suggesting that the mechanisms of BIALP activation are different between the aminoalcohols.     

Characterization of brush border membrane-bound alkaline phosphatase activity in different segments of the porcine small intestine

This study was conducted to characterize enterocyte apical membrane-bound alkaline phosphatase activity in different segments of the porcine small intestine. Duodenal, jejunal, and distal ileal segments were isolated from three 26-kg pigs and enterocyte brush border membrane, enriched between 19- and 24-fold in sucrase specific activity, was prepared by Mg(2+) precipitation and differential centrifugation. With P-nitrophenyl phosphate as substrate, the optimum pH for porcine brush border membrane-bound alkaline phosphatase activity was defined to be 10.5 for all three segments. At the optimal pH, the kinetics of membrane-bound alkaline phosphatase were determined for the three intestinal segments. The affinity of this enzyme (K(m), mM) in the jejunum (0.64 +/- 0.07) was four times greater than that in the duodenum (2.75 +/- 0.59) and the distal ileum (2.71 +/- 1.14). These results indicate that different isomers of membrane-bound alkaline phosphatase might have been expressed in different segments of porcine small intestine. The maximal specific activity (V(max), micromol/mg protein . min) of this enzyme was highest in the duodenal (7.74 +/- 0.95), intermediate in the jejunal (4.31 +/- 0.18), and lowest in the distal ileal (3.53 +/- 0.84) brush border membrane. Therefore, the maximal specific activity of brush border membrane-bound alkaline phosphatase along the intestinal longitudinal axis in growing pigs decreases from the duodenum toward the distal ileum.     

Effect of metal ions on the secondary structure and activity of calf intestine phosphatase

Cobalt is an essential microelements in many biological processes involving enzymatic activity. We found that Zn2+ and Mg2+, which are in the active site of native calf intestine alkaline phosphatase (CIP), can be replaced by Co2+ directly in solution. The effect of Co2+ concentration on the substitution reaction was examined at ratios of [Co2+]/[CIP] from 0:1 to 8:1. The quantity of Zn2+ in CIP decreased progressively as the ratio was increased, but the amount of Mg2+ changed in irrregular fashion. A series of active site models of the reaction mechanism of CIP are proposed. Low pH was found to promote the replacement of Mg2+ by Co2+. To understand how the substitution affects the enzyme, we also solved the secondary structure of CIP after reaction with Co2+ in different conditions.     

Purification and properties of alkaline phosphatase from the mucosa of rat small intestine

Alkaline phosphatase [orthophosphoric monoester phosphohydrolase, EC 3.1.3.1] was purified from the mucosa of rat small intestine by butanol extraction, ethanol fractionation, gel filtration, with controlled-pore glass-10 and DEAE-cellulose column chromatography. On the gel filtration, the enzyme activity was separated into three peaks; A in the void volume, B and C at lower molecular weight positions. Enzyme A was purified to homogeneity. The activity of enzymes A, B, and C was detected even on sodium dodecyl sulfate-polyacrylamide gel electrophoresis at the position of the protein of enzyme A, which had a molecular weight of 110,000 daltons. Enzymatic properties such as pH optimum, Km value for the substrate, heat inactivation and inhibition by amino acids were the same in all three enzymes. Based on these findings, together with the elution positions on gel filtration, enzyme A was regarded as an aggregate, and enzymes B and C as dimer and monomer molecules, respectively.     

Effects of polyethylene glycol on bovine intestine alkaline phosphatase activity and stability

In this study, we evaluated the effects of polyethylene glycol (PEG) on bovine intestine alkaline phosphatase (BIALP) activity and stability. In the hydrolysis of p-nitrophenylphosphate (pNPP) at pH 9.8 at 20 °C, the k(cat)/K(m) values of BIALP plus 5-15% w/v free PEG with molecular masses of 1, 2, 6, and 20 kDa (PEG1000, PEG2000, PEG6000, and PEG20000 respectively) were 120-140%, 180-300%, 130-170%, and 110-140% respectively of that of BIALP without free PEG (1.8 μM(-1) s(-1)), indicating that activation by PEG2000 was the highest. Unmodified BIALP plus 5% PEG2000 and BIALP pegylated with 2,4-bis(O-methoxypolyethylene glycol)-6-chloro-s-triazine exhibited 1.3-fold higher activity on average than that of BIALP without free PEG under various conditions, including pH 7.0-10.0 and 20-65 °C. The temperatures reducing initial activity by 50% in 30-min incubation of unmodified BIALP plus 5% PEG2000 and pegylated BIALP were 51 and 47 °C respectively, similar to that of BIALP without free PEG (49 °C). These results indicate that the addition of PEG2000 and pegylation increase BIALP activity without affecting its stability, suggesting that they can be used in enzyme immunoassay with BIALP to increase sensitivity and rapidity.