Purification of xanthine oxidase from bovine milk by affinity chromatography with a novel gel.

A new affinity gel was synthesized for the purification of xanthine oxidase (XO, EC 1.2.3.22) from bovine milk. The gel was prepared on a Sepharose 4B matrix on which a spacer arm based on l-tyrosine was covalently attached via CNBr activation, followed by reaction with the XO inhibitor p-aminobenzamidine. The elution conditions of affinity gel were determined at different pH values and ionic strengths. Maximum elution of XO was achieved at pH 9.0 and ionic strength around 0.4. The overall purification for XO was 1645-fold with 20.49% yield. SDS-PAGE of the enzyme indicates a single band with an apparent MW of 150 kDa. The gel provides a simple, rapid and effective useful for the purification of XO. Heat stability was determined on purified XO activity. Xanthine oxidase was preserved up to 70% with activity exposure of 60 °C and incubated for 60 min. These results indicated that the enzyme was heat stable.

Synthesis of a novel affinity gel for the purification of carbonic anhydrases.

A new affinity gel was synthesized for the purification of carbonic anhydrase (CA, EC 4.2.1.1) isozymes from erythrocytes. The gel was prepared on a Sepharose 4B matrix on which a spacer arm based on ethylenediamine was covalently attached via CNBr activation, followed by reaction with the CA inhibitor 4-isothiocyanato-benzenesulfonamide. The derivatized gel incorporated thioureido-benzenesulfonamide moieties as CA ligand. The binding capacity of the new affinity gel was determined at different temperatures, pH values, ionic strengths and elution buffers. The maximum binding of various CAs was achieved at 25 °C with pH 8.5 and ionic strength around 0.4. The overall purifications for human (h) hCA I and hCA II were 672- and 580-fold, and with 62 and 43% yields, respectively. SDS-polyacrylamide gel electrophoresis showed single bands for each purified isozymes, corresponding to a molecular weight of approx. 29 kDa. This is an easily obtainable, efficient and robust affinity gel, useful for the purification of many other α-CAs.

Catalase, carbonic anhydrase and xanthine oxidase activities in patients with mycosis fungoides.

Mycosis fungoides (MF) is the most common form of cutaneous T-cell lymphoma. In several studies the relationship between catalase (CAT), human cytosolic carbonic anhydrases (CA; hCA-I and hCA-II) and xanthine oxidase (XO) enzyme activities have been investigated in various types of cancers but carbonic anhydrase, catalase and xanthine oxidase activities in patients with MF have not been previously reported. Therefore, in this preliminary study we aim to investigate CAT, CA and XO activities in patients with MF. This study enrolled 32 patients with MF and 26 healthy controls. According to the results, CA and CAT activities were significantly lower in patients with mycosis fungoides than controls (p < 0.001) (p < 0.001). There was no significant difference in XO activity between patient and control group (p = 0.601). Within these findings, we believe these enzyme activity levels might be a potentially important finding as an additional diagnostic biochemical tool for MF.

Carbonic anhydrase inhibitors. Phenols incorporating 2- or 3-pyridyl-ethenylcarbonyl and tertiary amine moieties strongly inhibit Saccharomyces cerevisiae ß-carbonic anhydrase.

A series of phenols incorporating tertiary amine and trans-pyridylethenyl-carbonyl moieties were assayed as inhibitors of the ß-carbonic anhydrase (CA, EC 4.2.1.1) from Saccharomyces cerevisiae, ScCA. One of these compounds was a low nanomolar ScCA inhibitor, whereas the remaining ones inhibited the enzyme with KIs in the range of 23.5-95.4 nM. The off-target human (h) isoforms hCA I and hCA II were much less inhibited by these phenols, with KIs in the range of 0.78-23.5 µM (hCA I) and 10.8-52.4 µM (hCA II). The model organism S. cerevisiae and this particular enzyme may be useful for detecting antifungals with a novel mechanism of action compared to the classical azole drugs to which significant drug resistance emerged.

Investigation of heavy metal effects on immobilized paraoxanase by glutaraldehyde.

Serum paraoxonase 1 (PON1) was purified from bovine serum using hydrophobic interaction chromotography on Sepharose 4B-coupled l-tyrosine 1-naphthylamine gel, and monitored by sodium dodecyl sulfate polyacrylamide gel electrophoresis. Paraoxonase enzyme was immobilized using different ratios of glutaraldehyde and the maximum activity was observed with 7% glutaraldehyde. The effects of inhibition by Mn(+2), Co(+2) and Cu(+2) heavy metals on the immobilized and free enzyme activities were studied. At the optimum pH and temperature, the K(m) and V(max) kinetic values for bovine serum paraoxonase and immobilized paraoxonase towards paraoxon substrate were determined as 0.296 × 10(-3) M & 37.04 EU vs. 0.727-10(-3) M & 36.36 EU, respectively.

In vitro effect of novel ß-lactam compounds on xanthine oxidase enzyme activity.

Carbazole substituted imines (2a-l) were prepared from N-methyl-3-amino carbazole with different aldehydes. The imines compounds undergo (2+2) cycloaddition reactions with in situ ketenes to produce ß-lactam compounds (3a-l). The ß-lactam compounds were tested as inhibitors of the xanthine oxidase (XO) purified from bovine milk. The results show that these compounds exhibit inhibitory effects on XO at low concentrations with IC(50) values ranging from 21.65 to 58.04 µM. The most effective compound for XO was 4-(4-chlorophenyl)-1-(9-ethyl-9H-carbazol-3-yl)-3-phenylazetidin-2-one with IC(50) of 21.65 µM. The lactams investigated here showed effective XO inhibitory effects, in the same range as the clinically used allopurinol.