Comparison between bone alkaline phosphatase immunoassay and electrophoresis technique in hemodialysis patients

Summary Background Problem of the variability between the different methods using for bone alkaline phosphatase (bALP) determination greately influences the clinical significance of bALP as direct marker of bone metabolism. The aim of this study was to compare immunoassay with electrophoresis technique for bALP determination. Methods We measured bALP in 71 patients on hemodialysis with agar gel electrophoresis (ISO-PAL, SEBIA) and immunoassay (OSTASE, Beckman Coulter). Results The analyzed methods showed significant correlation (Spearman’s rho: 0.776, P < 0.01), but we found statistically significant (P < 0.01) positive bias (27%) for the results measured by immunoassay. In support of this, using electrophoresis technique we have detected presence of the intestinal isoenzymes of alkaline phosphatase in 55% of patients with median value of 30% of the total alkaline phoshatase and presence of liver-2 alkaline phosphatase isoform in 42% of patients with median value of 16.6%. The Kendall’s W of 0.787 (P<0.0001) revealed significant concordance between two analysed methods. Cusum test showed no significant deviation from linearity (P=0.850). Conclusions Despite good agreement between immunoassay methods and electrophoresis technique for bALP determination, interchangeability between these two methods is questionable. Although immunoassays are increasingly used, as fully automated methods, in a large number of laboratories and become routine methods for bALP determination, it should be beared in mind, besides various interferences, also the heterogeneity of the bALP itself, especially in patients on hemodialysis.

Anomalous lipoprotein-X in type 2 diabetes mellitus

Type 2 diabetes mellitus (DM2) is the most common form of diabetes characterized by the disturbances of carbohydrate, protein, and lipid metabolism including dyslipidemia and elevation of the low-density lipoprotein (LDLP) levels. Lipoprotein-X (LP-X) represents an anomalous subclass of LDLP a distinctive feature of which is the high content of phospholipids and non-esterified cholesterol coupled with the low level of cholesterol ethers, triglycerides, and proteins. LP-X was detected in the blood of the patients with various diseases of the liver and biliary ducts associated with cholestasis. The results of our previous investigations suggest the presence of LP-X in the blood of the patients with familial Mediterranean fever and ischemic stroke complicated by concomitant diabetes mellitus. The objective of the present work was to elucidate whether LP-X actually occurs in the blood of the patients presenting with type 2 diabetes mellitus. We used the method of polyanionic precipitation of LDLP preliminarily separated by agar gel electrophoresis. The study has demonstrated for the first time the presence of LP-X in the blood of the patients with type 2 diabetes mellitus. Its possible pathogenetic role and mechanisms of LP-X generation in DM2 are discussed.

59 PRODUCTION OF HANDMADE CLONED GOAT EMBRYOS WITH TWO TYPES OF DONOR CELLS AND CULTURED IN THREE MEDIA

The study was carried out to see the developmental efficiency of handmade cloned goat embryos with 3 different media: RVCL (Research Vitro Cleave, Cook, Brisbane, Australia), EDM (Embryo Development Media) and modified SOF (mSOF) and 2 types of donor cells: fetal fibroblast and adult fibroblast. Oocytes were isolated from abattoir goat ovaries, matured in maturation medium, and incubated in 5% CO2 in air at 38.5°C for 24 h. Then, the oocytes were made cumulus free by treatment with hyaluronidase (0.5 mg mL-1) and zona free by pronase (2 mg mL-1). Protrusion cone formation in oocytes was found 95 to 100% in T20 (TCM-199 + 20% FBS). The zona-free oocytes were bisected with an ultra-sharp micro blade on the basis of visible protrusion cones on the surface of oocytes using T20 medium containing 2.5 μg mL-1 cytochalasin-B. Fetal and adult fibroblast cells were used from confluent monolayer at passage 5 after trypsinizing in 0.25% trypsin-EDTA. One somatic cell was attached with one enucleated demioocyte by phytohemagglutinin and further fused with another enucleated demioocyte through electric pulse with a combination of alternating current (4 V) and direct current (2.10 kV cm-1 for 5 μs with a single pulse) in fusion medium (0.3 M mannitol, 0.1 mM MgCl2, 0.05 mM CaCl2, and 3 mg mL-1 BSA). Then, triplets were chemically activated with 5 μM Ca ionophore for 5 min and 2 mM 6-DMAP for 4 h and cultured in the 3 media. Cleavage and morulae formation were observed at Day 7 from 183 triplets with fetal fibroblasts as donor cells in media RVCL (78.60 ± 2.23, 38.97 ± 2.1), mSOF (72.62 ± 1.89, 33.81 ± 1.9), and EDM (73.96 ± 1.66, 26.20 ± 2.04), respectively. Simultaneously, cleavage and morulae formation were observed at Day 7 from 203 triplets with adult fibroblasts as donor cells in media RVCL (73.97 ± 3.57, 33.14 ± 2.68), mSOF (76.22 ± 4.36, 26.15 ± 0.99), and EDM (65.97 ± 3.11, 20.78 ± 2.77), respectively. Among the 3 media, morulae formation was significantly higher in RVCL. Hence, in the subsequent experiment, RVCL medium was used exclusively in culture for 172 triplets. Cleavage and morulae formation at Day 7 was not significantly different (P < 0.05) in 2 types of donor cells; fetal fibroblasts (77.46 ± 3.65, 38.70 ± 2.66) and adult fibroblasts (75.74 ± 3.04, 33.77 ± 1.43), respectively. The data were analyzed using SYSTAT 7.0 (Systat, SPSS Inc., Chicago, IL, USA) after arcsine transformation, one-way ANOVA followed by Fisher’s LSD test. PCR analysis was performed with highly polymorphic 286-bp fragment of MHC-II DRB gene of cloned embryo and its donor cell. Similar bands were observed in both the cloned embryos and fibroblast cells in agar gel electrophoresis. In conclusion, development of handmade cloned embryos was higher in RVCL medium compared with the other two media tested, and efficiency of morulae formation was similar in both types of donor cells. Further study is required to optimize blastocyst production.

Protein analysis in a pleomorphically deteriorated strain of the insect-pathogenic fungus Metarhizium anisopliae

Pleomorphic deterioration is a process where a fungal isolate loses the ability to produce conidia during repeated subculturing. We have previously isolated strains of the entomopathogenic fungus Metarhizium anisopliae that have irreversibly lost the ability to produce conidia and only produce mycelia when grown on agar. Gel electrophoresis was used to examine differences in intracellular protein patterns (urea-soluble proteins and urea-insoluble proteins (i.e., hydrophobins)) in conidiating and mycelial cultures of M. anisopliae. Two major proteins present in a conidiating culture and one from a mycelial culture were N-terminally sequenced but showed no homologies to known proteins. The presence of hydrophobins in conidiating and mycelial cultures was also examined, and it was shown that these proteins were abundant in conidiating cultures but not in mycelial cultures. We also used primers designed from regulatory genes involved in conidiation in Aspergillus nidulans. The amplified fragments were not homologous to A. nidulans genes.Key words: Metarhizium anisopliae, conidia, pleomorphic deterioration, protein analysis.

Analysis of the survival of mature human eosinophils: interleukin-5 prevents apoptosis in mature human eosinophils

We and other groups have previously shown that interleukin-5 (IL-5) maintained the viability of mature eosinophils in an in vitro liquid culture system. Mature eosinophils did not proliferate but their survival was maintained in the presence of IL-5. Using this culture system, we investigated the mechanism of IL-5-mediated survival. In the absence of human IL-5 (hIL-5) mature eosinophils succumbed after 4 days, while in the presence of hIL-5 they survived up to 10 days. When DNA extracts of cultured eosinophils were analyzed on an agar gel electrophoresis, marked DNA fragmentation was observed in the absence of hIL-5, while no significant DNA fragmentation was observed in the culture with hIL-5 for 48 hours. The DNA fragmentation appeared as early as 6 to 12 hours after hIL-5 deprivation. Concomitantly, IL-5 stimulated total RNA and protein synthesis, but did not induce DNA synthesis in mature eosinophils. Because cycloheximide or actinomycin D impeded the protection of apoptosis by hIL-5, some new RNA and protein synthesis appeared to be required in this phenomena. These findings indicate that IL-5 maintains survival of mature eosinophils with induction of new RNA and protein synthesis, thus leading to the inhibition of apoptosis.

Analysis of the survival of mature human eosinophils: interleukin-5 prevents apoptosis in mature human eosinophils

We and other groups have previously shown that interleukin-5 (IL-5) maintained the viability of mature eosinophils in an in vitro liquid culture system. Mature eosinophils did not proliferate but their survival was maintained in the presence of IL-5. Using this culture system, we investigated the mechanism of IL-5-mediated survival. In the absence of human IL-5 (hIL-5) mature eosinophils succumbed after 4 days, while in the presence of hIL-5 they survived up to 10 days. When DNA extracts of cultured eosinophils were analyzed on an agar gel electrophoresis, marked DNA fragmentation was observed in the absence of hIL-5, while no significant DNA fragmentation was observed in the culture with hIL-5 for 48 hours. The DNA fragmentation appeared as early as 6 to 12 hours after hIL-5 deprivation. Concomitantly, IL-5 stimulated total RNA and protein synthesis, but did not induce DNA synthesis in mature eosinophils. Because cycloheximide or actinomycin D impeded the protection of apoptosis by hIL-5, some new RNA and protein synthesis appeared to be required in this phenomena. These findings indicate that IL-5 maintains survival of mature eosinophils with induction of new RNA and protein synthesis, thus leading to the inhibition of apoptosis.

Isolation and some properties of 11- and 9-Gla prothrombins from normal plasma

The relationship of prothrombin structure to function with respect to γ-carboxyglutamic acid (Gla) residues can be effectively evaluated by characterizing the behavior of prothrombin isomers differing in Gla content. In addition to the isolation of a whole spectrum of Gla-deficient, 0- to 9-Gla isomers from dicoumarol-treated plasma, prothrombin isomers containing 11 (10.90) and 9 (8.85) Gla residues have now been isolated from normal bovine plasma. The isomers were isolated by barium citrate adsorption, elution, and finally by heparin-agarose, DEAE-cellulose, and immuno-affinity chromatographies. Each of the purified isomers showed a single component by agar gel and sodium dodecyl sulfate – polyacrylamide gel electrophoresis. By agar gel electrophoresis, the 11-Gla prothrombin isomer moved the fastest, followed by the 10-, and lastly the 9-Gla isomer, independent of Ca2+. The corresponding 9-, 10-, and 11-Gla prothrombin fragments 1 exhibited similar migration tendencies. By gel electrofocusing, 11- and 9-Gla fragments 1, respectively, focused anodal and cathodal to 10-Gla fragment 1. The Ca2+-induced decrease in the intrinsic fluorescence in 11-, 10-, and 9-Gla fragments 1 was 48, 40, and 45%, respectively. This metal-induced structural change did not correlate with the functional, thrombin-generating property of the isomers, as the 9-Gla variant exhibited 75%, and the 11-Gla 110–115%, of normal coagulant activity.Key words: prothrombin, blood clotting, dicoumarol, Warfarin, γ-carboxyglutamic acid, vitamin K deficiency.

Expression of human liver arginase in Escherichia coli. Purification and properties of the product

Arginase is an enzyme that catalyses the hydrolysis of arginine to urea and ornithine. It is abundantly present in the liver of ureotelic animals (i.e. those whose excretion is characterized by the excretion of uric acid as the chief end-product of nitrogen metabolism), but its purification has hitherto not been simple, and the yield not high. Starting with a partially truncated cDNA for human liver arginase recently made available, we constructed an expression plasmid that had tandemly linked tac promotors placed upstream of a full-length cDNA. By selecting Escherichia coli strain KY1436 as the host micro-organism, we established an efficient system for the production of human liver arginase protein. Chromatographies on CM-Sephadex G-150, DEAE-cellulose and Sephadex G-150, followed by preparative agar-gel electrophoresis, yielded 10 mg of apparently homogeneous enzyme protein from 1 g (wet wt.) of E. coli cells. E. coli-expressed human liver arginase had chemical, immunological and most catalytic properties indistinguishable from those of purified human erythrocyte arginase. However, E. coli-expressed arginase was a monomer of Mr 35,000, whereas the purified erythrocyte arginase was trimer of Mr 105,000. They differed also in pH- and temperature-stabilities. Gel-filtration experiments with these two purified arginases under various conditions, as well as with unfractionated human liver and erythrocyte cytosol preparations, indicated that the native form of human arginase should be of Mr 35,000, and that the trimeric appearance of human erythrocyte arginase after purification was an artifact of the purification procedures. It was thus concluded that, in Nature, the liver and erythrocyte arginases are identical proteins.