Effects of immunoactivity on Ascaris suum infection in mice]

The immune response to sheep red blood cell (sRBC) was monitored in the mice infected with Ascaris suum or Trichinella spiralis. The effects of the infection with T. spiralis or the injection with cyclophosphamide(CY) as an immunosuppression agent prior to challenge infection with the embryonated eggs of A. suum were monitored in mice by means of the level of infection with A. suum and cellular and humoral immune response to sRBC. Following the oral administration of 1,000 eggs of A. suum to mice, delayed-type hypersensitivity (DTH) and rosette-forming rate were gradually decreased and reached to the lowest levels at the 5th week and 6th week postinfection, respectively, and then returned to normal at the 10th week. The hemagglutinin(HA) and hemolysin(HE) titers were gradually elevated and reached to peak at the 3rd week postinfection, and then returned to normal level. The appearance ratios of the eosinophils and mast cells were in peak at the 4th week and the 2nd week postinfection, respectively. Meanwhile the harvest ratio of A. suum larvae from the liver and lungs was 21.97% at the 1st week postinfection. Following the oral administration of 300 T. spiralis infective larvae, DTH and rosette-forming rate were gradually decreased with the lapse of time and reached the lowest values in the 30th and 21st day of postinfection, and then slightly increased and transiently decreased in the 70th and 80th day of postinfection, respectively. HA and HE titers were the lowest in the 21st and 90th day, whereas the ratios of eosinophils and mast cells were the highest on the 40th and 14th day postinfection, respectively. Following the intraperitoneal injection of CY, the body weight, the spleen weight, DTH, rosette-forming ratio, HA and HE titers, the number of WBC and the ratio of the mast cell were predominantly decreased in the 5th day, and then returned to the same value of the 1st day postinjection. The ratio of eosinophils was gradually decreased following to advance of days. At the 1st, 5th and 10th days after intraperitoneal injection of CY of 400 mg/kg, a dose with 1,000 eggs of A. suum was administered orally to mice, and harvest rate of the larvae at the 7th day postadministration was 7.07% in the 1st day, 14.94% in the 5th day, 10.1% in the 10th day, 8.02% in control group. The effect of prior infection with infective larvae of T. spiralis upon immunological sequelae of a challenge infection of mice with embryonated eggs of A. suum in 30 or 70 days interval was checked.(ABSTRACT TRUNCATED AT 400 WORDS)     

Control of the pericentrosomal H2O2 level by peroxiredoxin I is critical for mitotic progression

Proteins associated with the centrosome play key roles in mitotic progression in mammalian cells. The activity of Cdk1-opposing phosphatases at the centrosome must be inhibited during early mitosis to prevent premature dephosphorylation of Cdh1—an activator of the ubiquitin ligase anaphase-promoting complex/cyclosome—and the consequent premature degradation of mitotic activators. In this paper, we show that reversible oxidative inactivation of centrosome-bound protein phosphatases such as Cdc14B by H₂O₂ is likely responsible for this inhibition. The intracellular concentration of H₂O₂ increases as the cell cycle progresses. Whereas the centrosome is shielded from H₂O₂ through its association with the H₂O₂-eliminating enzyme peroxiredoxin I (PrxI) during interphase, the centrosome-associated PrxI is selectively inactivated through phosphorylation by Cdk1 during early mitosis, thereby exposing the centrosome to H₂O₂ and facilitating inactivation of centrosome-bound phosphatases. Dephosphorylation of PrxI by okadaic acid–sensitive phosphatases during late mitosis again shields the centrosome from H₂O₂ and thereby allows the reactivation of Cdk1-opposing phosphatases at the organelle.     

Characterization of phosphatidylinositol-specific phospholipase C defects associated with thrombin-induced mitogenesis

In a previous paper (Rath, H. M., Doyle, G. A. R., and Silbert, D. F. (1989) J. Biol. Chem. 264, 13387-13390), we reported a selection for the isolation of Chinese hamster lung fibroblasts (CCL39) defective in thrombin-induced mitogenesis. One mutant, D1-6b, had decreased production of inositol phosphates when challenged with activators of phosphatidylinositol turnover and extracts of this mutant showed a marked decrease in phospholipase C (PLC) activity toward phosphatidylinositol. In the current studies, the PLC activities of wild type CCL39 and D1-6b cytosolic extracts are further characterized. Wild type cytosol had at least two phosphatidylinositol-specific PLC isoenzymes, which could be separated by anion exchange chromatography and behaved differently in thermal inactivation studies. Since gel filtration of PLC activity in wild type extracts gave Mr values similar to that of previously characterized PLCs (140,000-200,000), immunoblots with antibodies to bovine brain isoenzymes were used to show that the PLC activities obtained by anion exchange chromatography were PLC-delta and PLC-gamma. Immunoblots with mutant D1-6b cytosol confirmed the presence of the PLC-gamma but showed no detectable PLC-delta. This activity in the mutant extracts eluted at the same conductivity on anion exchange columns and had the same kinetics of thermal inactivation as the PLC-gamma found in the wild type extracts. PLC-gamma from mutant extracts was active in assays containing phospholipid detergent mixed micelles but not in assays utilizing phospholipid vesicles, in sharp contrast to PLC-gamma from CCL39 extracts, which was active under either condition. Thus, the phosphatidylinositol-specific phospholipase C activity of mutant D1-6b is diminished both by the loss of PLC-delta and by the compromised behavior of PLC-gamma.     

Purification and properties of D-myo-inositol 1,4,5-trisphosphate 3-kinase from rat brain. Susceptibility to calpain

A new, rapid method for purification of inositol(1,4,5)P3 3-kinase in high yield from rat brain is described. Purified enzyme exhibited a polypeptide of Mr = 53,000 on sodium dodecyl sulfate-polyacrylamide gel and a specific activity of 29 mumol/min/mg at 37 degrees C in the absence of calmodulin. Inclusion of calpain inhibitors was critical for obtaining the 53-kDa protein as the major product and 0.1% of the zwitterionic detergent, 3-[(3-cholamidopropyl)dimethylamino]-2-propanesulfonate, was necessary to stabilize enzyme activity. In the absence of calpain inhibitors, the 53-kDa protein degraded progressively during purification and yielded a mixture containing polypeptides of various sizes. Relative intensity of these degradation products on sodium dodecyl sulfate-polyacrylamide gel varied from one preparation to another. However, broad band(s) at the 42-45 kDa region and a band at 35 kDa were always weak, while bands of 53, 51, 40 (sometimes doublets), 33, and 32 KDa were usually strong. The fact that all of these polypeptides including the weak bands of 42-45 and 35 kDa were derived from the 53 kDa form was confirmed by their immunocross-reactivity with monoclonal antibodies to the 53 kDa form. When the 51, 40, and a mixture of the 33 and 32 kDa forms were obtained separately and nearly free from other forms, each of them exhibited catalytic activity. Nevertheless, calmodulin binds to polypeptides larger than 35,000 but not to the 33 and 32 kDa forms. Incubation of the purified 53 kDa form with calpain generated a fragmentation pattern nearly identical to that generated during purification in the absence of calpain inhibitors. Incubation with five other endoproteases produced proteolytic fragments slightly different from those by calpain. However, the general fragmentation patterns generated by the proteases were similar, suggesting that inositol(1,4,5)P3 3-kinase contains several motifs susceptible to a variety of proteases.     

Photoluminescence imaging of europium (III)‐doped γ‐Al2O3 nanofiber structures

Aluminium oxide (Al₂O₃) has widely been used for catalysts, insulators, and composite materials for diverse applications. Herein, we demonstrated if γ‐Al₂O₃ was useful as a luminescence support material for europium (Eu) (III) activator ion. The hydrothermal method and post‐thermal treatment at 800°C were employed to synthesize Eu(III)‐doped γ‐Al₂O₃ nanofibre structures. Luminescence characteristics of Eu(III) ions in Al₂O₃ matrix were fully understood by taking 2D and 3D‐photoluminescence imaging profiles. Various sharp emissions between 580 to 720 nm were assigned to the ⁵D₀→⁷F_J (J = 0, 1, 2, 3, 4) transitions of Eu(III) activators. On the basis of X‐ray diffraction crystallography, Auger elemental mapping and the asymmetry ratio, Eu(III) ions were found to be well doped into the γ‐Al₂O₃ matrix at a low (1 mol%) doping level. A broad emission at 460 nm was substantially increased upon higher (2 mol%) Eu(III) doping due to defect creation. The first 3D photoluminescence imaging profiles highlight detailed understanding of emission characteristics of Eu(III) ions in Al oxide‐based phosphor materials and their potential applications.     

Colorimetric biosensor using dual-amplification of enzyme-free reaction through universal hybridization chain reaction system

On-site genetic detection needs to develop a sensitive and straightforward biosensor without special equipment, which can detect various genetic biomarkers. Hybridization chain reaction (HCR) amplifying signal isothermally could be considered as a good candidate for on-site detection. Here, we developed a novel genetic biosensor on the basis of enzyme-free dual-amplification of universal hybridization chain reaction (uHCR) and hemin/G-quadruplex horseradish peroxidase (HRP)-mimicking DNAzyme. The uHCR is the strategy which enables simple design for multiple target detection by the introduction of target-specific trigger hairpin without changing the whole system according to a target change. Also, HRP-mimicking DNAzyme could produce a sensitive and quantitative colorimetric signal with increased stability with a limit of detection (LOD) of 5.67 nM. The universality of the uHCR biosensor was proven by the detection of four different targets (miR-21, miR-125b, KRAS-Q61K, and BRAF-V600E) for cancer diagnosis. The uHCR biosensor showed specificity that could discriminate single-nucleotide polymorphism. Moreover, the uHCR biosensor could detect targets in the diluted serum sample. Overall, the uHCR biosensor demonstrated the potential for field testing with a simple redesign without complicated steps or special equipment using a universal hairpin system and enzyme-free amplification. This strategy could enable stable and sensitive detection of a variety of targets. Therefore, it could be applied to urgent detection of various pathogens, remote diagnosis, and self-screening of diseases.